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  • Question 1 - As a medical student in a GP practice, you encounter a mother who...

    Incorrect

    • As a medical student in a GP practice, you encounter a mother who brings in her 5-year-old son. The child has been eating well but is falling through the centiles and gaining height slowly. After conducting a thorough history, examination, and blood tests, you diagnose the child with growth-hormone insufficiency. The mother has several questions about the condition, including when the human body stops producing growth hormone. Can you provide information on the developmental stage that signals the cessation of growth hormone release in the human body?

      Your Answer: After the fusion of the final fontanelle of the skull (10-24 months old)

      Correct Answer: Growth hormone is secreted for life

      Explanation:

      Throughout adulthood, the maintenance of tissues still relies on sufficient levels of growth hormone. This hormone not only promotes growth, but also supports cellular regeneration and reproduction. While it is crucial for normal growth during childhood, it also helps to preserve muscle mass, facilitate organ growth, and boost the immune system, making its lifelong release necessary. Therefore, growth hormone is a key factor in growth during all stages of life, including before, during, and after puberty.

      Understanding Growth Hormone and Its Functions

      Growth hormone (GH) is a hormone produced by the somatotroph cells in the anterior pituitary gland. It plays a crucial role in postnatal growth and development, as well as in regulating protein, lipid, and carbohydrate metabolism. GH acts on a transmembrane receptor for growth factor, leading to receptor dimerization and direct or indirect effects on tissues via insulin-like growth factor 1 (IGF-1), which is primarily secreted by the liver.

      GH secretion is regulated by various factors, including growth hormone releasing hormone (GHRH), fasting, exercise, and sleep. Conversely, glucose and somatostatin can decrease GH secretion. Disorders associated with GH include acromegaly, which results from excess GH, and GH deficiency, which can lead to short stature.

      In summary, GH is a vital hormone that plays a significant role in growth and metabolism. Understanding its functions and regulation can help in the diagnosis and treatment of GH-related disorders.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 2 - A 38-year-old woman presents to the Emergency Department with a 2-day history of...

    Correct

    • A 38-year-old woman presents to the Emergency Department with a 2-day history of left flank pain. She has been recently diagnosed with osteoporosis after a low-energy, femoral neck fracture.

      Her blood results show the following:

      Na+ 140 mmol/L (135 - 145)
      K+ 3.6 mmol/L (3.5 - 5.0)
      Calcium 2.9 mmol/L (2.1-2.6)
      Phosphate 0.6 mmol/L (0.8-1.4)

      Her urine dip is positive for erythrocytes making a diagnosis of renal calculi likely.

      What is the pathophysiological reason for the low serum phosphate level, given the likely underlying pathology?

      Your Answer: Decreased renal phosphate reabsorption

      Explanation:

      The decrease in renal phosphate reabsorption is caused by PTH.

      The symptoms presented are indicative of a kidney stone, which can be a sign of hyperparathyroidism. Primary hyperparathyroidism, caused by a functioning parathyroid adenoma, can result in low phosphate and high calcium levels. PTH reduces renal phosphate reabsorption, leading to increased phosphate loss in urine. Pituitary adenomas are associated with osteoporosis due to excessive PTH causing bone resorption.

      PTH activates vitamin D, which increases phosphate absorption in the gastrointestinal tract. However, the renal loss of phosphate is greater than the increase in absorption, resulting in a net loss of phosphate when PTH levels are high.

      PTH also increases renal vitamin D activation, leading to increased intestinal absorption of calcium and phosphate, as well as increased osteoclast activity. This results in elevated levels of serum calcium and phosphate.

      Hypothyroidism does not significantly affect phosphate regulation, so it would not cause low serum phosphate levels.

      Increased osteoclast activity caused by PTH leads to bone resorption and the release of calcium and phosphate into the blood. However, the renal loss of phosphate is greater than the increase in serum phosphate due to osteoclast activity, resulting in an overall decrease in serum phosphate levels.

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 3 - A 20-year-old woman arrives at the emergency department complaining of abdominal pain, nausea,...

    Incorrect

    • A 20-year-old woman arrives at the emergency department complaining of abdominal pain, nausea, and vomiting. She reports having a cough and fever for the past few days. Upon examination, she has dry mucous membranes and her breath has a fruity odor. Her vital signs are as follows: blood pressure 95/55 mmHg, heart rate 120/min, respiratory rate 29/min, temperature 37.8ºC (100ºF), and oxygen saturation 98% on room air. Laboratory results show:

      - Sodium (Na+): 124 mmol/L (135 - 145)
      - Potassium (K+): 5.5 mmol/L (3.5 - 5.0)
      - Bicarbonate: 13 mmol/L (22 - 29)
      - Serum glucose: 30 mmol/L (4 - 7.8)
      - pH: 7.15 (7.35 - 7.45)
      - Serum ketones: 3.5 mmol/L (0 - 0.6)

      What is the most likely cause of the increased ketones in this patient?

      Your Answer: Glycolysis

      Correct Answer: Lipolysis

      Explanation:

      DKA is a condition that arises due to uncontrolled lipolysis, leading to an excess of free fatty acids that are converted to ketone bodies. This life-threatening complication of diabetes is characterized by elevated levels of blood glucose, ketones, and acidosis, with symptoms such as nausea, vomiting, abdominal pain, dehydration, and fruity breath odor. DKA is commonly observed in type 1 diabetes mellitus and can be triggered by non-compliance with treatment or an infection. Insulin deficiency and increased levels of counterregulatory hormones cause lipolysis in adipose tissue, leading to the release of free fatty acids that undergo hepatic oxidation to form ketone bodies. In DKA, increased gluconeogenesis and glycogenolysis occur due to insulin deficiency and counterregulatory hormones, leading to the synthesis of glucose from non-carbohydrate precursors and breakdown of glycogen, respectively. Glycolysis is not involved in DKA as it does not lead to the breakdown of fatty acids.

      Diabetic ketoacidosis (DKA) is a serious complication of type 1 diabetes mellitus, accounting for around 6% of cases. It can also occur in rare cases of extreme stress in patients with type 2 diabetes mellitus. DKA is caused by uncontrolled lipolysis, resulting in an excess of free fatty acids that are converted to ketone bodies. The most common precipitating factors of DKA are infection, missed insulin doses, and myocardial infarction. Symptoms include abdominal pain, polyuria, polydipsia, dehydration, Kussmaul respiration, and breath that smells like acetone. Diagnostic criteria include glucose levels above 11 mmol/l or known diabetes mellitus, pH below 7.3, bicarbonate below 15 mmol/l, and ketones above 3 mmol/l or urine ketones ++ on dipstick.

      Management of DKA involves fluid replacement, insulin, and correction of electrolyte disturbance. Fluid replacement is necessary as most patients with DKA are deplete around 5-8 litres. Isotonic saline is used initially, even if the patient is severely acidotic. Insulin is administered through an intravenous infusion, and correction of electrolyte disturbance is necessary. Long-acting insulin should be continued, while short-acting insulin should be stopped. Complications may occur from DKA itself or the treatment, such as gastric stasis, thromboembolism, arrhythmias, acute respiratory distress syndrome, acute kidney injury, and cerebral edema. Children and young adults are particularly vulnerable to cerebral edema following fluid resuscitation in DKA and often need 1:1 nursing to monitor neuro-observations, headache, irritability, visual disturbance, focal neurology, etc.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 4 - A 49-year-old man visits the clinic with complaints of muscle cramps and constipation...

    Correct

    • A 49-year-old man visits the clinic with complaints of muscle cramps and constipation that have been present for a week. He appears to be in good health otherwise. Upon conducting a serum potassium test, you discover that his levels are below the normal range. Your next step is to determine the underlying cause of his hypokalaemia. Which of the following medical conditions is commonly linked to low potassium levels?

      Your Answer: Cushing's syndrome

      Explanation:

      Cushing’s syndrome is the correct answer as it causes excess cortisol which can exhibit mineralocorticoid activity and lead to hypokalaemia. The kidneys play a major role in maintaining potassium balance, but other factors such as insulin, catecholamines, and aldosterone also influence potassium levels. The other options listed (congenital adrenal hypoplasia, Addison’s, rhabdomyolysis, metabolic acidosis) all cause hyperkalaemia. Addison’s disease and adrenal hypoplasia result in mineralocorticoid deficiency, leading to hyperkalaemia. Acidosis and rhabdomyolysis also cause hyperkalaemia. Symptoms of hypokalaemia include fatigue, muscle weakness, myalgia, muscle cramps, constipation, hyporeflexia, and rarely paralysis.

      Causes of Cushing’s Syndrome

      Cushing’s syndrome is a condition that can be caused by both endogenous and exogenous factors. However, it is important to note that exogenous causes, such as the use of glucocorticoid therapy, are more common than endogenous ones. The condition can be classified into two categories: ACTH dependent and ACTH independent causes.

      ACTH dependent causes of Cushing’s syndrome include Cushing’s disease, which is caused by a pituitary tumor secreting ACTH and producing adrenal hyperplasia. Ectopic ACTH production, which is caused by small cell lung cancer, is another ACTH dependent cause. On the other hand, ACTH independent causes include iatrogenic factors such as steroid use, adrenal adenoma, adrenal carcinoma, Carney complex, and micronodular adrenal dysplasia.

      In some cases, a condition called Pseudo-Cushing’s can mimic Cushing’s syndrome. This is often caused by alcohol excess or severe depression and can cause false positive results in dexamethasone suppression tests or 24-hour urinary free cortisol tests. To differentiate between Cushing’s syndrome and Pseudo-Cushing’s, an insulin stress test may be used.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 5 - A 42-year-old woman visits her GP complaining of chest pain. She has a...

    Incorrect

    • A 42-year-old woman visits her GP complaining of chest pain. She has a history of hypertension and is currently taking metformin for diabetes. The GP observes that her BMI is 45. What is a possible complication of the metabolic syndrome in this case?

      Your Answer: Brain tumour

      Correct Answer: Ischemic stroke

      Explanation:

      Metabolic syndrome is a group of risk factors for cardiovascular disease that are caused by insulin resistance and central obesity.

      Obesity is associated with higher rates of illness and death, as well as decreased productivity and functioning, increased healthcare expenses, and social and economic discrimination.

      The consequences of obesity include strokes, type 2 diabetes, heart disease, certain cancers (such as breast, colon, and endometrial), polycystic ovarian syndrome, obstructive sleep apnea, fatty liver, gallstones, and mental health issues.

      The Physiology of Obesity: Leptin and Ghrelin

      Leptin is a hormone produced by adipose tissue that plays a crucial role in regulating body weight. It acts on the hypothalamus, specifically on the satiety centers, to decrease appetite and induce feelings of fullness. In cases of obesity, where there is an excess of adipose tissue, leptin levels are high. Leptin also stimulates the release of melanocyte-stimulating hormone (MSH) and corticotrophin-releasing hormone (CRH), which further contribute to the regulation of appetite. On the other hand, low levels of leptin stimulate the release of neuropeptide Y (NPY), which increases appetite.

      Ghrelin, on the other hand, is a hormone that stimulates hunger. It is mainly produced by the P/D1 cells lining the fundus of the stomach and epsilon cells of the pancreas. Ghrelin levels increase before meals, signaling the body to prepare for food intake, and decrease after meals, indicating that the body has received enough nutrients.

      In summary, the balance between leptin and ghrelin plays a crucial role in regulating appetite and body weight. In cases of obesity, there is an imbalance in this system, with high levels of leptin and potentially disrupted ghrelin signaling, leading to increased appetite and weight gain.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 6 - A 23-year-old man was diagnosed with maturity-onset diabetes of the young (MODY) type...

    Incorrect

    • A 23-year-old man was diagnosed with maturity-onset diabetes of the young (MODY) type 1 and has been on an oral anti-diabetic agent for the past year. What is the mechanism of action of the drug he is most likely taking?

      Your Answer: Inhibition of hepatic glucose production and increased peripheral glucose uptake in skeletal muscle

      Correct Answer: Binding to ATP-dependent K+ channel on the pancreatic beta cell membrane

      Explanation:

      The patient is likely taking a sulfonylurea medication, which works by binding to the ATP-dependent K+ channel on the pancreatic beta-cell membrane to promote endogenous insulin secretion. This is the recommended first-line treatment for patients with MODY type 1, as their genetic defect results in reduced insulin secretion. Thiazolidinediones (glitazones) activate peroxisome proliferator-activated receptor-gamma (PPARγ) and are not typically used in this population. Metformin (biguanide class) inhibits hepatic glucose production and increases peripheral uptake, but is less effective than sulfonylureas in MODY type 1. Acarbose inhibits intestinal alpha-glucosidase and is not used in MODY patients. Dipeptidyl peptidase-4 inhibitors (gliptins) are commonly used in type 2 diabetes but are not first-line treatment for MODY.

      Sulfonylureas are a type of medication used to treat type 2 diabetes mellitus. They work by increasing the amount of insulin produced by the pancreas, but only if the beta cells in the pancreas are functioning properly. Sulfonylureas bind to a specific channel on the cell membrane of pancreatic beta cells, known as the ATP-dependent K+ channel (KATP).

      While sulfonylureas can be effective in managing diabetes, they can also cause some adverse effects. The most common side effect is hypoglycemia, which is more likely to occur with long-acting preparations like chlorpropamide. Another common side effect is weight gain. However, there are also rarer side effects that can occur, such as hyponatremia (low sodium levels) due to inappropriate ADH secretion, bone marrow suppression, hepatotoxicity (liver damage), and peripheral neuropathy.

      It is important to note that sulfonylureas should not be used during pregnancy or while breastfeeding.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 7 - A 28-year-old woman complains of amenorrhoea and galactorrhoea for the past six months....

    Incorrect

    • A 28-year-old woman complains of amenorrhoea and galactorrhoea for the past six months. She has not been taking any medication and has been in good health otherwise. A pregnancy test has come back negative. What would be the most suitable investigation for this patient?

      Your Answer: MRI pituitary

      Correct Answer: Prolactin concentration

      Explanation:

      Galactorrhoea and Prolactinomas

      Galactorrhoea is a condition where breast milk is secreted, commonly seen during pregnancy and the early postpartum period. However, if a pregnancy test is negative, it may indicate the presence of a prolactinoma. Prolactinomas are tumors that develop in the pituitary gland, which can be either small or large. These tumors cause symptoms such as menstrual disturbance, infertility, and galactorrhoea due to the secretion of prolactin. Macroprolactinomas can also cause visual field defects, headache, and hypopituitarism due to their mass effect on the pituitary gland. Women with prolactinomas tend to present early due to menstrual cycle and fertility issues, while men may present later.

      The diagnosis of prolactinomas is made by measuring serum prolactin levels and performing MRI imaging of the pituitary gland. Serum prolactin levels are typically several thousand, with a reference range of less than 690 U/L. Elevated prolactin levels can also be caused by pregnancy and lactation, hypothyroidism, and certain medications such as antipsychotics, anti-depressants, and anti-convulsants.

      The treatment for prolactinomas involves drugs such as bromocriptine or cabergoline, which work by inhibiting prolactin release through the dopamine system. These drugs can cause significant tumor shrinkage over several weeks and months of treatment. Patients are typically monitored with serum prolactin levels and MRI scans for several years while continuing the medication. Some patients may be able to stop the medication without any further issues, while others may experience a relapse and need to resume treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 8 - A 14-year-old arrives at the Emergency Department complaining of abdominal pains, nausea, and...

    Incorrect

    • A 14-year-old arrives at the Emergency Department complaining of abdominal pains, nausea, and vomiting. Upon conducting blood tests, the following results are obtained:

      - Glucose: 24 mmol/L (4.0-11.0)
      - Ketones: 4.6 mmol/L (<0.6)
      - Na+: 138 mmol/L (135 - 145)
      - K+: 4.7 mmol/L (3.5 - 5.0)

      Based on these findings, the patient is started on a fixed insulin regimen and given intravenous fluids. After repeating the blood tests, it is observed that the K+ level has dropped to 3.3 mmol/L (3.5 - 5.0). What mechanism is responsible for this effect caused by insulin?

      Your Answer: Stimulation of the ATP-sensitive K+ channel

      Correct Answer: Stimulation of the Na+/K+ ATPase pump

      Explanation:

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 9 - A 38-year-old woman is diagnosed with hyperthyroidism and started on carbimazole. What is...

    Incorrect

    • A 38-year-old woman is diagnosed with hyperthyroidism and started on carbimazole. What is the mechanism of action of this medication?

      Your Answer: Inhibiting 5'-deiodinase

      Correct Answer: Prevents iodination of the tyrosine residue on thyroglobulin

      Explanation:

      Carbimazole is a medication used to treat thyrotoxicosis, a condition where the thyroid gland produces too much thyroid hormone. It is usually given in high doses for six weeks until the patient’s thyroid hormone levels become normal, after which the dosage is reduced. The drug works by blocking thyroid peroxidase, an enzyme that is responsible for coupling and iodinating the tyrosine residues on thyroglobulin, which ultimately leads to a reduction in thyroid hormone production. In contrast, propylthiouracil has a dual mechanism of action, inhibiting both thyroid peroxidase and 5′-deiodinase, which reduces the peripheral conversion of T4 to T3.

      However, carbimazole is not without its adverse effects. One of the most serious side effects is agranulocytosis, a condition where the body’s white blood cell count drops significantly, making the patient more susceptible to infections. Additionally, carbimazole can cross the placenta and affect the developing fetus, although it may be used in low doses during pregnancy under close medical supervision. Overall, carbimazole is an effective medication for managing thyrotoxicosis, but its potential side effects should be carefully monitored.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 10 - A 23-year-old woman is experiencing renal colic and is being evaluated for possible...

    Incorrect

    • A 23-year-old woman is experiencing renal colic and is being evaluated for possible MEN IIa. What is the most common parathyroid gland abnormality associated with this condition?

      Your Answer:

      Correct Answer: Hyperplasia

      Explanation:

      Medullary thyroid cancer, hypercalcaemia, and phaeochromocytoma are associated with multiple endocrine neoplasia type IIa. The most frequent occurrence in this condition is medullary thyroid cancer, while hyperplasia is the most common lesion in the parathyroid glands. In contrast, parathyroid adenoma is the most common lesion in MEN I.

      Understanding Multiple Endocrine Neoplasia

      Multiple endocrine neoplasia (MEN) is an autosomal dominant disorder that affects the endocrine system. There are three main types of MEN, each with its own set of associated features. MEN type I is characterized by the 3 P’s: parathyroid hyperplasia leading to hyperparathyroidism, pituitary tumors, and pancreatic tumors such as insulinomas and gastrinomas. MEN type IIa is associated with the 2 P’s: parathyroid hyperplasia leading to hyperparathyroidism and phaeochromocytoma, as well as medullary thyroid cancer. MEN type IIb is characterized by phaeochromocytoma, medullary thyroid cancer, and a marfanoid body habitus.

      The most common presentation of MEN is hypercalcaemia, which is often seen in MEN type I due to parathyroid hyperplasia. MEN type IIa and IIb are both associated with medullary thyroid cancer, which is caused by mutations in the RET oncogene. MEN type I is caused by mutations in the MEN1 gene. Understanding the different types of MEN and their associated features is important for early diagnosis and management of this rare but potentially serious condition.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 11 - A 67-year-old man has visited the doctor with concerns about his blood glucose...

    Incorrect

    • A 67-year-old man has visited the doctor with concerns about his blood glucose levels. He has type 1 diabetes and also suffers from chronic obstructive pulmonary disease (COPD). Following a recent bout of pneumonia, he has been experiencing difficulty in managing his blood sugars. You suspect that one of his newly prescribed medications may be contributing to this issue. Which medication could be causing acute problems with diabetic control?

      Your Answer:

      Correct Answer: Prednisolone

      Explanation:

      The use of corticosteroids, such as prednisolone, can have a negative impact on diabetic control due to their anti-insulin effects. This can cause an increase in glucagon levels, leading to elevated blood sugar levels. While this effect is usually temporary and should resolve on its own, higher doses of insulin may be necessary during treatment. Prednisolone is often prescribed to manage exacerbations of COPD.

      Amoxicillin, a penicillin antibiotic, can be prescribed alongside prednisolone to treat infective asthma exacerbations. Its bactericidal effects are unlikely to affect diabetes control.

      Carbocisteine is a mucolytic medication commonly used for long-term management of COPD and bronchiectasis. It helps to thin sputum in the lungs, making it easier to cough up and preventing colonization. It is not known to worsen diabetes control.

      Doxycycline, a tetracycline antibiotic, is commonly used to treat COPD exacerbations. However, it does not typically affect blood sugar control and is unlikely to be a contributing factor in this case.

      Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 12 - A 32-year-old man visits the clinic complaining of weakness and frequent muscle cramps...

    Incorrect

    • A 32-year-old man visits the clinic complaining of weakness and frequent muscle cramps that have been ongoing for the past two weeks. Upon examination, you observe widespread hyporeflexia. A blood test reveals hypokalaemia, but the cause has not yet been determined. Which of the following conditions is linked to hypokalaemia?

      Your Answer:

      Correct Answer: Conn's syndrome

      Explanation:

      Primary hyperaldosteronism, also known as Conn’s syndrome, can lead to hypertension, hypernatraemia, and hypokalemia. This condition is caused by an excess of aldosterone, which is responsible for maintaining potassium balance by activating Na+/K+ pumps. However, in excess, aldosterone can cause the movement of potassium into cells, resulting in hypokalaemia. The kidneys play a crucial role in maintaining potassium balance, along with other factors such as insulin, catecholamines, and aldosterone. On the other hand, congenital adrenal hypoplasia, Addison’s disease, rhabdomyolysis, and metabolic acidosis are all causes of hyperkalaemia, which is an excess of potassium in the blood. Addison’s disease and adrenal hypoplasia result in mineralocorticoid deficiency, which can lead to hyperkalaemia. Acidosis can also cause hyperkalaemia by causing positively charged hydrogen ions to enter cells while positively charged potassium ions leave cells and enter the bloodstream.

      Primary hyperaldosteronism is a condition characterized by hypertension, hypokalaemia, and alkalosis. It was previously believed that adrenal adenoma, also known as Conn’s syndrome, was the most common cause of this condition. However, recent studies have shown that bilateral idiopathic adrenal hyperplasia is responsible for up to 70% of cases. It is important to differentiate between the two causes as it determines the appropriate treatment. Adrenal carcinoma is an extremely rare cause of primary hyperaldosteronism.

      To diagnose primary hyperaldosteronism, the 2016 Endocrine Society recommends a plasma aldosterone/renin ratio as the first-line investigation. This test should show high aldosterone levels alongside low renin levels due to negative feedback from sodium retention caused by aldosterone. If the results are positive, a high-resolution CT abdomen and adrenal vein sampling are used to differentiate between unilateral and bilateral sources of aldosterone excess. If the CT is normal, adrenal venous sampling (AVS) can be used to distinguish between unilateral adenoma and bilateral hyperplasia.

      The management of primary hyperaldosteronism depends on the underlying cause. Adrenal adenoma is treated with surgery, while bilateral adrenocortical hyperplasia is managed with an aldosterone antagonist such as spironolactone. It is important to accurately diagnose and manage primary hyperaldosteronism to prevent complications such as cardiovascular disease and stroke.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 13 - A 33-year-old man arrives at the emergency department with symptoms of increased thirst...

    Incorrect

    • A 33-year-old man arrives at the emergency department with symptoms of increased thirst and frequent urination. He had suffered a head injury a few days ago and had previously been discharged after investigations. Upon examination, he appears dehydrated and is admitted to a medical ward. The urine osmolality test results show a low level of 250 mosmol/kg after water deprivation and a high level of 655 mosmol/kg after desmopressin administration. Based on this information, where is the deficient substance typically active?

      Your Answer:

      Correct Answer: Collecting duct

      Explanation:

      The site of action for antidiuretic hormone (ADH) is the collecting ducts in the kidneys. A diagnosis of cranial diabetes insipidus, which can occur after head trauma, is confirmed by low urine osmolalities. In this condition, there is a deficiency of ADH, which is synthesized in the hypothalamus but acts on the collecting ducts to promote water reabsorption. Therefore, the hypothalamus is not the site of action for ADH, despite being where it is synthesized. The Loop of Henle and proximal convoluted tubule are also not the primary sites of action for ADH. ADH is released from the posterior pituitary gland, but its action occurs in the collecting ducts.

      Understanding Antidiuretic Hormone (ADH)

      Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.

      ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.

      Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.

      Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 14 - Which of the following hinders the production of insulin secretion? ...

    Incorrect

    • Which of the following hinders the production of insulin secretion?

      Your Answer:

      Correct Answer: Adrenaline

      Explanation:

      The release of insulin can be inhibited by alpha adrenergic drugs, beta blockers, and sympathetic nerves.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 15 - A young man presents with polyuria, polydipsia and weight loss. He is subsequently...

    Incorrect

    • A young man presents with polyuria, polydipsia and weight loss. He is subsequently diagnosed with type 1 diabetes mellitus. What is he at an increased risk of developing?

      Your Answer:

      Correct Answer: Addison's disease, Grave's disease, coeliac disease

      Explanation:

      Type 1 diabetes is linked to other autoimmune disorders like Addison’s disease, Grave’s disease, and coeliac disease, due to its own autoimmune nature. The other choices are incorrect as they contain a non-autoimmune disorder.

      Understanding Diabetes Mellitus: A Basic Overview

      Diabetes mellitus is a chronic condition characterized by abnormally raised levels of blood glucose. It is one of the most common conditions encountered in clinical practice and represents a significant burden on the health systems of the developed world. The management of diabetes mellitus is crucial as untreated type 1 diabetes would usually result in death. Poorly treated type 1 diabetes mellitus can still result in significant morbidity and mortality. The main focus of diabetes management now is reducing the incidence of macrovascular and microvascular complications.

      There are different types of diabetes mellitus, including type 1 diabetes mellitus, type 2 diabetes mellitus, prediabetes, gestational diabetes, maturity onset diabetes of the young, latent autoimmune diabetes of adults, and other types. The presentation of diabetes mellitus depends on the type, with type 1 diabetes mellitus often presenting with weight loss, polydipsia, polyuria, and diabetic ketoacidosis. On the other hand, type 2 diabetes mellitus is often picked up incidentally on routine blood tests and presents with polydipsia and polyuria.

      There are four main ways to check blood glucose, including a finger-prick bedside glucose monitor, a one-off blood glucose, a HbA1c, and a glucose tolerance test. The diagnostic criteria are determined by WHO, with a fasting glucose greater than or equal to 7.0 mmol/l and random glucose greater than or equal to 11.1 mmol/l being diagnostic of diabetes mellitus. Management of diabetes mellitus involves drug therapy to normalize blood glucose levels, monitoring for and treating any complications related to diabetes, and modifying any other risk factors for other conditions such as cardiovascular disease. The first-line drug for the vast majority of patients with type 2 diabetes mellitus is metformin, with second-line drugs including sulfonylureas, gliptins, and pioglitazone. Insulin is used if oral medication is not controlling the blood glucose to a sufficient degree.

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  • Question 16 - A 45-year-old male has been diagnosed with Cushing's disease due to a pituitary...

    Incorrect

    • A 45-year-old male has been diagnosed with Cushing's disease due to a pituitary adenoma, resulting in elevated plasma cortisol levels. Which part of the adrenal gland is responsible for producing cortisol hormone?

      Your Answer:

      Correct Answer: Zona fasciculata

      Explanation:

      The adrenal gland comprises two primary parts: the cortex and medulla.

      The adrenal medulla is accountable for the production of adrenaline and noradrenaline, which are catecholamines.

      The adrenal cortex is divided into three layers: glomerulosa, fasciculata, and reticularis. The glomerulosa primarily produces mineralocorticoids, while the reticularis mainly produces sex steroids. As a result, the Zona fasciculata is the primary source of glucocorticosteroids.

      Cortisol: Functions and Regulation

      Cortisol is a hormone produced in the zona fasciculata of the adrenal cortex. It plays a crucial role in various bodily functions and is essential for life. Cortisol increases blood pressure by up-regulating alpha-1 receptors on arterioles, allowing for a normal response to angiotensin II and catecholamines. However, it inhibits bone formation by decreasing osteoblasts, type 1 collagen, and absorption of calcium from the gut, while increasing osteoclastic activity. Cortisol also increases insulin resistance and metabolism by increasing gluconeogenesis, lipolysis, and proteolysis. It inhibits inflammatory and immune responses, but maintains the function of skeletal and cardiac muscle.

      The regulation of cortisol secretion is controlled by the hypothalamic-pituitary-adrenal (HPA) axis. The pituitary gland secretes adrenocorticotropic hormone (ACTH), which stimulates the adrenal cortex to produce cortisol. The hypothalamus releases corticotrophin-releasing hormone (CRH), which stimulates the pituitary gland to release ACTH. Stress can also increase cortisol secretion.

      Excess cortisol in the body can lead to Cushing’s syndrome, which can cause a range of symptoms such as weight gain, muscle weakness, and high blood pressure. Understanding the functions and regulation of cortisol is important for maintaining overall health and preventing hormonal imbalances.

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  • Question 17 - A 9-year-old girl is being treated by a paediatrician for bedwetting at night....

    Incorrect

    • A 9-year-old girl is being treated by a paediatrician for bedwetting at night. Non-invasive methods have not yielded any results and her family is interested in trying medication. The paediatrician has approved a trial of desmopressin.

      What is the site of action of this drug?

      Your Answer:

      Correct Answer: The collecting ducts of the kidney

      Explanation:

      Desmopressin is a synthetic version of antidiuretic hormone (ADH) that acts on the collecting ducts in the kidneys. ADH is released by the posterior pituitary gland in response to increased blood osmolality. By increasing the reabsorption of solute-free water in the collecting ducts, ADH reduces blood osmolality and produces small volumes of concentrated urine. This mechanism is effective in reducing the volume of urine produced overnight in cases of nocturnal enuresis (bed-wetting). The distal tubule, glomerulus, and proximal tubule are not sites of ADH action. Although the posterior pituitary gland produces ADH, it exerts its effects on the kidneys.

      Understanding Antidiuretic Hormone (ADH)

      Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.

      ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.

      Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.

      Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.

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  • Question 18 - Which of the following will increase the volume of pancreatic exocrine secretions? ...

    Incorrect

    • Which of the following will increase the volume of pancreatic exocrine secretions?

      Your Answer:

      Correct Answer: Cholecystokinin

      Explanation:

      The volume of pancreatic secretions is often increased by cholecystokinin.

      Pancreatic Secretions and their Regulation

      Pancreatic secretions are composed of enzymes and aqueous substances, with a pH of 8 and a volume of 1000-1500ml per day. The acinar cells secrete enzymes such as trypsinogen, procarboxylase, amylase, and elastase, while the ductal and centroacinar cells secrete sodium, bicarbonate, water, potassium, and chloride. The regulation of pancreatic secretions is mainly stimulated by CCK and ACh, which are released in response to digested material in the small bowel. Secretin, released by the S cells of the duodenum, also stimulates ductal cells and increases bicarbonate secretion.

      Trypsinogen is converted to active trypsin in the duodenum via enterokinase, and trypsin then activates the other inactive enzymes. The cephalic and gastric phases have less of an impact on regulating pancreatic secretions. Understanding the composition and regulation of pancreatic secretions is important in the diagnosis and treatment of pancreatic disorders.

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  • Question 19 - A young man comes to the clinic with symptoms suggestive of mania. After...

    Incorrect

    • A young man comes to the clinic with symptoms suggestive of mania. After further inquiry and assessment, he is found to have tachycardia, sweaty palms, and a recent bout of diarrhea. What is the probable diagnosis?

      Your Answer:

      Correct Answer: Grave's disease

      Explanation:

      The correct diagnosis for this patient is Grave’s disease, which is characterized by hyperthyroidism. While mania may be a symptom, it is important to note that tachycardia, sweaty hands, and exophthalmos are specific to Grave’s disease.

      Bipolar disorder may also present with manic episodes, but it does not typically include the other symptoms associated with hyperthyroidism.

      Hashimoto’s thyroiditis is another autoimmune thyroid disorder, but it causes hypothyroidism instead of hyperthyroidism. Symptoms of hypothyroidism may include bradycardia and dry skin.

      Graves’ Disease: Common Features and Unique Signs

      Graves’ disease is the most frequent cause of thyrotoxicosis, which is commonly observed in women aged 30-50 years. The condition presents typical features of thyrotoxicosis, such as weight loss, palpitations, and heat intolerance. However, Graves’ disease also displays specific signs that are not present in other causes of thyrotoxicosis. These include eye signs, such as exophthalmos and ophthalmoplegia, as well as pretibial myxoedema and thyroid acropachy. The latter is a triad of digital clubbing, soft tissue swelling of the hands and feet, and periosteal new bone formation.

      Graves’ disease is characterized by the presence of autoantibodies, including TSH receptor stimulating antibodies in 90% of patients and anti-thyroid peroxidase antibodies in 75% of patients. Thyroid scintigraphy reveals a diffuse, homogenous, and increased uptake of radioactive iodine. These features help distinguish Graves’ disease from other causes of thyrotoxicosis and aid in its diagnosis.

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  • Question 20 - Which of the following explains the mechanism by which PTH increases serum calcium...

    Incorrect

    • Which of the following explains the mechanism by which PTH increases serum calcium levels?

      Your Answer:

      Correct Answer: Activation of vitamin D to increase absorption of calcium from the small intestine.

      Explanation:

      The activity of the 1-α-hydroxylase enzyme, which converts 25-hydroxycholecalciferol to 1,25-dihydroxycholecalciferol (the active form of vitamin D), is increased by PTH. Osteoblasts mediate the effects of PTH on osteoclasts, as osteoclasts do not have a PTH receptor.

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

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  • Question 21 - An aged woman with malabsorption and weight loss was diagnosed with small bowel...

    Incorrect

    • An aged woman with malabsorption and weight loss was diagnosed with small bowel amyloidosis. She was initially found to have osteomalacia and hypocalcemia. Despite receiving total parenteral nutrition with sufficient calcium replacement for the past seven days, she remained hypocalcemic. Which electrolyte deficiency is most likely responsible for this condition?

      Your Answer:

      Correct Answer: Magnesium

      Explanation:

      Magnesium deficiency may occur in patients with malabsorption, even if they receive magnesium through TPN feeds, as it may not be enough to compensate for their losses. Serum calcium levels are not affected by sodium, phosphate, and potassium.

      The Importance of Magnesium and Calcium in the Body

      Magnesium and calcium are essential minerals in the body. Magnesium plays a crucial role in the secretion and action of parathyroid hormone (PTH) on target tissues. However, a deficiency in magnesium can cause hypocalcaemia and make patients unresponsive to calcium and vitamin D supplementation.

      The body contains 1000 mmol of magnesium, with half stored in bones and the rest in muscle, soft tissues, and extracellular fluid. Unlike calcium, there is no specific hormonal control of magnesium. Hormones such as PTH and aldosterone affect the renal handling of magnesium.

      Magnesium and calcium also interact at a cellular level. A decrease in magnesium levels can affect the permeability of cellular membranes to calcium, leading to hyperexcitability. Therefore, it is essential to maintain adequate levels of both magnesium and calcium in the body for optimal health.

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  • Question 22 - What is the primary constituent of the colloid found in the thyroid gland?...

    Incorrect

    • What is the primary constituent of the colloid found in the thyroid gland?

      Your Answer:

      Correct Answer: Thyroglobulin

      Explanation:

      Thyroid Hormones and LATS in Graves Disease

      Thyroid hormones are produced by the thyroid gland and include triiodothyronine (T3) and thyroxine (T4), with T3 being the major hormone active in target cells. The synthesis and secretion of these hormones involves the active concentration of iodide by the thyroid, which is then oxidized and iodinated by peroxidase in the follicular cells. This process is stimulated by thyroid-stimulating hormone (TSH), which is released by the pituitary gland. The normal thyroid has approximately three months’ worth of reserves of thyroid hormones.

      In Graves disease, patients develop IgG antibodies to the TSH receptors on the thyroid gland. This results in chronic and long-term stimulation of the gland with the release of thyroid hormones. As a result, individuals with Graves disease typically have raised thyroid hormones and low TSH levels. It is important to check for thyroid receptor autoantibodies in individuals presenting with hyperthyroidism, as they are present in up to 85% of cases. This condition is known as LATS (long-acting thyroid stimulator) and can lead to a range of symptoms and complications if left untreated.

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  • Question 23 - A 58-year-old man with chronic pancreatitis of many years develops pancreatic insufficiency. What...

    Incorrect

    • A 58-year-old man with chronic pancreatitis of many years develops pancreatic insufficiency. What substance will be absorbed normally?

      Your Answer:

      Correct Answer: Folic acid

      Explanation:

      The digestion of fat necessitates the presence of pancreatic lipase, while the absorption of protein and B12 is aided by proteases. Folate digestion, on the other hand, does not rely on the pancreas.

      Pancreatic Secretions and their Regulation

      Pancreatic secretions are composed of enzymes and aqueous substances, with a pH of 8 and a volume of 1000-1500ml per day. The acinar cells secrete enzymes such as trypsinogen, procarboxylase, amylase, and elastase, while the ductal and centroacinar cells secrete sodium, bicarbonate, water, potassium, and chloride. The regulation of pancreatic secretions is mainly stimulated by CCK and ACh, which are released in response to digested material in the small bowel. Secretin, released by the S cells of the duodenum, also stimulates ductal cells and increases bicarbonate secretion.

      Trypsinogen is converted to active trypsin in the duodenum via enterokinase, and trypsin then activates the other inactive enzymes. The cephalic and gastric phases have less of an impact on regulating pancreatic secretions. Understanding the composition and regulation of pancreatic secretions is important in the diagnosis and treatment of pancreatic disorders.

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  • Question 24 - A 38-year-old woman presents with symptoms of irritability and changes in bowel habits....

    Incorrect

    • A 38-year-old woman presents with symptoms of irritability and changes in bowel habits. During examination, a smooth enlargement of the thyroid gland is noted. Thyroid function tests are ordered and the results are as follows:
      TSH 0.1 mug/l
      Free T4 35 pmol/l
      What is the most likely underlying diagnosis?

      Your Answer:

      Correct Answer: Graves disease

      Explanation:

      When TSH receptor antibodies are present, they stimulate the thyroid to produce T4. This results in a decrease in TSH levels due to negative feedback on the pituitary. However, in cases where hyperthyroidism is caused by pregnancy, the TSH levels are usually elevated.

      Understanding Thyroid Disease and its Management

      Thyroid disease can present with various manifestations, which can be classified based on the presence or absence of clinical signs of thyroid dysfunction and the presence of a mass. To assess thyroid disease, a thorough history and examination, including ultrasound, are necessary. If a nodule is identified, it should be sampled through an image-guided fine needle aspiration. Radionucleotide scanning is not very useful.

      Thyroid tumors can be papillary, follicular, anaplastic, medullary, or lymphoma. Multinodular goitre is a common reason for presentation, and if the patient is asymptomatic and euthyroid, they can be reassured. However, if they have compressive symptoms, surgery is required, and total thyroidectomy is the best option. Patients with endocrine dysfunction are initially managed by physicians, and surgery may be offered alongside radioiodine for those with Graves disease that fails with medical management or in patients who prefer not to be irradiated. Patients with hypothyroidism do not generally get offered a thyroidectomy.

      Complications following surgery include anatomical damage to the recurrent laryngeal nerve, bleeding, and damage to the parathyroid glands resulting in hypocalcaemia. For further information, the Association of Clinical Biochemistry guidelines for thyroid function tests and the British Association of Endocrine Surgeons website can be consulted.

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  • Question 25 - A 45-year-old Caucasian male visits his doctor complaining of numbness in his extremities...

    Incorrect

    • A 45-year-old Caucasian male visits his doctor complaining of numbness in his extremities and tingling sensations around his mouth and lips. He has undergone a thyroidectomy in the past. During a complete cranial nerve examination, the physician observes facial muscle twitching upon tapping the patient's face.

      What is the reason for the facial muscle twitching observed during the examination?

      Your Answer:

      Correct Answer: Increased irritability of peripheral nerves due to hypocalcaemia

      Explanation:

      Chvostek’s sign is a facial twitch that occurs when the distribution of the facial nerve in front of the tragus is tapped. This sign is caused by increased irritability of peripheral nerves, which is often seen in cases of hypocalcemia. In fact, Chvostek’s sign is considered the most reliable test for hypocalcemia.

      Calcium homeostasis is the process of regulating the concentration of calcium ions in the extracellular fluid. This is important because calcium ions help stabilize voltage-gated ion channels. When calcium levels are too low, these ion channels become more easily activated, leading to hyperactivity in nerve and muscle cells. This can result in hypocalcemic tetany, which is characterized by involuntary muscle spasms. On the other hand, when calcium levels are too high, voltage-gated ion channels become less responsive, leading to depressed nervous system function.

      Understanding Hypoparathyroidism

      Hypoparathyroidism is a medical condition that occurs when there is a decrease in the secretion of parathyroid hormone (PTH). This can be caused by primary hypoparathyroidism, which is often a result of thyroid surgery, leading to low calcium and high phosphate levels. Treatment for this type of hypoparathyroidism involves the use of alfacalcidol. The main symptoms of hypoparathyroidism are due to hypocalcaemia and include muscle twitching, cramping, and spasms, as well as perioral paraesthesia. Other symptoms include Trousseau’s sign, which is carpal spasm when the brachial artery is occluded, and Chvostek’s sign, which is facial muscle twitching when the parotid is tapped. Chronic hypoparathyroidism can lead to depression and cataracts, and ECG may show a prolonged QT interval.

      Pseudohypoparathyroidism is another type of hypoparathyroidism that occurs when the target cells are insensitive to PTH due to an abnormality in a G protein. This condition is associated with low IQ, short stature, and shortened 4th and 5th metacarpals. The diagnosis is made by measuring urinary cAMP and phosphate levels following an infusion of PTH. In hypoparathyroidism, this will cause an increase in both cAMP and phosphate levels. In pseudohypoparathyroidism type I, neither cAMP nor phosphate levels are increased, while in pseudohypoparathyroidism type II, only cAMP rises. Pseudopseudohypoparathyroidism is a similar condition to pseudohypoparathyroidism, but with normal biochemistry.

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  • Question 26 - A 65-year-old man presents with abdominal tenderness, steatorrhoea, and jaundice. Upon investigation, a...

    Incorrect

    • A 65-year-old man presents with abdominal tenderness, steatorrhoea, and jaundice. Upon investigation, a somatostatinoma of the pancreas is discovered. What is the probable cell type from which this neoplasm originated?

      Your Answer:

      Correct Answer: Delta-cells

      Explanation:

      Somatostatin is secreted by the delta cells located in the pancreas. These cells are also present in the stomach, duodenum, and jejunum. In the pancreas, somatostatin plays a role in inhibiting the release of exocrine enzymes, glucagon, and insulin. In rare cases of large somatostatinomas, patients may experience mild diabetes mellitus.

      The answer choices of alpha-cells, beta-cells, and S-cells are incorrect as they secrete glucagon, insulin, and secretin, respectively.

      Somatostatin: The Inhibitor Hormone

      Somatostatin, also known as growth hormone inhibiting hormone (GHIH), is a hormone produced by delta cells found in the pancreas, pylorus, and duodenum. Its main function is to inhibit the secretion of growth hormone, insulin, and glucagon. It also decreases acid and pepsin secretion, as well as pancreatic enzyme secretion. Additionally, somatostatin inhibits the trophic effects of gastrin and stimulates gastric mucous production.

      Somatostatin analogs are commonly used in the management of acromegaly, a condition characterized by excessive growth hormone secretion. These analogs work by inhibiting growth hormone secretion, thereby reducing the symptoms associated with acromegaly.

      The secretion of somatostatin is regulated by various factors. Its secretion increases in response to fat, bile salts, and glucose in the intestinal lumen, as well as glucagon. On the other hand, insulin decreases the secretion of somatostatin.

      In summary, somatostatin plays a crucial role in regulating the secretion of various hormones and enzymes in the body. Its inhibitory effects on growth hormone, insulin, and glucagon make it an important hormone in the management of certain medical conditions.

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  • Question 27 - A 25-year-old woman comes to the clinic with a thyroid cancer. She has...

    Incorrect

    • A 25-year-old woman comes to the clinic with a thyroid cancer. She has no significant family history and is in good health. During the examination, a nodule is found in the left lobe of her thyroid, which appears to be a small, distinct mass separate from the gland. What is the most probable cause of this finding?

      Your Answer:

      Correct Answer: Papillary carcinoma

      Explanation:

      The most frequent subtype of thyroid cancer is papillary carcinoma, which can lead to lymph node metastasis. This occurrence is uncommon in follicular tumors. Anaplastic carcinoma is rare in this age group and would result in more localized symptoms.

      Thyroid cancer rarely causes hyperthyroidism or hypothyroidism as it does not usually secrete thyroid hormones. The most common type of thyroid cancer is papillary carcinoma, which is often found in young females and has an excellent prognosis. Follicular carcinoma is less common, while medullary carcinoma is a cancer of the parafollicular cells that secrete calcitonin and is associated with multiple endocrine neoplasia type 2. Anaplastic carcinoma is rare and not responsive to treatment, causing pressure symptoms. Lymphoma is also rare and associated with Hashimoto’s thyroiditis.

      Management of papillary and follicular cancer involves a total thyroidectomy followed by radioiodine to kill residual cells. Yearly thyroglobulin levels are monitored to detect early recurrent disease. Papillary carcinoma usually contains a mixture of papillary and colloidal filled follicles, while follicular adenoma presents as a solitary thyroid nodule and malignancy can only be excluded on formal histological assessment. Follicular carcinoma may appear macroscopically encapsulated, but microscopically capsular invasion is seen. Medullary carcinoma is associated with raised serum calcitonin levels and familial genetic disease in up to 20% of cases. Anaplastic carcinoma is most common in elderly females and is treated by resection where possible, with palliation achieved through isthmusectomy and radiotherapy. Chemotherapy is ineffective.

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  • Question 28 - A 30-year-old male visits his GP complaining of chronic thirst, polyuria, and nocturia...

    Incorrect

    • A 30-year-old male visits his GP complaining of chronic thirst, polyuria, and nocturia that have persisted for 4 months. He has a medical history of OCD, which was diagnosed 2 years ago. After a series of tests, the patient is diagnosed with primary polydipsia.

      What would be the probable outcome of this patient's water deprivation test?

      Your Answer:

      Correct Answer: High urine osmolality after both fluid deprivation and desmopressin

      Explanation:

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 29 - Sarah, a 25-year-old type 1 diabetic, is interested in joining a local running...

    Incorrect

    • Sarah, a 25-year-old type 1 diabetic, is interested in joining a local running group. As her physician, it is important to inform her of the potential impact this increase in physical activity may have on her blood sugar levels. What advice do you give her?

      Your Answer:

      Correct Answer: She is at risk of an early and a late drop, hours later, in her blood glucose due muscle uptake and replacement of glycogen

      Explanation:

      Glucose levels are impacted by exercise in various ways. Firstly, there is an initial decrease due to the increased uptake of glucose in the muscles through GLUT-2, which does not require insulin. Secondly, during high-intensity sports, the release of adrenaline and cortisol can cause a temporary increase in blood glucose levels, especially during competitive events. Finally, there is a delayed decrease as the muscles and liver glycogen are utilized during exercise and then replenished over the following hours.

      Glycogenesis – the process of storing glucose as glycogen

      Glycogenesis is the process of converting glucose into glycogen for storage in the liver and muscles. This process is important for maintaining blood glucose levels and providing energy during times of fasting or exercise. The key enzyme involved in glycogenesis is glycogen synthase, which catalyzes the formation of α-1,4-glycosidic bonds between glucose molecules to form glycogen. Branching enzyme then creates α-1,6-glycosidic bonds to form branches in the glycogen molecule. Glycogenin, a protein that acts as a primer for glycogen synthesis, is also involved in the process. Glycogenesis is regulated by hormones such as insulin and glucagon, which stimulate and inhibit glycogen synthesis, respectively. Understanding the process of glycogenesis is important for understanding how the body stores and utilizes glucose for energy.

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  • Question 30 - A teenage girl and her mother come to the doctor's office with concerns...

    Incorrect

    • A teenage girl and her mother come to the doctor's office with concerns about ambiguous genitalia. Upon conducting a thorough medical history and various tests, the doctor diagnoses the girl with congenital adrenal hyperplasia. What is the reason for adrenal hyperplasia being a characteristic of this condition?

      Your Answer:

      Correct Answer: Inefficient cortisol synthesis

      Explanation:

      Low cortisol production and compensatory adrenal hyperplasia are caused by 21-hydroxylase deficiency, leading to increased androgen production and ambiguous genitalia. The enzymes 11-beta hydroxylase and 17-hydroxylase are also involved. Testosterone and estrogen synthesis is not affected as they are produced in the testes and ovaries, respectively. Congenital adrenal hyperplasia is not caused by aldosterone synthesis, despite it occurring in the adrenal cortex.

      Congenital adrenal hyperplasia is a genetic condition that affects the adrenal glands and can result in various symptoms depending on the specific enzyme deficiency. One common form is 21-hydroxylase deficiency, which can cause virilization of female genitalia, precocious puberty in males, and a salt-losing crisis in 60-70% of patients during the first few weeks of life. Another form is 11-beta hydroxylase deficiency, which can also cause virilization and precocious puberty, as well as hypertension and hypokalemia. A third form is 17-hydroxylase deficiency, which typically does not cause virilization in females but can result in intersex characteristics in boys and hypertension.

      Overall, congenital adrenal hyperplasia can have significant impacts on a person’s physical development and health, and early diagnosis and treatment are important for managing symptoms and preventing complications.

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  • Question 31 - A 35-year-old woman comes in with symptoms of renal colic. Upon conducting tests,...

    Incorrect

    • A 35-year-old woman comes in with symptoms of renal colic. Upon conducting tests, the following results are obtained:
      Corrected Calcium 3.84 mmol/l
      PTH 88 pg/ml (increased)
      Her serum urea and electrolytes are within normal range.
      What is the probable diagnosis?

      Your Answer:

      Correct Answer: Primary hyperparathyroidism

      Explanation:

      The most probable diagnosis in this scenario is primary hyperparathyroidism, as serum urea and electrolytes are normal, making tertiary hyperparathyroidism less likely.

      Primary Hyperparathyroidism: Causes, Symptoms, and Treatment

      Primary hyperparathyroidism is a condition that is commonly seen in elderly females and is characterized by an unquenchable thirst and an inappropriately normal or raised parathyroid hormone level. It is usually caused by a solitary adenoma, hyperplasia, multiple adenoma, or carcinoma. While around 80% of patients are asymptomatic, the symptomatic features of primary hyperparathyroidism may include polydipsia, polyuria, depression, anorexia, nausea, constipation, peptic ulceration, pancreatitis, bone pain/fracture, renal stones, and hypertension.

      Primary hyperparathyroidism is associated with hypertension and multiple endocrine neoplasia, such as MEN I and II. To diagnose this condition, doctors may perform a technetium-MIBI subtraction scan or look for a characteristic X-ray finding of hyperparathyroidism called the pepperpot skull.

      The definitive management for primary hyperparathyroidism is total parathyroidectomy. However, conservative management may be offered if the calcium level is less than 0.25 mmol/L above the upper limit of normal, the patient is over 50 years old, and there is no evidence of end-organ damage. Patients who are not suitable for surgery may be treated with cinacalcet, a calcimimetic that mimics the action of calcium on tissues by allosteric activation of the calcium-sensing receptor.

      In summary, primary hyperparathyroidism is a condition that can cause various symptoms and is commonly seen in elderly females. It can be diagnosed through various tests and managed through surgery or medication.

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  • Question 32 - A 62-year-old male with type 2 diabetes is urgently referred by his GP...

    Incorrect

    • A 62-year-old male with type 2 diabetes is urgently referred by his GP due to poor glycaemic control for the past three days, with home blood glucose readings around 25 mmol/L. He is currently being treated with metformin and lisinopril. Yesterday, his GP checked his U+E and found that his serum sodium was 138 mmol/L (137-144), serum potassium was 5.8 mmol/L (3.5-4.9), serum urea was 20 mmol/L (2.5-7.5), and serum creatinine was 350 µmol/L (60-110). On examination, he has a temperature of 39°C, a pulse of 108 bpm, a blood pressure of 96/60 mmHg, a respiratory rate of 32/min, and oxygen saturations of 99% on air. His cardiovascular, respiratory, and abdominal examination are otherwise normal. Further investigations reveal a plasma glucose level of 17 mmol/L (3.0-6.0) and urine analysis showing blood ++ and protein ++, but ketones are negative. What is the likely diagnosis?

      Your Answer:

      Correct Answer: Sepsis

      Explanation:

      The causes of septic shock are important to understand in order to provide appropriate treatment and improve patient outcomes. Septic shock can cause fever, hypotension, and renal failure, as well as tachypnea due to metabolic acidosis. However, it is crucial to rule out other conditions such as hyperosmolar hyperglycemic state or diabetic ketoacidosis, which have different symptoms and diagnostic criteria.

      While metformin can contribute to acidosis, it is unlikely to be the primary cause in this case. Diabetic patients may be prone to renal tubular acidosis, but this is not likely to be the cause of an acute presentation. Instead, a type IV renal tubular acidosis, characterized by hyporeninaemic hypoaldosteronism, may be a more likely association.

      Overall, it is crucial to carefully evaluate patients with septic shock and consider all possible causes of their symptoms. By ruling out other conditions and identifying the underlying cause of the acidosis, healthcare providers can provide targeted treatment and improve patient outcomes. Further research and education on septic shock and its causes can also help to improve diagnosis and treatment in the future.

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  • Question 33 - A 30-year-old female with a two year history of type 1 diabetes presents...

    Incorrect

    • A 30-year-old female with a two year history of type 1 diabetes presents with a two day history of colicky abdominal pain and vomiting. She has been relatively anorexic and has cut down on her insulin today as she has not been able to eat that much.

      On examination she has a sweet smell to her breath, has some loss of skin turgor, has a pulse of 102 bpm regular and a blood pressure of 112/70 mmHg. Her abdomen is generally soft with some epigastric tenderness.

      BM stix analysis reveals a glucose of 19 mmol/L (3.0-6.0).

      What investigation would be the most important for this woman?

      Your Answer:

      Correct Answer: Blood gas analysis

      Explanation:

      Diabetic Ketoacidosis: Diagnosis and Investigations

      Diabetic ketoacidosis (DKA) is a serious complication of diabetes that can lead to life-threatening consequences. Symptoms include ketotic breath, vomiting, abdominal pain, and dehydration. To confirm the diagnosis, it is essential to prove the presence of acidosis and ketosis. The most urgent and important investigation is arterial or venous blood gas analysis, which can reveal the level of acidosis and low bicarbonate.

      Other investigations that can be helpful include a full blood count (FBC) to show haemoconcentration and a raised white cell count, and urinalysis to detect glucose and ketones. However, venous or capillary ketones are needed to confirm DKA. A plasma glucose test is also part of the investigation, but it is not as urgent as the blood gas analysis.

      An abdominal x-ray is not useful in diagnosing DKA, and a chest x-ray is only indicated if there are signs of a lower respiratory tract infection. Blood cultures are unlikely to grow anything, and amylase levels are often raised but do not provide diagnostic information in this case.

      It is important to note that DKA can occur even if the plasma glucose level is normal. Therefore, prompt diagnosis and treatment are crucial to prevent complications and improve outcomes.

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  • Question 34 - A 50-year-old man with type 2 diabetes mellitus visits his GP for his...

    Incorrect

    • A 50-year-old man with type 2 diabetes mellitus visits his GP for his annual health check-up. His HbA1c level is 86mmol/L and the GP is contemplating the addition of empagliflozin to his diabetes management plan.

      What is the mechanism of action of empagliflozin?

      Your Answer:

      Correct Answer: Inhibition of the sodium-glucose transporter in the kidney

      Explanation:

      SGLT-2 inhibitors work by blocking the action of sodium-glucose co-transporter 2 (SGLT-2) in the renal proximal convoluted tubule, which leads to a decrease in glucose re-absorption into the circulation. Empagliflozin is an example of an SGLT-2 inhibitor.

      Sulphonylureas increase insulin secretion from β islet cells in the pancreas by blocking potassium channels, which causes islet cell depolarisation and release of insulin.

      DPP-4 inhibitors, such as sitagliptin, prevent the breakdown of GLP-1 (glucagon-like peptide) by inhibiting the enzyme DPP-4. This leads to suppression of glucagon release and an increase in insulin release.

      Acarbose inhibits α glucosidase and other enzymes in the small intestine, which prevents the breakdown of complex carbohydrates into glucose. This results in less glucose being available for absorption into the bloodstream.

      Thiazolidinediones reduce insulin resistance in peripheral tissues and decrease gluconeogenesis in the liver by stimulating PPAR-γ (peroxisome proliferator-activated receptor-gamma), which modulates the transcription of genes involved in glucose metabolism.

      Understanding SGLT-2 Inhibitors

      SGLT-2 inhibitors are medications that work by blocking the reabsorption of glucose in the kidneys, leading to increased excretion of glucose in the urine. This mechanism of action helps to lower blood sugar levels in patients with type 2 diabetes mellitus. Examples of SGLT-2 inhibitors include canagliflozin, dapagliflozin, and empagliflozin.

      However, it is important to note that SGLT-2 inhibitors can also have adverse effects. Patients taking these medications may be at increased risk for urinary and genital infections due to the increased glucose in the urine. Fournier’s gangrene, a rare but serious bacterial infection of the genital area, has also been reported. Additionally, there is a risk of normoglycemic ketoacidosis, a condition where the body produces high levels of ketones even when blood sugar levels are normal. Finally, patients taking SGLT-2 inhibitors may be at increased risk for lower-limb amputations, so it is important to closely monitor the feet.

      Despite these potential risks, SGLT-2 inhibitors can also have benefits. Patients taking these medications often experience weight loss, which can be beneficial for those with type 2 diabetes mellitus. Overall, it is important for patients to discuss the potential risks and benefits of SGLT-2 inhibitors with their healthcare provider before starting treatment.

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  • Question 35 - A 25-year-old female visits her GP complaining of chronic thirst, polyuria, and nocturia...

    Incorrect

    • A 25-year-old female visits her GP complaining of chronic thirst, polyuria, and nocturia that have persisted for 2 months. She has a medical history of premenstrual dysphoric disorder diagnosed 3 years ago. After a series of tests, the patient is diagnosed with primary polydipsia. What results are expected from her water deprivation test?

      Your Answer:

      Correct Answer: High urine osmolality after both fluid deprivation and desmopressin

      Explanation:

      The patient has primary polydipsia, a psychogenic disorder causing excessive drinking despite being hydrated. Urine osmolality is high after both fluid deprivation and desmopressin, as the patient still produces and responds to ADH. Low urine osmolality after both fluid deprivation and desmopressin is typical of nephrogenic DI, while low urine osmolality after fluid deprivation but high after desmopressin is typical of cranial DI. Low urine osmolality after desmopressin and low urine osmolality after fluid deprivation but normal after desmopressin are not commonly seen with any pathological state.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 36 - A 43-year-old obese man comes to your clinic for a diabetes check-up. Despite...

    Incorrect

    • A 43-year-old obese man comes to your clinic for a diabetes check-up. Despite being treated with metformin and gliclazide, his HbA1c remains elevated at 55 mmol/mol. He has previously found it difficult to follow dietary advice and lose weight. To enhance his diabetic management, you prescribe sitagliptin, a DPP-4 inhibitor. What is the mode of action of this novel medication?

      Your Answer:

      Correct Answer: Inhibits the breakdown of incretins

      Explanation:

      DPP-4 inhibitors, GLP-1 agonists, SGLT-2 inhibitors, thiazolidinediones, and sulfonylureas are all medications used to treat diabetes. DPP-4 inhibitors work by inhibiting the breakdown of incretins such as GLP-1 and GIP, which are released in response to food and help to lower blood glucose levels. GLP-1 agonists directly stimulate incretin receptors, while SGLT-2 inhibitors increase the urinary secretion of glucose. Thiazolidinediones stimulate intracellular signaling molecules responsible for glucose and lipid metabolism, and sulfonylureas stimulate beta cells to secrete more insulin. However, sulfonylureas may be less effective in long-standing diabetes as many beta cells may no longer function properly.

      Diabetes mellitus is a condition that has seen the development of several drugs in recent years. One hormone that has been the focus of much research is glucagon-like peptide-1 (GLP-1), which is released by the small intestine in response to an oral glucose load. In type 2 diabetes mellitus (T2DM), insulin resistance and insufficient B-cell compensation occur, and the incretin effect, which is largely mediated by GLP-1, is decreased. GLP-1 mimetics, such as exenatide and liraglutide, increase insulin secretion and inhibit glucagon secretion, resulting in weight loss, unlike other medications. They are sometimes used in combination with insulin in T2DM to minimize weight gain. Dipeptidyl peptidase-4 (DPP-4) inhibitors, such as vildagliptin and sitagliptin, increase levels of incretins by decreasing their peripheral breakdown, are taken orally, and do not cause weight gain. Nausea and vomiting are the major adverse effects of GLP-1 mimetics, and the Medicines and Healthcare products Regulatory Agency has issued specific warnings on the use of exenatide, reporting that it has been linked to severe pancreatitis in some patients. NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated, or the person has had a poor response to a thiazolidinedione.

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  • Question 37 - A 12-year-old girl is being informed about the typical changes that occur during...

    Incorrect

    • A 12-year-old girl is being informed about the typical changes that occur during puberty by her doctor. The doctor explains that there are three main changes that usually happen before menarche. What is the order in which these changes occur?

      Your Answer:

      Correct Answer: Breast buds, growth of pubic hair, growth of axillary hair

      Explanation:

      The onset of menarche is preceded by three sequential physical changes: the development of breast buds, growth of pubic hair, and growth of axillary hair. These changes are brought about by the hormone estrogen, which is crucial for the process of puberty.

      Puberty: Normal Changes in Males and Females

      Puberty is a natural process that marks the transition from childhood to adolescence. In males, the first sign of puberty is testicular growth, which typically occurs around the age of 12. Testicular volume greater than 4 ml indicates the onset of puberty. The maximum height spurt for boys occurs at the age of 14. On the other hand, in females, the first sign of puberty is breast development, which usually occurs around the age of 11.5. The height spurt for girls reaches its maximum early in puberty, at the age of 12, before menarche. Menarche, or the first menstrual period, typically occurs at the age of 13, with a range of 11-15 years. Following menarche, there is only a slight increase of about 4% in height.

      During puberty, it is normal for boys to experience gynaecomastia, or the development of breast tissue. Girls may also experience asymmetrical breast growth. Additionally, diffuse enlargement of the thyroid gland may be seen in both males and females. These changes are all part of the normal process of puberty and should not be a cause for concern.

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  • Question 38 - A father brings his 14-year-old son to see you as he is concerned...

    Incorrect

    • A father brings his 14-year-old son to see you as he is concerned about his growth. He is taller than his peers, has not yet experienced puberty and has developed excessive body hair. He is referred to a specialist who diagnoses mild congenital adrenal hyperplasia.

      What is the most frequent deficiency leading to this condition?

      Your Answer:

      Correct Answer: 21-hydroxylase deficiency

      Explanation:

      The most common cause of congenital adrenal hyperplasia is 21-hydroxylase deficiency, while 17-hydroxylase deficiency is a rare cause. 17β-hydroxysteroid dehydrogenase deficiency results in a rare condition of sexual development, while 5-alpha reductase deficiency affects male sexual development.

      Understanding Congenital Adrenal Hyperplasia

      Congenital adrenal hyperplasia is a group of genetic disorders that affect the production of adrenal steroids. It is an autosomal recessive disorder, which means that both parents must carry the gene for the disorder to be passed on to their child. The most common cause of congenital adrenal hyperplasia is a deficiency in the enzyme 21-hydroxylase, which is responsible for the production of cortisol and aldosterone. This deficiency leads to low levels of cortisol, which triggers the anterior pituitary gland to produce high levels of adrenocorticotropic hormone (ACTH). ACTH then stimulates the adrenal glands to produce excess androgens, which can cause virilization in female infants.

      Other less common forms of congenital adrenal hyperplasia include 11-beta hydroxylase deficiency and 17-hydroxylase deficiency. These conditions also affect the production of adrenal steroids and can lead to similar symptoms.

      It is important to diagnose and treat congenital adrenal hyperplasia early to prevent complications such as adrenal crisis, growth failure, and infertility. Treatment typically involves hormone replacement therapy to replace the deficient hormones and suppress the excess androgens. With proper management, individuals with congenital adrenal hyperplasia can lead healthy and normal lives.

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  • Question 39 - A 31-year-old woman arrives at the emergency department feeling lethargic. Her Glasgow coma...

    Incorrect

    • A 31-year-old woman arrives at the emergency department feeling lethargic. Her Glasgow coma scale score is 12/15 upon examination.

      Her capillary blood glucose level is 1.9 mmol/L.

      What is the initial hormone released naturally in this situation?

      Your Answer:

      Correct Answer: Glucagon

      Explanation:

      When blood glucose levels drop, the first hormone to be secreted is glucagon. This can happen due to various reasons, such as insulin or alcohol consumption. The initial response to hypoglycaemia is a decrease in insulin secretion, followed by the release of glucagon from the pancreas’ alpha cells. This prompts the liver to convert stored glycogen into glucose, thereby increasing blood glucose levels.

      Later on, growth hormone and cortisol are also released in response to hypoglycaemia. If cortisol production is reduced, as in Addison’s disease, it can lead to low blood glucose levels. This concept is used in the insulin tolerance test, where cortisol levels are measured after inducing hypoglycaemia with insulin.

      Incretins, on the other hand, are hormones that lower blood glucose levels, especially after meals. One such incretin is glucagon-like peptide 1 (GLP-1), which is used to treat type 2 diabetes. Exenatide is an example of an injectable GLP-1 analogue medication.

      Understanding Hypoglycaemia: Causes, Features, and Management

      Hypoglycaemia is a condition characterized by low blood sugar levels, which can lead to a range of symptoms and complications. There are several possible causes of hypoglycaemia, including insulinoma, liver failure, Addison’s disease, and alcohol consumption. The physiological response to hypoglycaemia involves hormonal and sympathoadrenal responses, which can result in autonomic and neuroglycopenic symptoms. While blood glucose levels and symptom severity are not always correlated, common symptoms of hypoglycaemia include sweating, shaking, hunger, anxiety, nausea, weakness, vision changes, confusion, and dizziness. In severe cases, hypoglycaemia can lead to convulsions or coma.

      Managing hypoglycaemia depends on the severity of the symptoms and the setting in which it occurs. In the community, individuals with diabetes who inject insulin may be advised to consume oral glucose or a quick-acting carbohydrate such as GlucoGel or Dextrogel. A ‘HypoKit’ containing glucagon may also be prescribed for home use. In a hospital setting, treatment may involve administering a quick-acting carbohydrate or subcutaneous/intramuscular injection of glucagon for unconscious or unable to swallow patients. Alternatively, intravenous glucose solution may be given through a large vein.

      Overall, understanding the causes, features, and management of hypoglycaemia is crucial for individuals with diabetes or other conditions that increase the risk of low blood sugar levels. Prompt and appropriate treatment can help prevent complications and improve outcomes.

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  • Question 40 - What is the association between brown tumours of bone and a specific condition...

    Incorrect

    • What is the association between brown tumours of bone and a specific condition or disease?

      Your Answer:

      Correct Answer: Hyperparathyroidism

      Explanation:

      Brown tumors are bone tumors that develop due to excessive osteoclast activity, typically in cases of hyperparathyroidism. These tumors are composed of fibrous tissue, woven bone, and supporting blood vessels, but lack any matrix. They do not appear on x-rays due to their radiolucent nature. Osteoclasts consume the trabecular bone that osteoblasts produce, leading to a cycle of reparative bone deposition and resorption that can cause bone pain and involve the periosteum, resulting in an expansion beyond the typical shape of the bone. The tumors are called brown due to the deposition of haemosiderin at the site.

      Primary Hyperparathyroidism: Causes, Symptoms, and Treatment

      Primary hyperparathyroidism is a condition that is commonly seen in elderly females and is characterized by an unquenchable thirst and an inappropriately normal or raised parathyroid hormone level. It is usually caused by a solitary adenoma, hyperplasia, multiple adenoma, or carcinoma. While around 80% of patients are asymptomatic, the symptomatic features of primary hyperparathyroidism may include polydipsia, polyuria, depression, anorexia, nausea, constipation, peptic ulceration, pancreatitis, bone pain/fracture, renal stones, and hypertension.

      Primary hyperparathyroidism is associated with hypertension and multiple endocrine neoplasia, such as MEN I and II. To diagnose this condition, doctors may perform a technetium-MIBI subtraction scan or look for a characteristic X-ray finding of hyperparathyroidism called the pepperpot skull.

      The definitive management for primary hyperparathyroidism is total parathyroidectomy. However, conservative management may be offered if the calcium level is less than 0.25 mmol/L above the upper limit of normal, the patient is over 50 years old, and there is no evidence of end-organ damage. Patients who are not suitable for surgery may be treated with cinacalcet, a calcimimetic that mimics the action of calcium on tissues by allosteric activation of the calcium-sensing receptor.

      In summary, primary hyperparathyroidism is a condition that can cause various symptoms and is commonly seen in elderly females. It can be diagnosed through various tests and managed through surgery or medication.

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  • Question 41 - As a medical student on community care placement, I was shadowing a health...

    Incorrect

    • As a medical student on community care placement, I was shadowing a health visitor who measured the height and weight of all the children to monitor their growth. I was curious to know what drives growth during the adolescent stage (13 to 19 years old)?

      Your Answer:

      Correct Answer: Sex steroids and growth hormone

      Explanation:

      Understanding Growth and Factors Affecting It

      Growth is a significant difference between children and adults, and it occurs in three stages: infancy, childhood, and puberty. Several factors affect fetal growth, including environmental, placental, hormonal, and genetic factors. Maternal nutrition and uterine capacity are the most crucial environmental factors that affect fetal growth.

      In infancy, nutrition and insulin are the primary drivers of growth. High fetal insulin levels result from poorly controlled diabetes in the mother, leading to hypoglycemia and macrosomia in the baby. Growth hormone is not a significant factor in infancy, as babies have low amounts of receptors. Hypopituitarism and thyroid have no effect on growth in infancy.

      In childhood, growth is driven by growth hormone and thyroxine, while in puberty, growth is driven by growth hormone and sex steroids. Genetic factors are the most important determinant of final adult height.

      It is essential to monitor growth in children regularly. Infants aged 0-1 years should have at least five weight recordings, while children aged 1-2 years should have at least three weight recordings. Children older than two years should have annual weight recordings. Children below the 2nd centile for height should be reviewed by their GP, while those below the 0.4th centile for height should be reviewed by a paediatrician.

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  • Question 42 - A 55-year-old man with a smoking history of over 30 years presented to...

    Incorrect

    • A 55-year-old man with a smoking history of over 30 years presented to the emergency department with acute confusion and disorientation. He was unable to recognize his family members and relatives. He had been experiencing unexplained weight loss, loss of appetite, and occasional episodes of haemoptysis for the past few months. Urgent blood tests were performed, revealing abnormal levels of electrolytes and renal function.

      Based on the likely diagnosis, what is the mechanism of action of the hormone that is being secreted excessively in this case?

      Your Answer:

      Correct Answer: Insertion of aquaporin-2 channels

      Explanation:

      Antidiuretic hormone (ADH) plays a crucial role in promoting water reabsorption by inserting aquaporin-2 channels in principal cells. In small-cell lung cancer patients, decreased serum sodium levels are commonly caused by the paraneoplastic syndrome of inadequate ADH secretion (SIADH) or ADH released during the initial lysis of tumour cells after chemotherapy. It is important to note that arteriolar vasodilation, promoting water excretion, decreased urine osmolarity, and increased portal blood flow are not functions of ADH.

      Understanding Antidiuretic Hormone (ADH)

      Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.

      ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.

      Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.

      Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.

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  • Question 43 - You are in charge of the care of a 23-year-old man who has...

    Incorrect

    • You are in charge of the care of a 23-year-old man who has come for a military medical evaluation. Based on his symptoms, you suspect that he has type 1 diabetes and has been secretly administering insulin. What clinical methods can you use to evaluate his endogenous insulin production?

      Your Answer:

      Correct Answer: C-peptide

      Explanation:

      C-peptide is a reliable indicator of insulin production as it is secreted in proportion to insulin. It is often used clinically to measure endogenous insulin production.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

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  • Question 44 - A 36-year-old woman visits her GP complaining of frequent urination. She has been...

    Incorrect

    • A 36-year-old woman visits her GP complaining of frequent urination. She has been waking up several times at night to urinate for the past two weeks and has been feeling more thirsty than usual. Her temperature is 37.3ºC. She has a history of bipolar disorder and is currently on lithium medication.

      What could be the possible cause of her polyuria?

      Your Answer:

      Correct Answer: Lithium reducing ADH-dependent water reabsorption in the collecting duct

      Explanation:

      The site of action for antidiuretic hormone (ADH) is the collecting ducts. Lithium treatment for bipolar disorder can lead to diabetes insipidus, which is characterized by increased thirst (polydipsia) and increased urination (polyuria). Lithium use can cause nephrogenic diabetes insipidus, where the kidneys are unable to respond adequately to ADH. Normally, ADH induces the expression of aquaporin 2 channels in the collecting duct, which stimulates water reabsorption.

      Central diabetes insipidus occurs when there is damage to the posterior pituitary gland, resulting in insufficient production and release of ADH. However, lithium use causes nephrogenic diabetes insipidus instead of central diabetes insipidus.

      Although insulin resistance and hyperglycemia can also cause polyuria and polydipsia, as seen in diabetic ketoacidosis, the use of lithium suggests that the patient’s symptoms are due to diabetes insipidus rather than diabetes mellitus.

      Lithium inhibits the expression of aquaporin channels in the renal collecting duct, rather than the distal convoluted tubule, which causes diabetes insipidus.

      While a urinary tract infection can also present with polyuria and nocturia, the presence of lithium in the patient’s drug history and the fact that the patient also has polydipsia suggest nephrogenic diabetes insipidus. Diabetes insipidus causes increased thirst due to the excessive volume of urine produced, leading to water loss from the body. In addition, a urinary tract infection would likely cause dysuria (burning or stinging when passing urine) and lower abdominal pain.

      Understanding Antidiuretic Hormone (ADH)

      Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.

      ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.

      Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.

      Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.

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  • Question 45 - A 57-year-old man comes to the diabetes clinic for a check-up. He has...

    Incorrect

    • A 57-year-old man comes to the diabetes clinic for a check-up. He has a medical history of type 2 diabetes, which is currently managed with metformin and sitagliptin, and hypertension, for which he takes ramipril. His recent blood tests show an increase in HbA1c from 51mmol/L to 59mmol/L. He has not experienced any hypoglycaemic events and reports good adherence to his medication and blood glucose monitoring. He expresses interest in trying an additional antidiabetic medication and is prescribed tolbutamide after receiving counselling on hypoglycaemic awareness.

      What is the mechanism of action of tolbutamide?

      Your Answer:

      Correct Answer: Binds to and shuts pancreatic beta cell ATP-dependent K+ channels, causing membrane depolarisation and increased insulin exocytosis

      Explanation:

      Sulfonylureas are a type of medication used to treat type 2 diabetes mellitus. They work by increasing the amount of insulin produced by the pancreas, but only if the beta cells in the pancreas are functioning properly. Sulfonylureas bind to a specific channel on the cell membrane of pancreatic beta cells, known as the ATP-dependent K+ channel (KATP).

      While sulfonylureas can be effective in managing diabetes, they can also cause some adverse effects. The most common side effect is hypoglycemia, which is more likely to occur with long-acting preparations like chlorpropamide. Another common side effect is weight gain. However, there are also rarer side effects that can occur, such as hyponatremia (low sodium levels) due to inappropriate ADH secretion, bone marrow suppression, hepatotoxicity (liver damage), and peripheral neuropathy.

      It is important to note that sulfonylureas should not be used during pregnancy or while breastfeeding.

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  • Question 46 - Which one of the following is not a result of cortisol in the...

    Incorrect

    • Which one of the following is not a result of cortisol in the stress response?

      Your Answer:

      Correct Answer: Hypoglycaemia

      Explanation:

      Hyperglycaemia is caused by an effect that opposes insulin.

      Surgery triggers a stress response that causes hormonal and metabolic changes in the body. This response is characterized by substrate mobilization, muscle protein loss, sodium and water retention, suppression of anabolic hormone secretion, activation of the sympathetic nervous system, and immunological and haematological changes. The hypothalamic-pituitary axis and the sympathetic nervous systems are activated, and the normal feedback mechanisms of control of hormone secretion fail. The stress response is associated with increased growth hormone, cortisol, renin, adrenocorticotropic hormone (ACTH), aldosterone, prolactin, antidiuretic hormone, and glucagon, while insulin, testosterone, oestrogen, thyroid stimulating hormone, luteinizing hormone, and follicle stimulating hormone are decreased or remain unchanged. The metabolic effects of cortisol are enhanced, including skeletal muscle protein breakdown, stimulation of lipolysis, anti-insulin effect, mineralocorticoid effects, and anti-inflammatory effects. The stress response also affects carbohydrate, protein, lipid, salt and water metabolism, and cytokine release. Modifying the response can be achieved through opioids, spinal anaesthesia, nutrition, growth hormone, anabolic steroids, and normothermia.

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  • Question 47 - A 27-year-old man presents to the consultant's office with complaints of increased thirst...

    Incorrect

    • A 27-year-old man presents to the consultant's office with complaints of increased thirst and frequent urination for the past month. He has a history of physical injuries due to a motor vehicle accident that occurred 4 months ago. The patient is currently not on any medications and is in good health. Urinalysis reveals a decreased sodium concentration and urine osmolarity of 90 mOsm/L. What renal tubular changes would be anticipated in this patient due to his current condition?

      Your Answer:

      Correct Answer: Decreased expression of aquaporin-2 channels in the collecting ducts

      Explanation:

      The insertion of aquaporin-2 channels by antidiuretic hormone promotes water reabsorption, which is compromised in central diabetes insipidus (DI) caused by physical trauma to the pituitary gland. Symptoms include increased thirst, polydipsia, and polyuria, with urinalysis showing decreased urine osmolality and sodium concentration. Aldosterone regulates epithelial sodium channel (ENaC) and K+/H+ exchanger, while angiotensin II regulates Na+/H+ exchanger in proximal tubules. Loop diuretics decrease activity of Na-K-Cl cotransporter in the loops of Henle. However, none of these are relevant to this patient’s presentation.

      Understanding Antidiuretic Hormone (ADH)

      Antidiuretic hormone (ADH) is a hormone that is produced in the supraoptic nuclei of the hypothalamus and released by the posterior pituitary gland. Its primary function is to conserve body water by promoting water reabsorption in the collecting ducts of the kidneys through the insertion of aquaporin-2 channels.

      ADH secretion is regulated by various factors. An increase in extracellular fluid osmolality, a decrease in volume or pressure, and the presence of angiotensin II can all increase ADH secretion. Conversely, a decrease in extracellular fluid osmolality, an increase in volume, a decrease in temperature, or the absence of ADH can decrease its secretion.

      Diabetes insipidus (DI) is a condition that occurs when there is either a deficiency of ADH (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be treated with desmopressin, which is an analog of ADH.

      Overall, understanding the role of ADH in regulating water balance in the body is crucial for maintaining proper hydration and preventing conditions like DI.

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      • Endocrine System
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  • Question 48 - A 65-year-old woman with hypocalcaemia has elevated parathyroid hormone levels. Is it a...

    Incorrect

    • A 65-year-old woman with hypocalcaemia has elevated parathyroid hormone levels. Is it a typical physiological response to increase calcium levels? In the kidney, where does parathyroid hormone act to enhance calcium reabsorption?

      Your Answer:

      Correct Answer: Distal convoluted tubule

      Explanation:

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

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  • Question 49 - A 55-year-old man comes in for his regular check-up with his GP. He...

    Incorrect

    • A 55-year-old man comes in for his regular check-up with his GP. He has a medical history of chronic pancreatitis and diabetes mellitus and is currently taking the maximum doses of metformin and gliclazide. During a random plasma glucose test, his levels show 18.0 mmol/l and his urinalysis reveals glycosuria with minimal ketones. The GP suspects that his body is not producing enough insulin and decides to initiate insulin therapy. Can you identify the location in the body where insulin is produced?

      Your Answer:

      Correct Answer: Pancreatic beta cells

      Explanation:

      Diabetes mellitus in this patient is most likely caused by chronic pancreatitis, which has resulted in the destruction of the pancreatic endocrine cells responsible for producing endogenous insulin. These cells are located in the Islets of Langerhans and are known as pancreatic beta cells (β-cells). Other cells in the pancreas, such as alpha cells (which secrete glucagon) and delta cells (which secrete somatostatin), do not produce insulin. Similarly, gastric G cells secrete gastrin and are not involved in insulin production.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

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      • Endocrine System
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  • Question 50 - A 30-year-old female patient complains of anxiety and weight loss. During the examination,...

    Incorrect

    • A 30-year-old female patient complains of anxiety and weight loss. During the examination, a fine tremor of the outstretched hands, lid lag, and a moderate goitre with a bruit are observed. What is the probable diagnosis?

      Your Answer:

      Correct Answer: Graves' disease

      Explanation:

      Thyroid Disorders and their Differentiation

      Thyroid disorders are a common occurrence, and their diagnosis is crucial for effective treatment. One such disorder is Graves’ disease, which is characterized by a goitre with a bruit. Unlike MNG, Graves’ disease is associated with angiogenesis and thyroid follicular hypertrophy. Other signs of Graves’ disease include eye signs such as conjunctival oedema, exophthalmos, and proptosis. Additionally, pretibial myxoedema is a dermatological manifestation of this disease.

      DeQuervain’s thyroiditis is another thyroid disorder that follows a viral infection and is characterized by painful thyroiditis. Hashimoto’s thyroiditis, on the other hand, is a chronic autoimmune degradation of the thyroid. Multinodular goitre (MNG) is the most common form of thyroid disorder, leading to the formation of multiple nodules over the gland. Lastly, a toxic thyroid nodule is a solitary lesion on the thyroid that produces excess thyroxine.

      In conclusion, the different types of thyroid disorders and their symptoms is crucial for accurate diagnosis and effective treatment.

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  • Question 51 - As a medical student in community care, while shadowing a health visitor, I...

    Incorrect

    • As a medical student in community care, while shadowing a health visitor, I observed her measuring the height and weight of children to monitor their growth. What factors drive growth during the developmental stage of 4 to 10 years old?

      Your Answer:

      Correct Answer: Growth and thyroid hormones

      Explanation:

      Understanding Growth and Factors Affecting It

      Growth is a significant difference between children and adults, and it occurs in three stages: infancy, childhood, and puberty. Several factors affect fetal growth, including environmental, placental, hormonal, and genetic factors. Maternal nutrition and uterine capacity are the most crucial environmental factors that affect fetal growth.

      In infancy, nutrition and insulin are the primary drivers of growth. High fetal insulin levels result from poorly controlled diabetes in the mother, leading to hypoglycemia and macrosomia in the baby. Growth hormone is not a significant factor in infancy, as babies have low amounts of receptors. Hypopituitarism and thyroid have no effect on growth in infancy.

      In childhood, growth is driven by growth hormone and thyroxine, while in puberty, growth is driven by growth hormone and sex steroids. Genetic factors are the most important determinant of final adult height.

      It is essential to monitor growth in children regularly. Infants aged 0-1 years should have at least five weight recordings, while children aged 1-2 years should have at least three weight recordings. Children older than two years should have annual weight recordings. Children below the 2nd centile for height should be reviewed by their GP, while those below the 0.4th centile for height should be reviewed by a paediatrician.

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  • Question 52 - A 25-year-old woman presents for her first-trimester review at the antenatal clinic. She...

    Incorrect

    • A 25-year-old woman presents for her first-trimester review at the antenatal clinic. She reports feeling well with no specific concerns. Due to complications in her previous pregnancy, she undergoes several screening blood tests, including thyroid function testing. The results reveal a TSH level of 4.2 mIU/L (normal range: 0.4-4.0), thyroxine (T4) level of 220 nmol/L (normal range: 64-155), and free thyroxine (fT4) level of 15 pmol/L (normal range: 12.0-21.9). Despite having no symptoms of thyrotoxicosis and a normal physical examination, what thyroid-associated protein primarily causes these findings to occur?

      Your Answer:

      Correct Answer: Thyroid binding globulin

      Explanation:

      During pregnancy, thyroid function can be affected, leading to a range of conditions. However, in the case of a patient with a nodular goitre, antithyroid antibodies are not a likely cause. Thyroglobulin levels may increase slightly in the final trimester, but this is not the primary issue. Similarly, while TSH levels may be raised in pregnancy, this is a secondary effect caused by an increase in TBG.

      During pregnancy, there is an increase in the levels of thyroxine-binding globulin (TBG), which causes an increase in the levels of total thyroxine. However, this does not affect the free thyroxine level. If left untreated, thyrotoxicosis can increase the risk of fetal loss, maternal heart failure, and premature labor. Graves’ disease is the most common cause of thyrotoxicosis during pregnancy, but transient gestational hyperthyroidism can also occur due to the activation of the TSH receptor by HCG. Propylthiouracil has traditionally been the antithyroid drug of choice, but it is associated with an increased risk of severe hepatic injury. Therefore, NICE Clinical Knowledge Summaries recommend using propylthiouracil in the first trimester and switching to carbimazole in the second trimester. Maternal free thyroxine levels should be kept in the upper third of the normal reference range to avoid fetal hypothyroidism. Thyrotropin receptor stimulating antibodies should be checked at 30-36 weeks gestation to determine the risk of neonatal thyroid problems. Block-and-replace regimes should not be used in pregnancy, and radioiodine therapy is contraindicated.

      On the other hand, thyroxine is safe during pregnancy, and serum thyroid-stimulating hormone should be measured in each trimester and 6-8 weeks postpartum. Women require an increased dose of thyroxine during pregnancy, up to 50% as early as 4-6 weeks of pregnancy. Breastfeeding is safe while on thyroxine. It is important to manage thyroid problems during pregnancy to ensure the health of both the mother and the baby.

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  • Question 53 - A 47-year-old woman comes in for her yearly diabetic check-up. Despite being on...

    Incorrect

    • A 47-year-old woman comes in for her yearly diabetic check-up. Despite being on metformin and gliclazide for a year, her HbA1c level remains at 57 mmol/mol. She mentions difficulty losing weight, and her BMI is recorded as 36 kg/m². The doctor decides to prescribe sitagliptin. How does this medication lower blood sugar levels?

      Your Answer:

      Correct Answer: Reducing the peripheral breakdown of incretin

      Explanation:

      DPP-4 inhibitors, also known as gliptins, function by decreasing the breakdown of incretins like GLP-1 in the periphery. This leads to an increase in incretin levels, which in turn lowers blood glucose levels.

      It is important to note that increasing the peripheral breakdown of incretin would have the opposite effect and worsen glycaemic control.

      Metformin, on the other hand, works by enhancing the uptake of insulin in the periphery.

      Reducing the secretion of insulin from the pancreas would not be an effective mechanism and would actually raise glucose levels in the blood.

      SGLT2 inhibitors, such as dapagliflozin, function by reducing the reabsorption of glucose in the kidneys.

      Diabetes mellitus is a condition that has seen the development of several drugs in recent years. One hormone that has been the focus of much research is glucagon-like peptide-1 (GLP-1), which is released by the small intestine in response to an oral glucose load. In type 2 diabetes mellitus (T2DM), insulin resistance and insufficient B-cell compensation occur, and the incretin effect, which is largely mediated by GLP-1, is decreased. GLP-1 mimetics, such as exenatide and liraglutide, increase insulin secretion and inhibit glucagon secretion, resulting in weight loss, unlike other medications. They are sometimes used in combination with insulin in T2DM to minimize weight gain. Dipeptidyl peptidase-4 (DPP-4) inhibitors, such as vildagliptin and sitagliptin, increase levels of incretins by decreasing their peripheral breakdown, are taken orally, and do not cause weight gain. Nausea and vomiting are the major adverse effects of GLP-1 mimetics, and the Medicines and Healthcare products Regulatory Agency has issued specific warnings on the use of exenatide, reporting that it has been linked to severe pancreatitis in some patients. NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated, or the person has had a poor response to a thiazolidinedione.

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  • Question 54 - A 3 day old infant is found to have difficulty urinating and upon...

    Incorrect

    • A 3 day old infant is found to have difficulty urinating and upon closer examination, is diagnosed with hypospadias. What is the most frequently associated abnormality with this condition?

      Your Answer:

      Correct Answer: Cryptorchidism

      Explanation:

      Understanding Hypospadias: A Congenital Abnormality of the Penis

      Hypospadias is a congenital abnormality of the penis that affects approximately 3 out of 1,000 male infants. It is usually identified during the newborn baby check, but if missed, parents may notice an abnormal urine stream. This condition is characterized by a ventral urethral meatus, a hooded prepuce, and chordee in more severe forms. In some cases, the urethral meatus may open more proximally in the more severe variants, but 75% of the openings are distally located.

      There appears to be a significant genetic element to hypospadias, with further male children having a risk of around 5-15%. While it most commonly occurs as an isolated disorder, associated conditions include cryptorchidism (present in 10%) and inguinal hernia.

      Once hypospadias has been identified, infants should be referred to specialist services. Corrective surgery is typically performed when the child is around 12 months of age. It is essential that the child is not circumcised prior to the surgery as the foreskin may be used in the corrective procedure. In boys with very distal disease, no treatment may be needed.

      Overall, understanding hypospadias is important for parents and healthcare providers to ensure proper management and treatment for affected infants.

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  • Question 55 - A 29-year-old woman presents to her GP complaining of a tingling sensation around...

    Incorrect

    • A 29-year-old woman presents to her GP complaining of a tingling sensation around her mouth and intermittent cramps in her legs. Trousseau's sign is positive. Blood results are shown below.

      Urea 4.0 mmol/L (2.0 - 7.0)
      Creatinine 80 µmol/L (55 - 120)
      Calcium 1.95 mmol/L (2.1-2.6)
      Phosphate 1.2 mmol/L (0.8-1.4)
      Vitamin D 150 nmol/L (50-250)
      Parathyroid hormone (PTH) 1.7 pmol/L (1.6-8.5)

      Derangement of what substance may be responsible for this patient's presentation?

      Your Answer:

      Correct Answer: Magnesium

      Explanation:

      The correct answer is magnesium. Adequate levels of magnesium are necessary for the proper functioning of parathyroid hormone, which can lead to hypocalcemia if magnesium levels are low. Magnesium is also essential for PTH secretion and sensitivity. Amylase, chloride, and potassium are not associated with hypocalcemia. While severe pancreatitis may cause hypocalcemia, it is typically accompanied by other symptoms such as vomiting and epigastric pain. Chloride is not linked to hypocalcemia, and hypomagnesemia can cause hypokalemia, which can lead to muscle weakness, tremors, and arrhythmias, as well as ECG changes such as flattened T waves, prolonged PR and QT intervals, and U waves.

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

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  • Question 56 - Which one of the following is not associated with excessive glucocorticoids? ...

    Incorrect

    • Which one of the following is not associated with excessive glucocorticoids?

      Your Answer:

      Correct Answer: Hyponatraemia

      Explanation:

      Excessive levels of glucocorticoids can lead to various negative consequences such as skin thinning, osteonecrosis, and osteoporosis. Steroids can cause the body to retain sodium and water, while also resulting in potassium loss and potentially leading to hypokalaemic alkalosis.

      Cortisol: Functions and Regulation

      Cortisol is a hormone produced in the zona fasciculata of the adrenal cortex. It plays a crucial role in various bodily functions and is essential for life. Cortisol increases blood pressure by up-regulating alpha-1 receptors on arterioles, allowing for a normal response to angiotensin II and catecholamines. However, it inhibits bone formation by decreasing osteoblasts, type 1 collagen, and absorption of calcium from the gut, while increasing osteoclastic activity. Cortisol also increases insulin resistance and metabolism by increasing gluconeogenesis, lipolysis, and proteolysis. It inhibits inflammatory and immune responses, but maintains the function of skeletal and cardiac muscle.

      The regulation of cortisol secretion is controlled by the hypothalamic-pituitary-adrenal (HPA) axis. The pituitary gland secretes adrenocorticotropic hormone (ACTH), which stimulates the adrenal cortex to produce cortisol. The hypothalamus releases corticotrophin-releasing hormone (CRH), which stimulates the pituitary gland to release ACTH. Stress can also increase cortisol secretion.

      Excess cortisol in the body can lead to Cushing’s syndrome, which can cause a range of symptoms such as weight gain, muscle weakness, and high blood pressure. Understanding the functions and regulation of cortisol is important for maintaining overall health and preventing hormonal imbalances.

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  • Question 57 - A 45-year-old male is recovering from trans-sphenoidal surgery for a non-functioning pituitary adenoma....

    Incorrect

    • A 45-year-old male is recovering from trans-sphenoidal surgery for a non-functioning pituitary adenoma. He reports excessive thirst and increased water intake to the doctors during the ward round, four days after the surgery. The patient's fluid chart shows a urine output of 7 litres in the past 24 hours, and his blood glucose level is 5.2mmol/L. To confirm the diagnosis, the doctors plan to conduct a water-deprivation test and a vasopressin test.

      What are the expected results of the urine osmolality investigations, given the likely diagnosis?

      Your Answer:

      Correct Answer: After fluid deprivation, low; after desmopressin, high

      Explanation:

      The patient has developed cranial diabetes insipidus after pituitary surgery. Water deprivation testing showed low urine osmolality after fluid deprivation and high urine osmolality after desmopressin administration. This condition can also be caused by head trauma or occur idiopathically. Water deprivation testing can also be useful for investigating psychogenic polydipsia. Nephrogenic diabetes insipidus is the other main cause, where the kidneys cannot properly respond to vasopressin.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 58 - Which of the following most accurately explains how glucocorticoids work? ...

    Incorrect

    • Which of the following most accurately explains how glucocorticoids work?

      Your Answer:

      Correct Answer: Binding of intracellular receptors that migrate to the nucleus to then affect gene transcription

      Explanation:

      The effects of glucocorticoids are mediated by intracellular receptors that bind to them and are subsequently transported to the nucleus, where they modulate gene transcription.

      Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.

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  • Question 59 - A 25-year-old woman presents to the endocrinology clinic with a diagnosis of Grave's...

    Incorrect

    • A 25-year-old woman presents to the endocrinology clinic with a diagnosis of Grave's disease. The diagnosis was made based on her elevated levels of thyroid hormones T3 and T4, as well as symptoms of heat intolerance, weight loss, and tremors. Typically, where are the receptors for thyroid hormones found?

      Your Answer:

      Correct Answer: Nucleus

      Explanation:

      Thyroid hormones can enter cells through diffusion or carriers. Once inside, they bind to intracellular DNA-binding proteins called thyroid hormone receptors located in the nucleus. This binding forms a complex that attaches to the thyroid hormone responsive element on DNA. The outcome of this process is an increase in mRNA production, protein synthesis, Na/K ATPase, mitochondrial function leading to higher oxygen consumption, and adrenoceptors.

      Thyroid disorders are commonly encountered in clinical practice, with hypothyroidism and thyrotoxicosis being the most prevalent. Women are ten times more likely to develop these conditions than men. The thyroid gland is a bi-lobed structure located in the anterior neck and is part of a hypothalamus-pituitary-end organ system that regulates the production of thyroxine and triiodothyronine hormones. These hormones help regulate energy sources, protein synthesis, and the body’s sensitivity to other hormones. Hypothyroidism can be primary or secondary, while thyrotoxicosis is mostly primary. Autoimmunity is the leading cause of thyroid problems in the developed world.

      Thyroid disorders can present in various ways, with symptoms often being the opposite depending on whether the thyroid gland is under or overactive. For example, hypothyroidism may result in weight gain, while thyrotoxicosis leads to weight loss. Thyroid function tests are the primary investigation for diagnosing thyroid disorders. These tests primarily look at serum TSH and T4 levels, with T3 being measured in specific cases. TSH levels are more sensitive than T4 levels for monitoring patients with existing thyroid problems.

      Treatment for thyroid disorders depends on the cause. Patients with hypothyroidism are given levothyroxine to replace the underlying deficiency. Patients with thyrotoxicosis may be treated with propranolol to control symptoms such as tremors, carbimazole to reduce thyroid hormone production, or radioiodine treatment.

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  • Question 60 - Mr. Smith is a 54-year-old man who visits your GP clinic for his...

    Incorrect

    • Mr. Smith is a 54-year-old man who visits your GP clinic for his annual review of his type 2 diabetes. He informs you that he has been managing it through diet for a few years, but lately, he has gained some weight. His latest HbA1C reading is 9.8% (normal range 3.7-5.0%). You suggest continuous dietary advice and prescribe metformin to regulate his blood glucose levels. Which of the following statements about metformin is accurate?

      Your Answer:

      Correct Answer: It decreases hepatic gluconeogenesis

      Explanation:

      While some diabetic treatments such as insulin and sulfonylureas can lead to weight gain, metformin is not associated with this side effect. Metformin functions by enhancing insulin sensitivity and reducing hepatic gluconeogenesis, without directly impacting insulin secretion from pancreatic beta cells, thus it does not cause significant hypoglycemia. Ghrelin, a hormone that controls appetite, is not influenced by any diabetic medications.

      Understanding Diabetes Mellitus: A Basic Overview

      Diabetes mellitus is a chronic condition characterized by abnormally raised levels of blood glucose. It is one of the most common conditions encountered in clinical practice and represents a significant burden on the health systems of the developed world. The management of diabetes mellitus is crucial as untreated type 1 diabetes would usually result in death. Poorly treated type 1 diabetes mellitus can still result in significant morbidity and mortality. The main focus of diabetes management now is reducing the incidence of macrovascular and microvascular complications.

      There are different types of diabetes mellitus, including type 1 diabetes mellitus, type 2 diabetes mellitus, prediabetes, gestational diabetes, maturity onset diabetes of the young, latent autoimmune diabetes of adults, and other types. The presentation of diabetes mellitus depends on the type, with type 1 diabetes mellitus often presenting with weight loss, polydipsia, polyuria, and diabetic ketoacidosis. On the other hand, type 2 diabetes mellitus is often picked up incidentally on routine blood tests and presents with polydipsia and polyuria.

      There are four main ways to check blood glucose, including a finger-prick bedside glucose monitor, a one-off blood glucose, a HbA1c, and a glucose tolerance test. The diagnostic criteria are determined by WHO, with a fasting glucose greater than or equal to 7.0 mmol/l and random glucose greater than or equal to 11.1 mmol/l being diagnostic of diabetes mellitus. Management of diabetes mellitus involves drug therapy to normalize blood glucose levels, monitoring for and treating any complications related to diabetes, and modifying any other risk factors for other conditions such as cardiovascular disease. The first-line drug for the vast majority of patients with type 2 diabetes mellitus is metformin, with second-line drugs including sulfonylureas, gliptins, and pioglitazone. Insulin is used if oral medication is not controlling the blood glucose to a sufficient degree.

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  • Question 61 - A 65-year-old man with a medical history of obesity, hypertension, type 2 diabetes...

    Incorrect

    • A 65-year-old man with a medical history of obesity, hypertension, type 2 diabetes mellitus, and ischaemic heart disease is hospitalized for SARS-CoV-2 infection. He is started on oxygen therapy and a 10-day course of oral dexamethasone. What is the most crucial monitoring strategy following the initiation of this medication?

      Your Answer:

      Correct Answer: Four times daily capillary blood glucose

      Explanation:

      Regular monitoring of capillary blood glucose is recommended when using corticosteroids as they can worsen diabetic control due to their anti-insulin effects. Dexamethasone, a corticosteroid with a high glucocorticoid effect, carries a high risk of hyperglycaemia in patients with or without diabetes. Monitoring blood sugars is essential for patients with diabetes who are started on glucocorticoids. Monitoring cardiac function, daily amylase levels, daily lying and standing blood pressure, and daily urea and electrolytes are not routinely recommended while on corticosteroids. However, these tests may be necessary if suggestive symptoms develop.

      Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.

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  • Question 62 - A 56-year-old woman visits her primary care physician with concerns about recent weight...

    Incorrect

    • A 56-year-old woman visits her primary care physician with concerns about recent weight gain. She reports maintaining her usual diet and exercise routine, but has noticed her face appearing rounder and the development of purplish stretch marks on her abdomen. During the exam, her heart rate is 89 beats per minute, respiratory rate is 16 breaths per minute, and blood pressure is 157/84 mmHg. Her waist circumference measures 41 inches and her body mass index is 28 kg/m2. What is one effect of the primary hormone involved in this patient's condition?

      Your Answer:

      Correct Answer: Upregulation of alpha-1-adrenoceptors on arterioles

      Explanation:

      The patient is exhibiting symptoms consistent with a state of elevated cortisol levels, known as Cushing syndrome. These symptoms include recent weight gain, a round face (moon face), abdominal striae, high blood pressure, and truncal obesity. Cushing syndrome can have various causes, including the use of glucocorticoids or an ectopic ACTH secretion.

      Elevated cortisol levels can lead to an increase in blood glucose levels, putting individuals at risk for hyperglycemia and diabetes. Cortisol can also suppress the immune system, inhibiting the production of prostaglandins, leukotrienes, and interleukin-2, and decreasing the adhesion of white blood cells. Additionally, cortisol can up-regulate alpha-1-adrenoceptors on arterioles, resulting in high blood pressure. High cortisol levels can also decrease osteoblast activity, leading to weakened bones, and reduce fibroblast activity and collagen synthesis, resulting in delayed wound healing. The abdominal striae seen in patients with high cortisol levels are typically due to decreased collagen synthesis.

      Causes of Cushing’s Syndrome

      Cushing’s syndrome is a condition that can be caused by both endogenous and exogenous factors. However, it is important to note that exogenous causes, such as the use of glucocorticoid therapy, are more common than endogenous ones. The condition can be classified into two categories: ACTH dependent and ACTH independent causes.

      ACTH dependent causes of Cushing’s syndrome include Cushing’s disease, which is caused by a pituitary tumor secreting ACTH and producing adrenal hyperplasia. Ectopic ACTH production, which is caused by small cell lung cancer, is another ACTH dependent cause. On the other hand, ACTH independent causes include iatrogenic factors such as steroid use, adrenal adenoma, adrenal carcinoma, Carney complex, and micronodular adrenal dysplasia.

      In some cases, a condition called Pseudo-Cushing’s can mimic Cushing’s syndrome. This is often caused by alcohol excess or severe depression and can cause false positive results in dexamethasone suppression tests or 24-hour urinary free cortisol tests. To differentiate between Cushing’s syndrome and Pseudo-Cushing’s, an insulin stress test may be used.

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  • Question 63 - A 14-year-old boy presents to the emergency department with complaints of severe abdominal...

    Incorrect

    • A 14-year-old boy presents to the emergency department with complaints of severe abdominal pain, nausea, and vomiting for the past 6 hours. The patient appears drowsy and has dry mucous membranes. His vital signs include a heart rate of 94 beats per minute, respiratory rate of 19 breaths per minute, and blood pressure of 89/62 mmHg. There is a fruity smell to his breath, and a bedside glucose finger prick reveals a glucose level of 263 mg/dL. The doctor orders an insulin infusion while waiting for laboratory results. Which insulin preparation is most appropriate for this patient's management?

      Your Answer:

      Correct Answer: Short-acting (regular) insulin

      Explanation:

      The onset of action and peak of NPH and regular insulin are a result of the combination of both human recombinant insulin preparations in the mixture.

      Understanding Insulin Therapy

      Insulin therapy has been a game-changer in the management of diabetes mellitus since its development in the 1920s. It remains the only available treatment for type 1 diabetes mellitus (T1DM) and is widely used in type 2 diabetes mellitus (T2DM) when oral hypoglycemic agents fail to provide adequate control. However, understanding the different types of insulin can be overwhelming, and it is crucial to have a basic grasp to avoid potential harm to patients.

      Insulin can be classified by manufacturing process, duration of action, and type of insulin analogues. Patients often require a combination of preparations to ensure stable glycemic control throughout the day. Rapid-acting insulin analogues act faster and have a shorter duration of action than soluble insulin and may be used as the bolus dose in ‘basal-bolus’ regimes. Short-acting insulins, such as Actrapid and Humulin S, may also be used as the bolus dose in ‘basal-bolus’ regimes. Intermediate-acting insulins, like isophane insulin, are often used in a premixed formulation with long-acting insulins, such as insulin determir and insulin glargine, given once or twice daily. Premixed preparations combine intermediate-acting insulin with either a rapid-acting insulin analogue or soluble insulin.

      The vast majority of patients administer insulin subcutaneously, and it is essential to rotate injection sites to prevent lipodystrophy. Insulin pumps are available, which delivers a continuous basal infusion and a patient-activated bolus dose at meal times. Intravenous insulin is used for patients who are acutely unwell, such as those with diabetic ketoacidosis. Inhaled insulin is available but not widely used, and oral insulin analogues are in development but have considerable technical hurdles to clear. Overall, understanding insulin therapy is crucial for healthcare professionals to provide safe and effective care for patients with diabetes mellitus.

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  • Question 64 - A 26-year-old woman with a history of type 1 diabetes mellitus and borderline...

    Incorrect

    • A 26-year-old woman with a history of type 1 diabetes mellitus and borderline personality disorder is brought to the emergency department by ambulance due to a decreased level of consciousness. She is currently on regular insulin. Upon examination, her Glasgow coma scale is 3/15. The venous blood gas results show a pH of 7.36 (7.35-7.45), K+ of 3.8 mmol/L (3.5-4.5), Na+ of 136 mmol/L (135-145), glucose of 1.2 mmol/L (4.0-7.0), HCO3- of 23 mmol/L (22-26), and Hb of 145 g/dL (12.1-15.1). What is the first hormone to be secreted in response to the likely diagnosis?

      Your Answer:

      Correct Answer: Glucagon

      Explanation:

      The correct answer is Glucagon, as it is the first hormone to be secreted in response to hypoglycaemia. The patient’s reduced level of consciousness is likely due to profound hypoglycaemia caused by exogenous insulin administration. Borderline personality disorder patients have a higher incidence of self harm and suicidality than the general population. Insulin is not the correct answer as its secretion decreases in response to hypoglycaemia, and this patient has T1DM resulting in an absolute deficiency. Cortisol is also not the correct answer as it takes longer to be secreted, although it is another counter-regulatory hormone that seeks to raise blood glucose levels in response to hypoglycaemia.

      Understanding Hypoglycaemia: Causes, Features, and Management

      Hypoglycaemia is a condition characterized by low blood sugar levels, which can lead to a range of symptoms and complications. There are several possible causes of hypoglycaemia, including insulinoma, liver failure, Addison’s disease, and alcohol consumption. The physiological response to hypoglycaemia involves hormonal and sympathoadrenal responses, which can result in autonomic and neuroglycopenic symptoms. While blood glucose levels and symptom severity are not always correlated, common symptoms of hypoglycaemia include sweating, shaking, hunger, anxiety, nausea, weakness, vision changes, confusion, and dizziness. In severe cases, hypoglycaemia can lead to convulsions or coma.

      Managing hypoglycaemia depends on the severity of the symptoms and the setting in which it occurs. In the community, individuals with diabetes who inject insulin may be advised to consume oral glucose or a quick-acting carbohydrate such as GlucoGel or Dextrogel. A ‘HypoKit’ containing glucagon may also be prescribed for home use. In a hospital setting, treatment may involve administering a quick-acting carbohydrate or subcutaneous/intramuscular injection of glucagon for unconscious or unable to swallow patients. Alternatively, intravenous glucose solution may be given through a large vein.

      Overall, understanding the causes, features, and management of hypoglycaemia is crucial for individuals with diabetes or other conditions that increase the risk of low blood sugar levels. Prompt and appropriate treatment can help prevent complications and improve outcomes.

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  • Question 65 - A 29-year-old female presents to the emergency department after a mixed overdose. According...

    Incorrect

    • A 29-year-old female presents to the emergency department after a mixed overdose. According to her parents, she had locked herself in her room after an argument and they found her drowsy on the floor after forcing open the door. The patient has a history of depression and previous suicide attempts. Her grandmother's medical box, containing paracetamol, gliclazide, bisoprolol, and atorvastatin, was found empty, but the amount ingested is unknown. On examination, the patient is sweaty with a global tremor and is confused. She is tachycardic and appears generally weak.

      Which molecule is likely to be the first produced by the patient in response to the overdose?

      Your Answer:

      Correct Answer: Glucagon

      Explanation:

      The initial hormone response to hypoglycaemia is the secretion of glucagon. In the case of a suspected gliclazide overdose, the most likely presentation would be hypoglycaemia, as evidenced by the patient’s sudden onset of sweating, weakness, and confusion. Other medications ingested are unlikely to produce these symptoms. When the body experiences hypoglycaemia, it first reduces insulin production and then increases glucagon secretion, which promotes gluconeogenesis to raise blood glucose levels.

      Glycogen synthase is an enzyme involved in glycogenesis, the process of converting glucose into glycogen for storage in the body. However, in the case of hypoglycaemia caused by gliclazide ingestion, the body would carry out gluconeogenesis to release glucose, rather than glycogenesis.

      While cortisol is released in response to hypoglycaemia, it is a later response and is secreted after glucagon. Cortisol is a glucocorticoid hormone that also promotes gluconeogenesis and glucose production.

      Glutathione is an antioxidant found in the liver that helps neutralize and eliminate the toxic metabolite N-acetyl-p-benzoquinone imine (NAPQI) produced by paracetamol. In cases of paracetamol overdose, glutathione levels are depleted, but this patient’s symptoms are too acute for a paracetamol overdose. Liver failure resulting from paracetamol overdose takes several hours to develop and even longer before physical symptoms appear. The antidote treatment for paracetamol overdose is acetylcysteine, which replenishes glutathione levels.

      Understanding Hypoglycaemia: Causes, Features, and Management

      Hypoglycaemia is a condition characterized by low blood sugar levels, which can lead to a range of symptoms and complications. There are several possible causes of hypoglycaemia, including insulinoma, liver failure, Addison’s disease, and alcohol consumption. The physiological response to hypoglycaemia involves hormonal and sympathoadrenal responses, which can result in autonomic and neuroglycopenic symptoms. While blood glucose levels and symptom severity are not always correlated, common symptoms of hypoglycaemia include sweating, shaking, hunger, anxiety, nausea, weakness, vision changes, confusion, and dizziness. In severe cases, hypoglycaemia can lead to convulsions or coma.

      Managing hypoglycaemia depends on the severity of the symptoms and the setting in which it occurs. In the community, individuals with diabetes who inject insulin may be advised to consume oral glucose or a quick-acting carbohydrate such as GlucoGel or Dextrogel. A ‘HypoKit’ containing glucagon may also be prescribed for home use. In a hospital setting, treatment may involve administering a quick-acting carbohydrate or subcutaneous/intramuscular injection of glucagon for unconscious or unable to swallow patients. Alternatively, intravenous glucose solution may be given through a large vein.

      Overall, understanding the causes, features, and management of hypoglycaemia is crucial for individuals with diabetes or other conditions that increase the risk of low blood sugar levels. Prompt and appropriate treatment can help prevent complications and improve outcomes.

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  • Question 66 - A 14-year-old girl is referred to the endocrine clinic by her GP due...

    Incorrect

    • A 14-year-old girl is referred to the endocrine clinic by her GP due to bed wetting episodes. She experiences constant thirst and frequent urination. A dipstick test reveals diluted urine with low osmolality, and her blood tests show hypernatremia with high serum osmolality. Her family has a history of diabetes insipidus. What is the most suitable follow-up examination?

      Your Answer:

      Correct Answer: Water deprivation test

      Explanation:

      A water deprivation test is the most appropriate method for diagnosing diabetes insipidus. This test involves withholding water from the patient for a period of time to stimulate the release of antidiuretic hormone (ADH) and monitor changes in serum and urine osmolality. Other methods such as urinary sodium or bladder ultrasound scan are not as effective in diagnosing this condition.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 67 - A 42-year-old woman has been admitted to the renal ward with acute kidney...

    Incorrect

    • A 42-year-old woman has been admitted to the renal ward with acute kidney injury. Her blood test shows that her potassium levels are above normal limits. While renal failure is a known cause of hyperkalaemia, the patient mentions having an endocrine disorder in the past but cannot recall its name. This information is crucial as certain endocrine disorders can also cause potassium disturbances. Which of the following endocrine disorders is commonly associated with hyperkalaemia?

      Your Answer:

      Correct Answer: Addison's disease

      Explanation:

      The correct answer is Addison’s disease, which is a condition of primary adrenal insufficiency. One of the hormones that is deficient in this disease is aldosterone, which plays a crucial role in maintaining the balance of potassium in the body. Aldosterone activates Na+/K+ ATPase pumps on the cell wall, causing the movement of potassium into the cell and increasing renal potassium secretion. Therefore, a lack of aldosterone leads to hyperkalaemia.

      Phaeochromocytomas are tumours that produce catecholamines and typically arise in the adrenal medulla. They are associated with hypertension and hyperglycaemia, but not disturbances in potassium balance.

      Hyperthyroidism is a condition of excess thyroid hormone and does not affect potassium balance.

      Conn’s syndrome, on the other hand, is a type of primary hyperaldosteronism where there is excess aldosterone production. Aldosterone activates the Na+/K+ pump on the cell wall, causing the movement of potassium into the cell, which can lead to hypokalaemia.

      Addison’s disease is the most common cause of primary hypoadrenalism in the UK, with autoimmune destruction of the adrenal glands being the main culprit, accounting for 80% of cases. This results in reduced production of cortisol and aldosterone. Symptoms of Addison’s disease include lethargy, weakness, anorexia, nausea and vomiting, weight loss, and salt-craving. Hyperpigmentation, especially in palmar creases, vitiligo, loss of pubic hair in women, hypotension, hypoglycemia, and hyponatremia and hyperkalemia may also be observed. In severe cases, a crisis may occur, leading to collapse, shock, and pyrexia.

      Other primary causes of hypoadrenalism include tuberculosis, metastases (such as bronchial carcinoma), meningococcal septicaemia (Waterhouse-Friderichsen syndrome), HIV, and antiphospholipid syndrome. Secondary causes include pituitary disorders, such as tumours, irradiation, and infiltration. Exogenous glucocorticoid therapy can also lead to hypoadrenalism.

      It is important to note that primary Addison’s disease is associated with hyperpigmentation, while secondary adrenal insufficiency is not.

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  • Question 68 - A 7-year-old boy is brought to the doctor by his father with a...

    Incorrect

    • A 7-year-old boy is brought to the doctor by his father with a complaint of frequent urination and excessive thirst. Upon conducting a fasting blood glucose test, the results are found to be abnormally high. The doctor suspects type 1 diabetes and initiates first-line injectable therapy.

      What characteristic of this medication should be noted?

      Your Answer:

      Correct Answer: Decreases serum potassium

      Explanation:

      Insulin stimulates the Na+/K+ ATPase pump, which leads to a decrease in serum potassium levels. This is the primary treatment for type 1 diabetes, where the pancreas no longer produces insulin, causing high blood sugar levels. Injectable insulin allows glucose to enter cells, and insulin also increases cellular uptake of potassium while decreasing serum potassium levels. Insulin also stimulates muscle protein synthesis, reducing muscle protein loss. Insulin is secreted in response to hyperglycaemia, where high blood sugar levels trigger the beta cells of the pancreas to release insulin in healthy individuals.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

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  • Question 69 - A 42-year-old woman complains of fatigue after experiencing flu-like symptoms two weeks ago....

    Incorrect

    • A 42-year-old woman complains of fatigue after experiencing flu-like symptoms two weeks ago. Upon examination, she has a smooth, small goiter and a pulse rate of 68 bpm. Her lab results show a Free T4 level of 9.3 pmol/L (normal range: 9.8-23.1) and a TSH level of 49.3 mU/L (normal range: 0.35-5.50). What additional test would you perform to confirm the diagnosis?

      Your Answer:

      Correct Answer: Thyroid peroxidase (TPO) antibodies

      Explanation:

      Diagnosis and Management of Primary Hypothyroidism

      The patient’s test results indicate a case of primary hypothyroidism, characterized by low levels of thyroxine (T4) and elevated thyroid-stimulating hormone (TSH). The most likely cause of this condition is Hashimoto’s thyroiditis, which is often accompanied by the presence of thyroid peroxidase antibodies. While the patient has a goitre, it appears to be smooth and non-threatening, so a thyroid ultrasound is not necessary. Additionally, a radio-iodine uptake scan is unlikely to show significant uptake and is therefore not recommended. Positive TSH receptor antibodies are typically associated with Graves’ disease, which is not the likely diagnosis in this case. For further information on Hashimoto’s thyroiditis, patients can refer to Patient.info.

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  • Question 70 - As a medical student on a gastrointestinal ward, you come across a patient...

    Incorrect

    • As a medical student on a gastrointestinal ward, you come across a patient suffering from long-standing reflux. During the ward round, you notice that the patient, who is in his late 40s, is being treated with metoclopramide, a pro-kinetic drug that blocks the action of dopamine and speeds up gastrointestinal motility. However, the patient is now experiencing gynaecomastia and erectile dysfunction. Which hormone is most likely being overproduced in this patient, leading to his current symptoms?

      Your Answer:

      Correct Answer: Prolactin

      Explanation:

      Understanding Prolactin and Galactorrhoea

      Prolactin is a hormone produced by the anterior pituitary gland, and its release is regulated by various physiological factors. Dopamine is the primary inhibitor of prolactin release, and dopamine agonists like bromocriptine can be used to manage galactorrhoea. It is crucial to distinguish between the causes of galactorrhoea and gynaecomastia, which are both related to the actions of prolactin on breast tissue.

      Excess prolactin can lead to different symptoms in men and women. Men may experience impotence, loss of libido, and galactorrhoea, while women may have amenorrhoea and galactorrhoea. Several factors can cause raised prolactin levels, including prolactinoma, pregnancy, oestrogens, stress, exercise, sleep, acromegaly, polycystic ovarian syndrome, and primary hypothyroidism.

      Certain drugs can also increase prolactin levels, such as metoclopramide, domperidone, phenothiazines, and haloperidol. Although rare, some SSRIs and opioids may also cause raised prolactin levels.

      In summary, understanding prolactin and its effects on the body is crucial in diagnosing and managing conditions like galactorrhoea. Identifying the underlying causes of raised prolactin levels is essential in providing appropriate treatment and care.

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  • Question 71 - A 54-year-old man with type 2 diabetes mellitus visits the Endocrinology clinic for...

    Incorrect

    • A 54-year-old man with type 2 diabetes mellitus visits the Endocrinology clinic for evaluation. He is currently on maximum doses of metformin and glibenclamide, but his HbA1c levels have increased from 58 mmol/mol to 67 mmol/mol over the past six months. The consultant recommends adding sitagliptin as a third antidiabetic medication. What is the mechanism of action of this new medication?

      Your Answer:

      Correct Answer: Inhibit the peripheral breakdown of incretins, enhancing their ability to stimulate insulin release

      Explanation:

      Diabetes mellitus is a condition that has seen the development of several drugs in recent years. One hormone that has been the focus of much research is glucagon-like peptide-1 (GLP-1), which is released by the small intestine in response to an oral glucose load. In type 2 diabetes mellitus (T2DM), insulin resistance and insufficient B-cell compensation occur, and the incretin effect, which is largely mediated by GLP-1, is decreased. GLP-1 mimetics, such as exenatide and liraglutide, increase insulin secretion and inhibit glucagon secretion, resulting in weight loss, unlike other medications. They are sometimes used in combination with insulin in T2DM to minimize weight gain. Dipeptidyl peptidase-4 (DPP-4) inhibitors, such as vildagliptin and sitagliptin, increase levels of incretins by decreasing their peripheral breakdown, are taken orally, and do not cause weight gain. Nausea and vomiting are the major adverse effects of GLP-1 mimetics, and the Medicines and Healthcare products Regulatory Agency has issued specific warnings on the use of exenatide, reporting that it has been linked to severe pancreatitis in some patients. NICE guidelines suggest that a DPP-4 inhibitor might be preferable to a thiazolidinedione if further weight gain would cause significant problems, a thiazolidinedione is contraindicated, or the person has had a poor response to a thiazolidinedione.

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  • Question 72 - A 14-year-old boy is brought to the clinic by his mother due to...

    Incorrect

    • A 14-year-old boy is brought to the clinic by his mother due to concerns about his height compared to other boys his age. The boy also shares that he often receives comments about his appearance, with some likening him to a toy doll. What can be inferred about the pattern of hormone release that he may be lacking?

      Your Answer:

      Correct Answer: It is released in a pulsatile manner

      Explanation:

      The doll-like appearance of the boy in his presentation suggests that he may be suffering from growth hormone deficiency, which can cause short stature, forehead prominence, and maxillary hypoplasia. The hypothalamus controls the release of growth hormone through the pulsatile release of growth hormone releasing hormone. Therefore, measuring GHRH levels is not a useful method for investigating growth hormone deficiency.

      Understanding Growth Hormone and Its Functions

      Growth hormone (GH) is a hormone produced by the somatotroph cells in the anterior pituitary gland. It plays a crucial role in postnatal growth and development, as well as in regulating protein, lipid, and carbohydrate metabolism. GH acts on a transmembrane receptor for growth factor, leading to receptor dimerization and direct or indirect effects on tissues via insulin-like growth factor 1 (IGF-1), which is primarily secreted by the liver.

      GH secretion is regulated by various factors, including growth hormone releasing hormone (GHRH), fasting, exercise, and sleep. Conversely, glucose and somatostatin can decrease GH secretion. Disorders associated with GH include acromegaly, which results from excess GH, and GH deficiency, which can lead to short stature.

      In summary, GH is a vital hormone that plays a significant role in growth and metabolism. Understanding its functions and regulation can help in the diagnosis and treatment of GH-related disorders.

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  • Question 73 - A 35-year-old woman is referred to the endocrine clinic due to missed periods...

    Incorrect

    • A 35-year-old woman is referred to the endocrine clinic due to missed periods and lactation. She has also gained weight and experiences vaginal dryness. The endocrinologist decides to measure her prolactin levels. What hormone is responsible for suppressing the release of prolactin from the pituitary gland?

      Your Answer:

      Correct Answer: Dopamine

      Explanation:

      Dopamine consistently prevents the release of prolactin.

      Understanding Prolactin and Its Functions

      Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.

      The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.

      Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.

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  • Question 74 - A 39-year-old male presents to an endocrine clinic with acromegaly caused by a...

    Incorrect

    • A 39-year-old male presents to an endocrine clinic with acromegaly caused by a growth hormone-secreting tumor. The patient is prescribed Octreotide, a somatostatin analogue, to suppress growth hormone release.

      What additional hormonal effects can be attributed to somatostatin?

      Your Answer:

      Correct Answer: Decreases secretion of glucagon

      Explanation:

      Somatostatin has an inhibitory effect on the secretion of glucagon, but it does not affect the secretion of estrogen. It also decreases the secretion of insulin, and overproduction of somatostatin can lead to diabetes mellitus. Additionally, somatostatin reduces the secretion of gastrin, which in turn decreases the production of gastric acid by parietal cells. It also decreases the secretion of thyroid stimulating hormone (TSH), resulting in a decrease in the production of thyroxine in the thyroid.

      Somatostatin: The Inhibitor Hormone

      Somatostatin, also known as growth hormone inhibiting hormone (GHIH), is a hormone produced by delta cells found in the pancreas, pylorus, and duodenum. Its main function is to inhibit the secretion of growth hormone, insulin, and glucagon. It also decreases acid and pepsin secretion, as well as pancreatic enzyme secretion. Additionally, somatostatin inhibits the trophic effects of gastrin and stimulates gastric mucous production.

      Somatostatin analogs are commonly used in the management of acromegaly, a condition characterized by excessive growth hormone secretion. These analogs work by inhibiting growth hormone secretion, thereby reducing the symptoms associated with acromegaly.

      The secretion of somatostatin is regulated by various factors. Its secretion increases in response to fat, bile salts, and glucose in the intestinal lumen, as well as glucagon. On the other hand, insulin decreases the secretion of somatostatin.

      In summary, somatostatin plays a crucial role in regulating the secretion of various hormones and enzymes in the body. Its inhibitory effects on growth hormone, insulin, and glucagon make it an important hormone in the management of certain medical conditions.

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  • Question 75 - As a third year medical student working in a GP surgery, you come...

    Incorrect

    • As a third year medical student working in a GP surgery, you come across a worried 54-year-old male patient who is experiencing chest discomfort. He has recently begun taking a new tablet for his high blood pressure and suspects it may be the cause of his symptoms. During your examination, you notice bilateral non-tender glandular swellings around the areolae. There are no signs of lymphadenopathy in the axillary region, and testicular examination is normal. Which medication is most likely responsible for this clinical presentation?

      Your Answer:

      Correct Answer: Spironolactone

      Explanation:

      Spironolactone-Induced Gynaecomastia

      Spironolactone is a type of diuretic that helps to increase urine production by blocking aldosterone receptors in the kidneys. However, it also has anti-androgenic properties that can lead to the development of gynaecomastia, a condition where men develop breast tissue. This is because spironolactone inhibits the production of testosterone and increases the level of free oestrogen in the blood, causing the proliferation of glandular tissue in the mammary glands.

      While gynaecomastia is not commonly associated with other medications, they all have their own side effects. Aspirin, for example, can cause gastrointestinal ulceration by inhibiting COX enzymes and prostaglandin synthesis. Thiazide diuretics work by blocking the sodium chloride co-transporter in the distal convoluted tubule, which can lead to a decrease in blood volume. Loop diuretics, on the other hand, can cause severe hyponatraemia but do not affect testosterone production. Statins, which are used to lower cholesterol levels, can cause rhabdomyolysis, a serious condition where muscle tissue breaks down and releases harmful substances into the bloodstream.

      In summary, while spironolactone can be an effective diuretic, it is important to be aware of its potential side effects, including gynaecomastia. Patients should always consult with their healthcare provider before starting any new medication and report any unusual symptoms or side effects.

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  • Question 76 - A 56-year-old man visits the breast clinic with a solitary lump in the...

    Incorrect

    • A 56-year-old man visits the breast clinic with a solitary lump in the upper-right quadrant of his right breast. He has a history of non-alcoholic liver disease, hypertension, and gout, and is currently taking Bisoprolol, Naproxen, and Allopurinol. The lump is smooth and firm. Based on his medical history and current medications, what is the probable cause of his breast lump?

      Your Answer:

      Correct Answer: Liver disease

      Explanation:

      Understanding Gynaecomastia: Causes and Drug Triggers

      Gynaecomastia is a condition characterized by the abnormal growth of breast tissue in males, often caused by an increased ratio of oestrogen to androgen. It is important to distinguish the causes of gynaecomastia from those of galactorrhoea, which is caused by the actions of prolactin on breast tissue.

      Physiological changes during puberty can lead to gynaecomastia, but it can also be caused by syndromes with androgen deficiency such as Kallmann and Klinefelter’s, testicular failure due to mumps, liver disease, testicular cancer, and hyperthyroidism. Additionally, haemodialysis and ectopic tumour secretion can also trigger gynaecomastia.

      Drug-induced gynaecomastia is also a common cause, with spironolactone being the most frequent trigger. Other drugs that can cause gynaecomastia include cimetidine, digoxin, cannabis, finasteride, GnRH agonists like goserelin and buserelin, oestrogens, and anabolic steroids. However, it is important to note that very rare drug causes of gynaecomastia include tricyclics, isoniazid, calcium channel blockers, heroin, busulfan, and methyldopa.

      In summary, understanding the causes and drug triggers of gynaecomastia is crucial in diagnosing and treating this condition.

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  • Question 77 - A 30-year-old woman complains of menstrual irregularity and galactorrhoea for the past year....

    Incorrect

    • A 30-year-old woman complains of menstrual irregularity and galactorrhoea for the past year. She also experiences occasional headaches. During examination, she was found to have bitemporal superior quadrantanopia. What is the most probable diagnosis?

      Your Answer:

      Correct Answer: Prolactinoma

      Explanation:

      Prolactinomas cause amenorrhoea, infertility, and galactorrhoea. If the tumour extends outside the sella, visual field defects or other mass effects may occur. Other types of tumours will produce different symptoms depending on their location and structure involved. Craniopharyngiomas originate from the pituitary gland and will produce poralhemianopia if large enough, as well as symptoms related to pituitary hormones. Non-functioning pituitary tumours will have similar symptoms without the pituitary hormone side effects. Tumours of the hypothalamus will present with symptoms of euphoria, headache, weight loss, and mass effect if large enough.

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  • Question 78 - A 57-year-old patient presented to her doctor with a complaint of feeling down...

    Incorrect

    • A 57-year-old patient presented to her doctor with a complaint of feeling down for the past month. She works as a teacher and has had to take time off as she felt she was not able to perform well in her job. She reports feeling fatigued all the time and has no motivation to engage in her usual activities. She has also noticed some weight gain despite a decreased appetite since she last weighed herself and she observed that her face has become more round. During examination, the doctor finds a pulse of 59 beats per minute, a respiratory rate of 12 breaths per minute, and a blood pressure of 105/63 mmHg. The doctor also notes that the neck region overlying the thyroid gland is symmetrically enlarged but the patient denies any pain or tenderness when the doctor palpated her neck. What is the most likely pathological feature in this patient?

      Your Answer:

      Correct Answer: Lymphocytic infiltration of the thyroid gland and the formation of germinal centers

      Explanation:

      The patient’s symptoms and history suggest a diagnosis of hypothyroidism, which is commonly caused by Hashimoto’s thyroiditis in developed countries. This autoimmune condition is more prevalent in women and certain populations, such as the elderly and those with HLA-DR3, 4, and 5 polymorphisms. Other thyroid conditions, such as subacute thyroiditis, Riedel’s thyroiditis, multinodular goitres, and papillary carcinoma, have different characteristic features.

      Understanding Hashimoto’s Thyroiditis

      Hashimoto’s thyroiditis is a chronic autoimmune disorder that affects the thyroid gland. It is more common in women and is typically associated with hypothyroidism, although there may be a temporary period of thyrotoxicosis during the acute phase. The condition is characterized by a firm, non-tender goitre and the presence of anti-thyroid peroxidase (TPO) and anti-thyroglobulin (Tg) antibodies.

      Hashimoto’s thyroiditis is often associated with other autoimmune conditions such as coeliac disease, type 1 diabetes mellitus, and vitiligo. Additionally, there is an increased risk of developing MALT lymphoma with this condition. It is important to note that many causes of hypothyroidism may have an initial thyrotoxic phase, as shown in the Venn diagram. Understanding the features and associations of Hashimoto’s thyroiditis can aid in its diagnosis and management.

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  • Question 79 - A 45-year-old woman comes to the clinic complaining of polyuria. Upon further inquiry,...

    Incorrect

    • A 45-year-old woman comes to the clinic complaining of polyuria. Upon further inquiry, she reports experiencing polyphagia and polydipsia as well. Her blood test reveals hyperglycaemia and low C-peptide levels.

      What is the underlying mechanism causing her hyperglycaemia?

      Your Answer:

      Correct Answer: Decreased GLUT-4 expression

      Explanation:

      The movement of glucose into cells requires insulin. In this case, the patient is likely suffering from type 1 diabetes mellitus or latent autoimmune diabetes in adults (LADA) with low c-peptide levels, indicating a complete lack of insulin. As a result, insulin is unable to stimulate the expression of GLUT-4, which significantly reduces the uptake of glucose into skeletal and adipose cells.

      The patient’s low GLUT-1 expression is unlikely to be the cause of hyperglycemia. GLUT-1 is primarily expressed in fetal tissues and has a higher affinity for oxygen, allowing fetal cells to survive even in hypoglycemic conditions.

      GLUT-2 expression is mainly found in hepatocytes and beta-cells of the pancreas. It allows for the bi-directional movement of glucose, equalizing glucose concentrations inside and outside the cell membrane, and enabling glucose-sensitive cells to measure serum glucose levels and respond accordingly.

      GLUT-3 expression is mainly found in neuronal cells and has a high affinity, similar to GLUT-1. This allows for the survival of brain cells in hypoglycemic conditions.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

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  • Question 80 - A 23-year-old male visits his GP complaining of polyuria, chronic thirst and pale-coloured...

    Incorrect

    • A 23-year-old male visits his GP complaining of polyuria, chronic thirst and pale-coloured urine that have persisted for 3 months. He had a concussion from a car accident a month before the onset of his urinary symptoms. The patient is diagnosed with cranial diabetes insipidus after undergoing several tests.

      What would the water deprivation test likely reveal in this case?

      Your Answer:

      Correct Answer: Low urine osmolality after fluid deprivation, but high after desmopressin

      Explanation:

      The correct answer is low urine osmolality after fluid deprivation, but high after desmopressin, for a patient with cranial diabetes insipidus (DI). This condition is characterized by polyuria, chronic thirst, and pale-coloured urine, and is caused by insufficient antidiuretic hormone (ADH) secretion. As a result, the kidneys are unable to concentrate urine, leading to a low urine osmolality even during water deprivation. However, the kidneys will respond to desmopressin (synthetic ADH) to produce concentrated urine.

      High urine osmolality after both fluid deprivation and desmopressin is incorrect, as it would be seen in a healthy individual or a patient with primary polydipsia, a psychogenic disorder characterized by excessive drinking despite being properly hydrated.

      Low urine osmolality after both fluid deprivation and desmopressin is incorrect, as this is typical of nephrogenic DI, a condition in which the kidneys are insensitive to ADH.

      High urine osmolality after fluid deprivation, but normal after desmopressin is incorrect, as this would not be commonly seen with any pathological state.

      Low urine osmolality after desmopressin, but high after fluid deprivation is incorrect, as this would not be commonly seen with any pathological state.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 81 - A 50-year-old man has a laparotomy and repair of incisional hernia. Which hormone...

    Incorrect

    • A 50-year-old man has a laparotomy and repair of incisional hernia. Which hormone is most unlikely to be released in higher amounts after the surgery?

      Your Answer:

      Correct Answer: Insulin

      Explanation:

      Reduced secretion of insulin and thyroxine is common after surgery, which can make it challenging to manage diabetes in people with insulin resistance due to the additional release of glucocorticoids.

      Surgery triggers a stress response that causes hormonal and metabolic changes in the body. This response is characterized by substrate mobilization, muscle protein loss, sodium and water retention, suppression of anabolic hormone secretion, activation of the sympathetic nervous system, and immunological and haematological changes. The hypothalamic-pituitary axis and the sympathetic nervous systems are activated, and the normal feedback mechanisms of control of hormone secretion fail. The stress response is associated with increased growth hormone, cortisol, renin, adrenocorticotrophic hormone (ACTH), aldosterone, prolactin, antidiuretic hormone, and glucagon, while insulin, testosterone, oestrogen, thyroid stimulating hormone, luteinizing hormone, and follicle stimulating hormone are decreased or remain unchanged. The metabolic effects of cortisol are enhanced, including skeletal muscle protein breakdown, stimulation of lipolysis, anti-insulin effect, mineralocorticoid effects, and anti-inflammatory effects. The stress response also affects carbohydrate, protein, lipid, salt and water metabolism, and cytokine release. Modifying the response can be achieved through opioids, spinal anaesthesia, nutrition, growth hormone, anabolic steroids, and normothermia.

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  • Question 82 - A 20-year-old man comes to the emergency department complaining of abdominal pain, vomiting,...

    Incorrect

    • A 20-year-old man comes to the emergency department complaining of abdominal pain, vomiting, polyuria, polydipsia, and confusion that have been present for the past 12 hours. During the examination, he shows mild generalized abdominal tenderness without guarding. His breathing is observed to be deep and rapid.

      The patient has a medical history of type 1 diabetes, but he confesses to being non-compliant with his insulin regimen.

      What is the probable pathophysiology behind his symptoms?

      Your Answer:

      Correct Answer: Uncontrolled lipolysis which results in an excess of free fatty acids

      Explanation:

      The cause of DKA is uncontrolled lipolysis, leading to an excess of free fatty acids that are converted to ketone bodies. This results in high levels of ketones in the urine. Hypoglycemia activates the sympathetic nervous system. Lactic acidosis is similar to DKA but lacks the presence of ketones in urine. Appendicitis can cause abdominal pain, vomiting, and urinary symptoms, but the presence of ketones in urine suggests DKA. Urinary tract infections are rare in men under 50 and typically occur with abnormal anatomy or catheterization.

      Diabetic ketoacidosis (DKA) is a serious complication of type 1 diabetes mellitus, accounting for around 6% of cases. It can also occur in rare cases of extreme stress in patients with type 2 diabetes mellitus. DKA is caused by uncontrolled lipolysis, resulting in an excess of free fatty acids that are converted to ketone bodies. The most common precipitating factors of DKA are infection, missed insulin doses, and myocardial infarction. Symptoms include abdominal pain, polyuria, polydipsia, dehydration, Kussmaul respiration, and breath that smells like acetone. Diagnostic criteria include glucose levels above 11 mmol/l or known diabetes mellitus, pH below 7.3, bicarbonate below 15 mmol/l, and ketones above 3 mmol/l or urine ketones ++ on dipstick.

      Management of DKA involves fluid replacement, insulin, and correction of electrolyte disturbance. Fluid replacement is necessary as most patients with DKA are deplete around 5-8 litres. Isotonic saline is used initially, even if the patient is severely acidotic. Insulin is administered through an intravenous infusion, and correction of electrolyte disturbance is necessary. Long-acting insulin should be continued, while short-acting insulin should be stopped. Complications may occur from DKA itself or the treatment, such as gastric stasis, thromboembolism, arrhythmias, acute respiratory distress syndrome, acute kidney injury, and cerebral edema. Children and young adults are particularly vulnerable to cerebral edema following fluid resuscitation in DKA and often need 1:1 nursing to monitor neuro-observations, headache, irritability, visual disturbance, focal neurology, etc.

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  • Question 83 - A 54-year-old man with a history of type II diabetes mellitus presents for...

    Incorrect

    • A 54-year-old man with a history of type II diabetes mellitus presents for a routine check-up. He reports no symptoms of increased urination or thirst. Laboratory results reveal an HbA1c level of 67 mmol/mol and a random plasma glucose level of 15.6 mg/l. The patient is currently taking metformin, and his physician decides to add gliclazide to his medication regimen. What is the mechanism of action of gliclazide?

      Your Answer:

      Correct Answer: Stimulates sulphonylurea-1 receptors

      Explanation:

      The primary mode of action of gliclazide, which belongs to the sulphonylurea class, is to activate the sulphonylurea-1 receptors present on pancreatic cells, thereby promoting insulin secretion. The remaining choices pertain to alternative medications for diabetes.

      Common Medications for Type 2 Diabetes

      Type 2 diabetes is a chronic condition that affects millions of people worldwide. Fortunately, there are several medications available to help manage the disease. Some of the most commonly prescribed drugs include sulphonylureas, metformin, alpha-glucosidase inhibitors (such as acarbose), glitazones, and insulin.

      Sulphonylureas are a type of medication that stimulates the pancreas to produce more insulin. This helps to lower blood sugar levels and improve glucose control. Metformin, on the other hand, works by reducing the amount of glucose produced by the liver and improving insulin sensitivity. Alpha-glucosidase inhibitors, like acarbose, slow down the digestion of carbohydrates in the small intestine, which helps to prevent spikes in blood sugar levels after meals.

      Glitazones, also known as thiazolidinediones, improve insulin sensitivity and reduce insulin resistance. They work by activating a specific receptor in the body that helps to regulate glucose metabolism. Finally, insulin is a hormone that is naturally produced by the pancreas and helps to regulate blood sugar levels. In some cases, people with type 2 diabetes may need to take insulin injections to help manage their condition.

      Overall, these medications can be very effective in helping people with type 2 diabetes to manage their blood sugar levels and prevent complications. However, it’s important to work closely with a healthcare provider to determine the best treatment plan for each individual.

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  • Question 84 - A 22-year-old male presents to the emergency department with a two-hour history of...

    Incorrect

    • A 22-year-old male presents to the emergency department with a two-hour history of nausea, confusion, and drowsiness. The patient has a medical history of type 1 diabetes mellitus.

      Upon conducting an A-E examination, the only significant finding is a plasma glucose level of 3.4 mmol/L. The patient is capable of swallowing.

      What is the most suitable course of action for managing this patient?

      Your Answer:

      Correct Answer: Two tubes of oral glucose gel

      Explanation:

      The recommended first-line treatment for a conscious patient with hypoglycaemia is a fast-acting carbohydrate taken orally, such as glucose liquids, tablets, or gels. In this case, the appropriate course of action would be to administer two tubes of glucose gel. Glucagon via intramuscular injection is not necessary unless the patient is experiencing severe hypoglycaemia or is unable to swallow. Insulin via intramuscular injection is not appropriate for treating hypoglycaemia, and intravenous glucose is only used in cases of severe hypoglycaemia.

      Understanding Hypoglycaemia: Causes, Features, and Management

      Hypoglycaemia is a condition characterized by low blood sugar levels, which can lead to a range of symptoms and complications. There are several possible causes of hypoglycaemia, including insulinoma, liver failure, Addison’s disease, and alcohol consumption. The physiological response to hypoglycaemia involves hormonal and sympathoadrenal responses, which can result in autonomic and neuroglycopenic symptoms. While blood glucose levels and symptom severity are not always correlated, common symptoms of hypoglycaemia include sweating, shaking, hunger, anxiety, nausea, weakness, vision changes, confusion, and dizziness. In severe cases, hypoglycaemia can lead to convulsions or coma.

      Managing hypoglycaemia depends on the severity of the symptoms and the setting in which it occurs. In the community, individuals with diabetes who inject insulin may be advised to consume oral glucose or a quick-acting carbohydrate such as GlucoGel or Dextrogel. A ‘HypoKit’ containing glucagon may also be prescribed for home use. In a hospital setting, treatment may involve administering a quick-acting carbohydrate or subcutaneous/intramuscular injection of glucagon for unconscious or unable to swallow patients. Alternatively, intravenous glucose solution may be given through a large vein.

      Overall, understanding the causes, features, and management of hypoglycaemia is crucial for individuals with diabetes or other conditions that increase the risk of low blood sugar levels. Prompt and appropriate treatment can help prevent complications and improve outcomes.

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  • Question 85 - A 39-year old male visits the GP complaining of nipple discharge. Upon examination,...

    Incorrect

    • A 39-year old male visits the GP complaining of nipple discharge. Upon examination, it is found that his serum prolactin levels are significantly high. Besides prolactin releasing hormone, which other hypothalamic hormone can stimulate the secretion of prolactin?

      Your Answer:

      Correct Answer: Thyrotropin releasing hormone (TRH)

      Explanation:

      Understanding Prolactin and Its Functions

      Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.

      The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.

      Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.

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  • Question 86 - A 55-year-old woman comes to her doctor complaining of fatigue, difficulty passing stool,...

    Incorrect

    • A 55-year-old woman comes to her doctor complaining of fatigue, difficulty passing stool, and muscle weakness. Her lab results show:

      Free T4 6 pmol/l (9-18 pmol/l)
      TSH 7.2 mu/l (0.5-5.5 mu/l)

      Based on the probable diagnosis, which of the following tests is most likely to be positive in this patient?

      Your Answer:

      Correct Answer: Anti-thyroid peroxidase (anti-TPO) antibodies

      Explanation:

      Rheumatoid factor is not the most suitable answer for a patient with hypothyroidism, despite its presence in various rheumatological conditions and healthy individuals.

      Understanding Thyroid Autoantibodies

      Thyroid autoantibodies are antibodies that attack the thyroid gland, causing various thyroid disorders. There are three main types of anti-thyroid autoantibodies: anti-thyroid peroxidase (anti-TPO) antibodies, TSH receptor antibodies, and thyroglobulin antibodies. Anti-TPO antibodies are present in 90% of Hashimoto’s thyroiditis cases and 75% of Graves’ disease cases. TSH receptor antibodies are found in 90-100% of Graves’ disease cases. Thyroglobulin antibodies are present in 70% of Hashimoto’s thyroiditis cases, 30% of Graves’ disease cases, and a small proportion of thyroid cancer cases.

      Understanding the different types of thyroid autoantibodies is important in diagnosing and treating thyroid disorders. Hashimoto’s thyroiditis and Graves’ disease are the most common autoimmune thyroid disorders, and the presence of specific autoantibodies can help differentiate between the two. Additionally, monitoring the levels of these antibodies can help track the progression of the disease and the effectiveness of treatment. Overall, understanding thyroid autoantibodies is crucial in managing thyroid health.

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  • Question 87 - A 70-year-old male has been diagnosed with polymyalgia rheumatica and prescribed prednisolone. What...

    Incorrect

    • A 70-year-old male has been diagnosed with polymyalgia rheumatica and prescribed prednisolone. What is the most likely adverse effect he may experience?

      Your Answer:

      Correct Answer: Hyperglycaemia

      Explanation:

      Hyperglycemia is the correct answer. Most patients who take steroids experience an increase in appetite and weight gain, so anorexia or weight loss are not appropriate responses.

      Steroid hormones can also affect the aldosterone receptor in the collecting duct, potentially leading to hyponatremia.

      Although changes in vision are possible due to steroid-induced cataracts, they are much less common.

      High levels of non-endogenous steroids have several risk factors, including hyperglycemia, high blood pressure, obesity (particularly around the waist), muscle wasting, poor wound healing, and mood swings or depression.

      Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.

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  • Question 88 - A 12-year-old girl, previously healthy, presents to the emergency department with symptoms of...

    Incorrect

    • A 12-year-old girl, previously healthy, presents to the emergency department with symptoms of nausea, vomiting, and confusion. The patient's father reports his child appearing fatigued, and having increased thirst and urinary frequency over the past few days. Upon laboratory analysis, the patient's serum glucose is found to be 25 mmol/L and urinalysis is positive for ketones. The medical team initiates fluid resuscitation and insulin therapy.

      What electrolyte changes are anticipated following the treatment of this patient?

      Your Answer:

      Correct Answer: Decrease in potassium levels

      Explanation:

      The Na+/K+ ATPase pump is stimulated by insulin, leading to a decrease in serum potassium levels. This effect is particularly relevant in patients with diabetic ketoacidosis, who experience insulin deficiency and hyperkalemia. It is important to monitor serum potassium levels closely during the management of diabetic ketoacidosis to avoid the potential complications of hypokalemia. Insulin does not cause a decrease in sodium levels, and its effects on calcium and phosphate homeostasis are minimal. The resolution of ketoacidosis with insulin and fluids will result in an increase in serum bicarbonate levels back to normal range.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

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  • Question 89 - A patient on the geriatrics ward has symptoms consistent with hypoparathyroidism. A blood...

    Incorrect

    • A patient on the geriatrics ward has symptoms consistent with hypoparathyroidism. A blood test is requested to check PTH levels, serum calcium, phosphate and vitamin D.

      Which of the following levels also need to be specifically checked?

      Your Answer:

      Correct Answer: Magnesium

      Explanation:

      The correct answer is magnesium, as it is necessary for the secretion and function of parathyroid hormone. Adequate magnesium levels are required for the hormone to have its desired effects. CRP, urea, and platelets are not relevant to this situation and do not need to be tested.

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

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  • Question 90 - A 45-year-old male has presented to discuss the management of primary hyperparathyroidism. He...

    Incorrect

    • A 45-year-old male has presented to discuss the management of primary hyperparathyroidism. He was diagnosed 3 weeks ago after complaining of bone pain and gastrointestinal discomfort. Today's blood results indicate an electrolyte abnormality.

      What is the most probable electrolyte abnormality that will be observed on the blood results?

      Your Answer:

      Correct Answer: Hypophosphataemia

      Explanation:

      Renal phosphate reabsorption is decreased by PTH.

      When PTH levels are excessive, as seen in hyperparathyroidism, renal reabsorption is reduced, leading to low serum phosphate levels. PTH inhibits osteoblasts, not osteoclasts, resulting in an increase in plasma calcium levels. PTH is released in response to low calcium levels and works to increase calcium resorption in the kidneys. Additionally, PTH increases magnesium resorption in the kidneys.

      It is important to note that PTH does not affect potassium levels.

      Understanding Parathyroid Hormone and Its Effects

      Parathyroid hormone is a hormone produced by the chief cells of the parathyroid glands. Its main function is to increase the concentration of calcium in the blood by stimulating the PTH receptors in the kidney and bone. This hormone has a short half-life of only 4 minutes.

      The effects of parathyroid hormone are mainly seen in the bone, kidney, and intestine. In the bone, PTH binds to osteoblasts, which then signal to osteoclasts to resorb bone and release calcium. In the kidney, PTH promotes the active reabsorption of calcium and magnesium from the distal convoluted tubule, while decreasing the reabsorption of phosphate. In the intestine, PTH indirectly increases calcium absorption by increasing the activation of vitamin D, which in turn increases calcium absorption.

      Overall, understanding the role of parathyroid hormone is important in maintaining proper calcium levels in the body. Any imbalances in PTH secretion can lead to various disorders such as hyperparathyroidism or hypoparathyroidism.

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  • Question 91 - A 23-year-old woman presents with clinical manifestations of hyperthyroidism and is diagnosed with...

    Incorrect

    • A 23-year-old woman presents with clinical manifestations of hyperthyroidism and is diagnosed with Graves disease. What is the most appropriate explanation for the pathophysiology of this condition?

      Your Answer:

      Correct Answer: Formation of IgG antibodies to the TSH receptors on the thyroid gland

      Explanation:

      Graves disease typically results in the formation of IgG antibodies that target the TSH receptors located on the thyroid gland, leading to a significant decrease in TSH levels.

      Thyroid Hormones and LATS in Graves Disease

      Thyroid hormones are produced by the thyroid gland and include triiodothyronine (T3) and thyroxine (T4), with T3 being the major hormone active in target cells. The synthesis and secretion of these hormones involves the active concentration of iodide by the thyroid, which is then oxidized and iodinated by peroxidase in the follicular cells. This process is stimulated by thyroid-stimulating hormone (TSH), which is released by the pituitary gland. The normal thyroid has approximately three months’ worth of reserves of thyroid hormones.

      In Graves disease, patients develop IgG antibodies to the TSH receptors on the thyroid gland. This results in chronic and long-term stimulation of the gland with the release of thyroid hormones. As a result, individuals with Graves disease typically have raised thyroid hormones and low TSH levels. It is important to check for thyroid receptor autoantibodies in individuals presenting with hyperthyroidism, as they are present in up to 85% of cases. This condition is known as LATS (long-acting thyroid stimulator) and can lead to a range of symptoms and complications if left untreated.

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  • Question 92 - A 28-year-old male presents to his GP with a diagnosis of hyperthyroidism. He...

    Incorrect

    • A 28-year-old male presents to his GP with a diagnosis of hyperthyroidism. He states that he has lost 1 stone in weight over the past 3 months, despite having an increased appetite. What could be the probable reason for this?

      Your Answer:

      Correct Answer: Increased basal metabolic rate

      Explanation:

      Thyroid hormones play a crucial role in regulating metabolism by increasing the basal metabolic rate and influencing protein synthesis. They are essential for growth and development, including neural development in fetuses and growth in young children. Additionally, they enhance the body’s sensitivity to catecholamines.

      Thyroid hormones stimulate the sodium-potassium pump in the membrane, leading to increased uptake and breakdown of glucose and amino acids. This results in calorigenesis and ATP formation in the mitochondria for the pump. They also have lipolytic effects on fat, promoting cholesterol breakdown and LDL receptor activity.

      Other metabolic effects of thyroid hormones include increased gut motility and glucose absorption, hepatic glycogenolysis, and potentiation of insulin’s effects on glucose uptake in the liver and muscles. They also break down insulin to prevent glucose storage and enhance the glycogenolysis effects of adrenaline.

      Thyroid hormones increase oxygen consumption, leading to increased erythropoiesis for better oxygen transport, enhanced cardiac contractility, and maintenance of the hypoxic and hypercapnic drive in the respiratory center. They also increase protein turnover, metabolic turnover of drugs and hormones, and bone turnover.

      Understanding Thyrotoxicosis: Causes and Investigations

      Thyrotoxicosis is a condition characterized by an overactive thyroid gland, resulting in an excess of thyroid hormones in the body. Graves’ disease is the most common cause, accounting for 50-60% of cases. Other causes include toxic nodular goitre, subacute thyroiditis, postpartum thyroiditis, Hashimoto’s thyroiditis, amiodarone therapy, and contrast administration. Elderly patients with pre-existing thyroid disease are also at risk.

      To diagnose thyrotoxicosis, doctors typically look for a decrease in thyroid-stimulating hormone (TSH) levels and an increase in T4 and T3 levels. Thyroid autoantibodies may also be present. Isotope scanning may be used to investigate further. It is important to note that many causes of hypothyroidism may have an initial thyrotoxic phase, highlighting the complexity of thyroid dysfunction. Patients with existing thyrotoxicosis should avoid iodinated contrast medium, as it can result in hyperthyroidism developing over several weeks.

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  • Question 93 - A 29-year-old male attends a pre-operative assessment clinic for thyroidectomy due to failed...

    Incorrect

    • A 29-year-old male attends a pre-operative assessment clinic for thyroidectomy due to failed treatment with carbimazole and radio-iodine for Grave's disease. What is the potential complication that he is at a high risk of developing during this procedure?

      Your Answer:

      Correct Answer: Recurrent laryngeal nerve palsy

      Explanation:

      The risk of complications during thyroidectomy is relatively low, but there are still potential risks to be aware of. One of the most common complications is damage to the recurrent laryngeal nerve, which can result in vocal cord paralysis and hoarseness. However, the vagal nerve and phrenic nerve are rarely damaged during the procedure as they are not in close proximity to the operating site. Trauma to the esophagus is also uncommon. If the parathyroid glands are inadvertently removed during the procedure, it can result in hypoparathyroidism rather than hyperparathyroidism.

      Thyroid disorders are commonly encountered in clinical practice, with hypothyroidism and thyrotoxicosis being the most prevalent. Women are ten times more likely to develop these conditions than men. The thyroid gland is a bi-lobed structure located in the anterior neck and is part of a hypothalamus-pituitary-end organ system that regulates the production of thyroxine and triiodothyronine hormones. These hormones help regulate energy sources, protein synthesis, and the body’s sensitivity to other hormones. Hypothyroidism can be primary or secondary, while thyrotoxicosis is mostly primary. Autoimmunity is the leading cause of thyroid problems in the developed world.

      Thyroid disorders can present in various ways, with symptoms often being the opposite depending on whether the thyroid gland is under or overactive. For example, hypothyroidism may result in weight gain, while thyrotoxicosis leads to weight loss. Thyroid function tests are the primary investigation for diagnosing thyroid disorders. These tests primarily look at serum TSH and T4 levels, with T3 being measured in specific cases. TSH levels are more sensitive than T4 levels for monitoring patients with existing thyroid problems.

      Treatment for thyroid disorders depends on the cause. Patients with hypothyroidism are given levothyroxine to replace the underlying deficiency. Patients with thyrotoxicosis may be treated with propranolol to control symptoms such as tremors, carbimazole to reduce thyroid hormone production, or radioiodine treatment.

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  • Question 94 - A 49-year-old woman has been diagnosed with a phaeochromocytoma. What is the primary...

    Incorrect

    • A 49-year-old woman has been diagnosed with a phaeochromocytoma. What is the primary amino acid from which catecholamines are derived?

      Your Answer:

      Correct Answer: Tyrosine

      Explanation:

      Tyrosine serves as the precursor for catecholamine hormones, which undergo modification by a DOPA decarboxylase enzyme to form dopamine. Subsequently, through two additional enzymatic alterations, dopamine is converted to noradrenaline and ultimately adrenaline.

      Adrenal Physiology: Medulla and Cortex

      The adrenal gland is composed of two main parts: the medulla and the cortex. The medulla is responsible for secreting the catecholamines noradrenaline and adrenaline, which are released in response to sympathetic nervous system stimulation. The chromaffin cells of the medulla are innervated by the splanchnic nerves, and the release of these hormones is triggered by the secretion of acetylcholine from preganglionic sympathetic fibers. Phaeochromocytomas, which are tumors derived from chromaffin cells, can cause excessive secretion of both adrenaline and noradrenaline.

      The adrenal cortex is divided into three distinct zones: the zona glomerulosa, zona fasciculata, and zona reticularis. Each zone is responsible for secreting different hormones. The outer zone, zona glomerulosa, secretes aldosterone, which regulates electrolyte balance and blood pressure. The middle zone, zona fasciculata, secretes glucocorticoids, which are involved in the regulation of metabolism, immune function, and stress response. The inner zone, zona reticularis, secretes androgens, which are involved in the development and maintenance of male sex characteristics.

      Most of the hormones secreted by the adrenal cortex, including glucocorticoids and aldosterone, are bound to plasma proteins in the circulation. Glucocorticoids are inactivated and excreted by the liver. Understanding the physiology of the adrenal gland is important for the diagnosis and treatment of various endocrine disorders.

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  • Question 95 - Whilst an inpatient for a chest infection, a 65-year-old man is seen by...

    Incorrect

    • Whilst an inpatient for a chest infection, a 65-year-old man is seen by the hospital's diabetic specialist nurse. Despite trying various medications, his diabetic control has been generally inadequate. His latest blood test shows his HbA1c to still be above the normal range. The specialist nurse decides to initiate a new medication and advises the GP to review with a repeat blood test in a few months. The patient is cautioned about severe adverse effects, particularly Fournier gangrene.

      What is the mechanism of action of the prescribed medication?

      Your Answer:

      Correct Answer: Inhibits sodium-glucose co-transporter 2

      Explanation:

      SGLT-2 inhibitors work by inhibiting the sodium-glucose co-transporter 2 (SGLT-2) in the renal proximal convoluted tubule. This class of drugs includes empagliflozin and dapagliflozin and can lead to weight loss. However, they may also cause urinary/genital infections and normoglycaemic ketoacidosis. Fournier gangrene is a known serious adverse effect of this drug class.

      Thiazolidinedione drugs, such as pioglitazone, activate peroxisome proliferator-activated receptor-gamma (PPAR gamma). This receptor complex affects various target genes, ultimately decreasing insulin resistance and causing other effects.

      Sulfonylureas, like gliclazide, block ATP-sensitive potassium channels. These drugs may cause weight gain and induce hypoglycaemia.

      GLP-1 mimetics, including exenatide, activate glucagon-like peptide 1 receptors. This relatively new class of drug can lead to weight loss but is not widely used in diabetic guidelines.

      DPP4 inhibitors, such as sitagliptin and linagliptin, work by inhibiting dipeptidyl peptidase-4 (DPP4). This ultimately leads to increased levels of incretin circulation, similar to GLP-1 mimetics.

      Understanding SGLT-2 Inhibitors

      SGLT-2 inhibitors are medications that work by blocking the reabsorption of glucose in the kidneys, leading to increased excretion of glucose in the urine. This mechanism of action helps to lower blood sugar levels in patients with type 2 diabetes mellitus. Examples of SGLT-2 inhibitors include canagliflozin, dapagliflozin, and empagliflozin.

      However, it is important to note that SGLT-2 inhibitors can also have adverse effects. Patients taking these medications may be at increased risk for urinary and genital infections due to the increased glucose in the urine. Fournier’s gangrene, a rare but serious bacterial infection of the genital area, has also been reported. Additionally, there is a risk of normoglycemic ketoacidosis, a condition where the body produces high levels of ketones even when blood sugar levels are normal. Finally, patients taking SGLT-2 inhibitors may be at increased risk for lower-limb amputations, so it is important to closely monitor the feet.

      Despite these potential risks, SGLT-2 inhibitors can also have benefits. Patients taking these medications often experience weight loss, which can be beneficial for those with type 2 diabetes mellitus. Overall, it is important for patients to discuss the potential risks and benefits of SGLT-2 inhibitors with their healthcare provider before starting treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 96 - A 55-year-old male visits his doctor complaining of a milky discharge from his...

    Incorrect

    • A 55-year-old male visits his doctor complaining of a milky discharge from his nipples. He has a history of schizophrenia and has been taking olanzapine for a while now. No recent changes have been made to his medication.

      Which compound with elevated levels is most likely causing this symptom?

      Your Answer:

      Correct Answer: Prolactin, released from the anterior pituitary

      Explanation:

      The patient is experiencing galactorrhea, which is commonly associated with hyperprolactinemia. Prolactin stimulates milk production in the mammary glands, and the patient’s hyperprolactinemia is likely due to his use of olanzapine, which acts as a dopamine antagonist. Dopamine normally inhibits prolactin secretion. The other answer choices are incorrect as they do not accurately explain the mechanism behind the patient’s presentation.

      Understanding Prolactin and Its Functions

      Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.

      The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.

      Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 97 - A 26-year-old male patient comes to the follow-up clinic after undergoing surgery to...

    Incorrect

    • A 26-year-old male patient comes to the follow-up clinic after undergoing surgery to remove an endocrine gland. He had been experiencing symptoms such as profuse sweating, headaches, palpitations, and high blood pressure (200/120mmHg) prior to the decision for surgery. What type of cells would be revealed through histological staining of the removed organ?

      Your Answer:

      Correct Answer: Chromaffin cells

      Explanation:

      The man’s initial symptoms are consistent with a diagnosis of phaeochromocytoma, a type of neuroendocrine tumor that affects the chromaffin cells in the adrenal medulla. This condition leads to an overproduction of adrenaline and noradrenaline, resulting in an excessive sympathetic response.

      Calcitonin is secreted by the parafollicular C cells in the thyroid gland.

      The anterior pituitary gland contains gonadotropes, lactotropes, and thyrotropes, which secrete gonadotropins (FSH, LH), prolactin, and TSH, respectively.

      Phaeochromocytoma: A Rare Tumor that Secretes Catecholamines

      Phaeochromocytoma is a type of tumor that secretes catecholamines and is considered rare. It is familial in about 10% of cases and may be associated with certain syndromes such as MEN type II, neurofibromatosis, and von Hippel-Lindau syndrome. This tumor can be bilateral in 10% of cases and malignant in 10%. It can also occur outside of the adrenal gland, with the most common site being the organ of Zuckerkandl, which is adjacent to the bifurcation of the aorta.

      The symptoms of phaeochromocytoma are typically episodic and include hypertension (which is present in around 90% of cases and may be sustained), headaches, palpitations, sweating, and anxiety. To diagnose this condition, a 24-hour urinary collection of metanephrines is preferred over a 24-hour urinary collection of catecholamines due to its higher sensitivity (97%).

      Surgery is the definitive management for phaeochromocytoma. However, before surgery, the patient must first be stabilized with medical management, which includes an alpha-blocker (such as phenoxybenzamine) given before a beta-blocker (such as propranolol).

    • This question is part of the following fields:

      • Endocrine System
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  • Question 98 - A 33-year-old woman with a history of coeliac disease presents to the emergency...

    Incorrect

    • A 33-year-old woman with a history of coeliac disease presents to the emergency department with palpitations, diaphoresis, and tremors. Upon examination, her vital signs reveal a heart rate of 110 bpm and respiratory rate of 24 per min. She displays hand tremors, bulging eyeballs, and diffuse swelling in her neck. Her blood tests show:

      TSH 0.1 mU/l
      Free T4 32.5 pmol/l
      Free T3 12.5 pmol/l

      What is the most probable underlying pathophysiology in this patient?

      Your Answer:

      Correct Answer: Antibodies to TSH receptors

      Explanation:

      Graves’ disease is the most probable cause of thyrotoxicosis in a middle-aged woman, particularly if she exhibits exophthalmos. This autoimmune disorder is characterised by the presence of antibodies to the thyroid stimulating hormone (TSH) receptors.

      Graves’ Disease: Common Features and Unique Signs

      Graves’ disease is the most frequent cause of thyrotoxicosis, which is commonly observed in women aged 30-50 years. The condition presents typical features of thyrotoxicosis, such as weight loss, palpitations, and heat intolerance. However, Graves’ disease also displays specific signs that are not present in other causes of thyrotoxicosis. These include eye signs, such as exophthalmos and ophthalmoplegia, as well as pretibial myxoedema and thyroid acropachy. The latter is a triad of digital clubbing, soft tissue swelling of the hands and feet, and periosteal new bone formation.

      Graves’ disease is characterized by the presence of autoantibodies, including TSH receptor stimulating antibodies in 90% of patients and anti-thyroid peroxidase antibodies in 75% of patients. Thyroid scintigraphy reveals a diffuse, homogenous, and increased uptake of radioactive iodine. These features help distinguish Graves’ disease from other causes of thyrotoxicosis and aid in its diagnosis.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 99 - A 29-year-old female has been diagnosed with hyperthyroidism. She is experiencing heat intolerance...

    Incorrect

    • A 29-year-old female has been diagnosed with hyperthyroidism. She is experiencing heat intolerance and is very frightened by her palpitations. The GP prescribes Carbimazole and a second medication to manage the palpitations. Which receptors are being overstimulated by the increased catecholamine effects in this patient, leading to her palpitations?

      Your Answer:

      Correct Answer: β1 receptors

      Explanation:

      The sensitivity of the body to catecholamines is heightened by thyroid hormones. When catecholamines activate the β1 receptors in the heart, it leads to an elevation in heart rate.

      Thyroid disorders are commonly encountered in clinical practice, with hypothyroidism and thyrotoxicosis being the most prevalent. Women are ten times more likely to develop these conditions than men. The thyroid gland is a bi-lobed structure located in the anterior neck and is part of a hypothalamus-pituitary-end organ system that regulates the production of thyroxine and triiodothyronine hormones. These hormones help regulate energy sources, protein synthesis, and the body’s sensitivity to other hormones. Hypothyroidism can be primary or secondary, while thyrotoxicosis is mostly primary. Autoimmunity is the leading cause of thyroid problems in the developed world.

      Thyroid disorders can present in various ways, with symptoms often being the opposite depending on whether the thyroid gland is under or overactive. For example, hypothyroidism may result in weight gain, while thyrotoxicosis leads to weight loss. Thyroid function tests are the primary investigation for diagnosing thyroid disorders. These tests primarily look at serum TSH and T4 levels, with T3 being measured in specific cases. TSH levels are more sensitive than T4 levels for monitoring patients with existing thyroid problems.

      Treatment for thyroid disorders depends on the cause. Patients with hypothyroidism are given levothyroxine to replace the underlying deficiency. Patients with thyrotoxicosis may be treated with propranolol to control symptoms such as tremors, carbimazole to reduce thyroid hormone production, or radioiodine treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 100 - A 32-year-old male is referred to the endocrine clinic due to a change...

    Incorrect

    • A 32-year-old male is referred to the endocrine clinic due to a change in his shoe size and numbness in his hand. He reports increased sweating and oily skin. The endocrinologist suspects pituitary gland pathology and orders an MRI. What is the most abundant secretory cell type in the anterior pituitary gland?

      Your Answer:

      Correct Answer: Somatotrophs

      Explanation:

      Understanding Growth Hormone and Its Functions

      Growth hormone (GH) is a hormone produced by the somatotroph cells in the anterior pituitary gland. It plays a crucial role in postnatal growth and development, as well as in regulating protein, lipid, and carbohydrate metabolism. GH acts on a transmembrane receptor for growth factor, leading to receptor dimerization and direct or indirect effects on tissues via insulin-like growth factor 1 (IGF-1), which is primarily secreted by the liver.

      GH secretion is regulated by various factors, including growth hormone releasing hormone (GHRH), fasting, exercise, and sleep. Conversely, glucose and somatostatin can decrease GH secretion. Disorders associated with GH include acromegaly, which results from excess GH, and GH deficiency, which can lead to short stature.

      In summary, GH is a vital hormone that plays a significant role in growth and metabolism. Understanding its functions and regulation can help in the diagnosis and treatment of GH-related disorders.

    • This question is part of the following fields:

      • Endocrine System
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