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Question 1
Incorrect
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A 70-year-old male was admitted to the hospital due to delirium observed in the nursing home. Upon diagnosis, he was found to have a lower respiratory tract infection which progressed to sepsis. During his stay in the ICU, he was discovered to have severe hyponatremia. The medical team has prescribed tolvaptan along with other medications.
What is the mechanism of action of tolvaptan?Your Answer: Vasopressin V1 receptor agonist
Correct Answer: Vasopressin V2 receptor antagonist
Explanation:Tolvaptan is a drug that blocks the action of vasopressin at the V2 receptor, which reduces water absorption and increases aquaresis without sodium loss. Vasopressin is a hormone that regulates water balance in the body.
Autosomal dominant polycystic kidney disease (ADPKD) is a commonly inherited kidney disease that affects 1 in 1,000 Caucasians. The disease is caused by mutations in two genes, PKD1 and PKD2, which produce polycystin-1 and polycystin-2 respectively. ADPKD type 1 accounts for 85% of cases, while ADPKD type 2 accounts for 15% of cases. ADPKD type 1 is caused by a mutation in the PKD1 gene on chromosome 16, while ADPKD type 2 is caused by a mutation in the PKD2 gene on chromosome 4. ADPKD type 1 tends to present with renal failure earlier than ADPKD type 2.
To screen for ADPKD in relatives of affected individuals, an abdominal ultrasound is recommended. The diagnostic criteria for ultrasound include the presence of two cysts, either unilateral or bilateral, if the individual is under 30 years old. If the individual is between 30-59 years old, two cysts in both kidneys are required for diagnosis. If the individual is over 60 years old, four cysts in both kidneys are necessary for diagnosis.
For some patients with ADPKD, tolvaptan, a vasopressin receptor 2 antagonist, may be an option to slow the progression of cyst development and renal insufficiency. However, NICE recommends tolvaptan only for adults with ADPKD who have chronic kidney disease stage 2 or 3 at the start of treatment, evidence of rapidly progressing disease, and if the company provides it with the agreed discount in the patient access scheme.
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This question is part of the following fields:
- Renal System
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Question 2
Incorrect
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A fourth year medical student presents to their GP with haemoptysis following a recent mild flu-like illness. Upon urinalysis, microscopic haematuria is detected. The GP suspects Goodpasture's syndrome and refers the student to the acute medical unit at the nearby hospital. What type of hypersensitivity reaction is Goodpasture's syndrome an example of?
Your Answer: Type 5
Correct Answer: Type 2
Explanation:The Gell and Coombs classification of hypersensitivity reactions categorizes reactions into four types. Type 2 reactions involve the binding of IgG and IgM to a cell, resulting in cell death. Examples of type 2 reactions include Goodpasture syndrome, haemolytic disease of the newborn, and rheumatic fever.
Allergic rhinitis is an instance of a type 1 (immediate) reaction, which is IgE mediated. It is a hypersensitivity to a previously harmless substance.
Type 3 reactions are mediated by immune complexes, with rheumatoid arthritis being an example of a type 3 hypersensitivity reaction.
Type 4 (delayed) reactions are mediated by T lymphocytes and cause contact dermatitis.
Anti-glomerular basement membrane (GBM) disease, previously known as Goodpasture’s syndrome, is a rare form of small-vessel vasculitis that is characterized by both pulmonary haemorrhage and rapidly progressive glomerulonephritis. This condition is caused by anti-GBM antibodies against type IV collagen and is more common in men, with a bimodal age distribution. Goodpasture’s syndrome is associated with HLA DR2.
The features of this disease include pulmonary haemorrhage and rapidly progressive glomerulonephritis, which can lead to acute kidney injury. Nephritis can result in proteinuria and haematuria. Renal biopsy typically shows linear IgG deposits along the basement membrane, while transfer factor is raised secondary to pulmonary haemorrhages.
Management of anti-GBM disease involves plasma exchange (plasmapheresis), steroids, and cyclophosphamide. One of the main complications of this condition is pulmonary haemorrhage, which can be exacerbated by factors such as smoking, lower respiratory tract infection, pulmonary oedema, inhalation of hydrocarbons, and young males.
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This question is part of the following fields:
- Renal System
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Question 3
Incorrect
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Which one of the following structures is not located behind the left kidney?
Your Answer: 12th rib
Correct Answer: 10th rib
Explanation:Renal Anatomy: Understanding the Structure and Relations of the Kidneys
The kidneys are two bean-shaped organs located in a deep gutter alongside the vertebral bodies. They measure about 11cm long, 5cm wide, and 3 cm thick, with the left kidney usually positioned slightly higher than the right. The upper pole of both kidneys approximates with the 11th rib, while the lower border is usually alongside L3. The kidneys are surrounded by an outer cortex and an inner medulla, which contains pyramidal structures that terminate at the renal pelvis into the ureter. The renal sinus lies within the kidney and contains branches of the renal artery, tributaries of the renal vein, major and minor calyces, and fat.
The anatomical relations of the kidneys vary depending on the side. The right kidney is in direct contact with the quadratus lumborum, diaphragm, psoas major, and transversus abdominis, while the left kidney is in direct contact with the quadratus lumborum, diaphragm, psoas major, transversus abdominis, stomach, pancreas, spleen, and distal part of the small intestine. Each kidney and suprarenal gland is enclosed within a common layer of investing fascia, derived from the transversalis fascia, which is divided into anterior and posterior layers (Gerotas fascia).
At the renal hilum, the renal vein lies most anteriorly, followed by the renal artery (an end artery), and the ureter lies most posteriorly. Understanding the structure and relations of the kidneys is crucial in diagnosing and treating renal diseases and disorders.
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This question is part of the following fields:
- Renal System
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Question 4
Correct
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A 15-year-old teenage boy comes to see his General Practitioner with swelling in his left scrotum. He reports no pain or other symptoms. During examination in a supine position, the GP notes that the left testicle is smaller than the right and there are no abnormal masses on either side. The GP diagnoses the patient with a varicocele, which is caused by increased hydrostatic pressure in the venous plexus of the left scrotum. The question is, where does the left testicular (gonadal) vein drain into?
Your Answer: Left renal vein
Explanation:The left renal vein receives drainage from the left testicular vein, while the common iliac and internal iliac veins do not receive any blood from the testicles. The internal iliac veins collect blood from the pelvic internal organs and join the external iliac vein, which drains blood from the legs, to form the common iliac vein. On the other hand, the right testicular vein directly drains into the inferior vena cava since it is situated to the right of the midline. The great saphenous veins, which are located superficially, collect blood from the toes.
Scrotal Problems: Epididymal Cysts, Hydrocele, and Varicocele
Epididymal cysts are the most frequent cause of scrotal swellings seen in primary care. They are usually found posterior to the testicle and separate from the body of the testicle. Epididymal cysts may be associated with polycystic kidney disease, cystic fibrosis, or von Hippel-Lindau syndrome. Diagnosis is usually confirmed by ultrasound, and management is typically supportive. However, surgical removal or sclerotherapy may be attempted for larger or symptomatic cysts.
Hydrocele refers to the accumulation of fluid within the tunica vaginalis. They can be communicating or non-communicating. Communicating hydroceles are common in newborn males and usually resolve within the first few months of life. Non-communicating hydroceles are caused by excessive fluid production within the tunica vaginalis. Hydroceles may develop secondary to epididymo-orchitis, testicular torsion, or testicular tumors. Diagnosis may be clinical, but ultrasound is required if there is any doubt about the diagnosis or if the underlying testis cannot be palpated. Management depends on the severity of the presentation, and further investigation, such as ultrasound, is usually warranted to exclude any underlying cause such as a tumor.
Varicocele is an abnormal enlargement of the testicular veins. They are usually asymptomatic but may be important as they are associated with infertility. Varicoceles are much more common on the left side and are classically described as a bag of worms. Diagnosis is made through ultrasound with Doppler studies. Management is usually conservative, but occasionally surgery is required if the patient is troubled by pain. There is ongoing debate regarding the effectiveness of surgery to treat infertility.
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This question is part of the following fields:
- Renal System
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Question 5
Incorrect
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You have been requested to evaluate a patient in the endocrinology clinic who is postmenopausal and has presented with generalized hair thinning on the scalp, changes in the tone of her voice, and troublesome acne on her back and upper chest. The patient's serum testosterone is within the normal range, but FSH and LH are elevated, consistent with her postmenopausal status. However, her serum levels of dehydroepiandrosterone (DHEA) are above the normal range, prompting a CT scan that reveals a 4 cm mass in the left adrenal gland.
Based on the blood results, which part of the adrenal gland is the tumor most likely to originate from?Your Answer: Superior adrenal artery
Correct Answer: Zona reticularis
Explanation:A tumor in the zona reticularis of the adrenal cortex is causing excessive production of dehydroepiandrosterone (DHEA), an androgen hormone that can be converted into testosterone. This can lead to hyper-androgenic effects such as hirsutism, deepening of the voice, and increased libido. The zona glomerulosa and zona fasciculata are other areas of the adrenal cortex that produce aldosterone and cortisol respectively. The adrenal medulla produces catecholamines such as adrenaline and noradrenaline. The adrenal gland is supplied by the superior, middle, and inferior adrenal arteries, which are not involved in hormone production. A useful mnemonic for remembering which section of the cortex produces which hormones is GFR – ACD.
The renin-angiotensin-aldosterone system is a complex system that regulates blood pressure and fluid balance in the body. The adrenal cortex is divided into three zones, each producing different hormones. The zona glomerulosa produces mineralocorticoids, mainly aldosterone, which helps regulate sodium and potassium levels in the body. Renin is an enzyme released by the renal juxtaglomerular cells in response to reduced renal perfusion, hyponatremia, and sympathetic nerve stimulation. It hydrolyses angiotensinogen to form angiotensin I, which is then converted to angiotensin II by angiotensin-converting enzyme in the lungs. Angiotensin II has various actions, including causing vasoconstriction, stimulating thirst, and increasing proximal tubule Na+/H+ activity. It also stimulates aldosterone and ADH release, which causes retention of Na+ in exchange for K+/H+ in the distal tubule.
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This question is part of the following fields:
- Renal System
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Question 6
Incorrect
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An 80-year-old man visits his GP for a follow up appointment after starting trimethoprim for a urinary tract infection 7 days ago. He mentions that his urinary symptoms have gone but that he has been feeling generally tired and weak for the last 4 weeks (before the urinary tract infection). He asks if this could be related to the new medication he started 5 weeks ago. Upon reviewing his medical history, you see that he was started on ramipril 5 weeks ago. He also mentions that his osteoarthritic pain has been quite bad recently, which caused him to miss his most recent medication review appointment, but he has been taking more paracetamol and ibuprofen than usual. Due to the combination of medication and his vague symptoms, you decide to perform an ECG. The ECG shows tall, tented T waves, prolonged PR interval, and bradycardia. What is the underlying cause of these ECG changes?
Your Answer: Hyperthyroidism
Correct Answer: Hyperkalaemia
Explanation:The patient is most likely suffering from hyperkalaemia, as evidenced by their medication history which includes an increase in potassium-raising drugs such as trimethoprim, ramipril, and ibuprofen. The ECG results also show classic signs of hyperkalaemia, including tall tented T waves, bradycardia, and a prolonged PR interval.
Hyperkalaemia is a condition where there is an excess of potassium in the blood. The levels of potassium in the plasma are regulated by various factors such as aldosterone, insulin levels, and acid-base balance. When there is metabolic acidosis, hyperkalaemia can occur as hydrogen and potassium ions compete with each other for exchange with sodium ions across cell membranes and in the distal tubule. The ECG changes that can be seen in hyperkalaemia include tall-tented T waves, small P waves, widened QRS leading to a sinusoidal pattern, and asystole.
There are several causes of hyperkalaemia, including acute kidney injury, drugs such as potassium sparing diuretics, ACE inhibitors, angiotensin 2 receptor blockers, spironolactone, ciclosporin, and heparin, metabolic acidosis, Addison’s disease, rhabdomyolysis, and massive blood transfusion. Foods that are high in potassium include salt substitutes, bananas, oranges, kiwi fruit, avocado, spinach, and tomatoes.
It is important to note that beta-blockers can interfere with potassium transport into cells and potentially cause hyperkalaemia in renal failure patients. In contrast, beta-agonists such as Salbutamol are sometimes used as emergency treatment. Additionally, both unfractionated and low-molecular weight heparin can cause hyperkalaemia by inhibiting aldosterone secretion.
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This question is part of the following fields:
- Renal System
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Question 7
Incorrect
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A 73-year-old man visits the urology clinic due to an elevated PSA level. Despite undergoing a biopsy, there are no indications of cancer or benign prostatic hypertrophy.
The patient has a medical history of diabetes mellitus, hypertension, scrotal varicocele, renal calculi, and acute urine retention.
Out of his existing medical conditions, which one is the probable culprit for his increased PSA level?Your Answer: Hypertension
Correct Answer: Urine retention
Explanation:Urinary retention is a common cause of a raised PSA reading, as it can lead to bladder enlargement. Other conditions such as diabetes mellitus, hypertension, and renal calculi are not direct causes of elevated PSA levels.
Understanding PSA Testing for Prostate Cancer
Prostate specific antigen (PSA) is an enzyme produced by the prostate gland that has become an important marker for prostate cancer. However, there is still much debate about its usefulness as a screening tool. The NHS Prostate Cancer Risk Management Programme (PCRMP) has published guidelines on how to handle requests for PSA testing in asymptomatic men. While a recent European trial showed a reduction in prostate cancer deaths, there is also a high risk of over-diagnosis and over-treatment. As a result, the National Screening Committee has decided not to introduce a prostate cancer screening programme yet, but rather allow men to make an informed choice.
PSA levels may be raised by various factors, including benign prostatic hyperplasia, prostatitis, ejaculation, vigorous exercise, urinary retention, and instrumentation of the urinary tract. However, PSA levels are not always a reliable indicator of prostate cancer. For example, around 20% of men with prostate cancer have a normal PSA level, while around 33% of men with a PSA level of 4-10 ng/ml will be found to have prostate cancer. To add greater meaning to a PSA level, age-adjusted upper limits and monitoring changes in PSA level over time (PSA velocity or PSA doubling time) are used. The PCRMP recommends age-adjusted upper limits for PSA levels, with a limit of 3.0 ng/ml for men aged 50-59 years, 4.0 ng/ml for men aged 60-69 years, and 5.0 ng/ml for men over 70 years old.
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This question is part of the following fields:
- Renal System
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Question 8
Correct
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A 79-year-old man is brought to the emergency department after fainting. Prior to losing consciousness, he experienced dizziness and heart palpitations. He was unconscious for less than a minute and denies any chest discomfort. Upon cardiac examination, no abnormalities are detected. An ECG is conducted and reveals indications of hyperkalaemia. What is an ECG manifestation of hyperkalaemia?
Your Answer: Tall tented T waves
Explanation:Hyperkalaemia can be identified on an ECG by tall tented T waves, small or absent P waves, and broad bizarre QRS complexes. In severe cases, the QRS complexes may form a sinusoidal wave pattern, and asystole may occur. On the other hand, hypokalaemia can be detected by ST segment depression, prominent U waves, small or inverted T waves, a prolonged PR interval (which can also be present in hyperkalaemia), and a long QT interval.
Hyperkalaemia is a condition where there is an excess of potassium in the blood. The levels of potassium in the plasma are regulated by various factors such as aldosterone, insulin levels, and acid-base balance. When there is metabolic acidosis, hyperkalaemia can occur as hydrogen and potassium ions compete with each other for exchange with sodium ions across cell membranes and in the distal tubule. The ECG changes that can be seen in hyperkalaemia include tall-tented T waves, small P waves, widened QRS leading to a sinusoidal pattern, and asystole.
There are several causes of hyperkalaemia, including acute kidney injury, drugs such as potassium sparing diuretics, ACE inhibitors, angiotensin 2 receptor blockers, spironolactone, ciclosporin, and heparin, metabolic acidosis, Addison’s disease, rhabdomyolysis, and massive blood transfusion. Foods that are high in potassium include salt substitutes, bananas, oranges, kiwi fruit, avocado, spinach, and tomatoes.
It is important to note that beta-blockers can interfere with potassium transport into cells and potentially cause hyperkalaemia in renal failure patients. In contrast, beta-agonists such as Salbutamol are sometimes used as emergency treatment. Additionally, both unfractionated and low-molecular weight heparin can cause hyperkalaemia by inhibiting aldosterone secretion.
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This question is part of the following fields:
- Renal System
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Question 9
Incorrect
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A 79-year-old woman visits her primary care physician for routine blood tests to monitor her declining kidney function. During her latest test, her serum potassium level was slightly above the normal range. The patient appeared to be in good health, and this has never been an issue before, so the physician orders a repeat blood test before taking any action. What is the most probable cause of an artificial increase in potassium levels (i.e., a serum potassium result that is higher than the actual value found in the patient)?
Your Answer:
Correct Answer: Delayed analysis of the sample
Explanation:Delayed analysis of the sample is the cause of pseudohyperkalaemia, which is a laboratory artefact. Potassium is mainly found inside cells, and if the sample is not processed promptly, potassium leaks out of the cells and into the serum, resulting in a higher reading than the actual level in the patient. This can be a significant issue in primary care. It is recommended to retrieve the FBC sample before the U&E sample to avoid exposing the latter to the potassium-based anticoagulant in FBC bottles, which can cause an artifactual result. Sunlight exposure is not a known cause of artifactual results. If a patient vomits or has diarrhoea after the sample is retrieved, the sample still reflects the serum potassium level at the time of retrieval and is not artefactual. Additionally, diarrhoea and vomiting can cause a decrease in potassium, not an increase as stated in the question.
Understanding Pseudohyperkalaemia
Pseudohyperkalaemia is a condition where there is an apparent increase in serum potassium levels due to the excessive leakage of potassium from cells during or after blood is drawn. This is a laboratory artefact and does not reflect the actual serum potassium concentration. Since most of the potassium is intracellular, any leakage from cells can significantly affect serum levels. The release of potassium occurs when large numbers of platelets aggregate and degranulate.
There are several causes of pseudohyperkalaemia, including haemolysis during venipuncture, delay in processing the blood specimen, abnormally high numbers of platelets, leukocytes, or erythrocytes, and familial causes. To obtain an accurate result, measuring an arterial blood gas is recommended. For obtaining a lab sample, using a lithium heparin tube, requesting a slow spin on the lab centrifuge, and walking the sample to the lab should ensure an accurate result. Understanding pseudohyperkalaemia is important to avoid misdiagnosis and unnecessary treatment.
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This question is part of the following fields:
- Renal System
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Question 10
Incorrect
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A 67-year-old retired farmer presents to the emergency department with complaints of abdominal pain and inability to urinate for the past 24 hours. He reports a history of slow urine flow and difficulty emptying his bladder for the past few years. The patient has a medical history of type 2 diabetes mellitus, hypertension, and lower back pain, and underwent surgery for an inguinal hernia 2 years ago. Ultrasound reveals a distended bladder and hydronephrosis, and the patient undergoes urethral catheterization. Further investigation shows an enlarged prostate and an increase in free prostate-specific antigen (PSA), and a prostate biopsy is scheduled. Which part of the prostate is most likely causing bladder obstruction in this patient?
Your Answer:
Correct Answer: Lateral and middle lobe lobe
Explanation:A man presented with symptoms of acute urinary retention and a history of poor urine flow and straining to void, suggesting bladder outlet obstruction possibly due to an enlarged prostate. While prostatic adenocarcinoma is common in men over 50, it is unlikely to cause urinary symptoms. However, patients should still be screened for it to allow for early intervention if necessary. The man’s increased levels of free PSA indicate BPH rather than prostatic adenocarcinoma, as the latter would result in decreased free PSA and increased bound-PSA levels.
The lateral and middle lobes of the prostate are closest to the urethra and their hyperplasia can compress it, leading to urinary and voiding symptoms. If the urethra is completely compressed, acute urinary retention and bladder outlet obstruction can occur. The anterior lobe is rarely enlarged in BPH and is not positioned to obstruct the urethra, while the posterior lobe is mostly involved in prostatic adenocarcinoma but does not typically cause urinary symptoms due to its distance from the urethra.
Benign prostatic hyperplasia (BPH) is a common condition that affects older men, with around 50% of 50-year-old men showing evidence of BPH and 30% experiencing symptoms. The risk of BPH increases with age, with around 80% of 80-year-old men having evidence of the condition. Ethnicity also plays a role, with black men having a higher risk than white or Asian men. BPH typically presents with lower urinary tract symptoms (LUTS), which can be categorised into obstructive (voiding) symptoms and irritative (storage) symptoms. Complications of BPH can include urinary tract infections, retention, and obstructive uropathy.
Assessment of BPH may involve dipstick urine testing, U&Es, and PSA testing if obstructive symptoms are present or if the patient is concerned about prostate cancer. A urinary frequency-volume chart and the International Prostate Symptom Score (IPSS) can also be used to assess the severity of LUTS and their impact on quality of life. Management options for BPH include watchful waiting, alpha-1 antagonists, 5 alpha-reductase inhibitors, combination therapy, and surgery. Alpha-1 antagonists are considered first-line for moderate-to-severe voiding symptoms and can improve symptoms in around 70% of men, but may cause adverse effects such as dizziness and dry mouth. 5 alpha-reductase inhibitors may slow disease progression and reduce prostate volume, but can cause adverse effects such as erectile dysfunction and reduced libido. Combination therapy may be used for bothersome moderate-to-severe voiding symptoms and prostatic enlargement. Antimuscarinic drugs may be tried for persistent storage symptoms. Surgery, such as transurethral resection of the prostate (TURP), may also be an option.
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This question is part of the following fields:
- Renal System
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Question 11
Incorrect
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A 33-year-old individual presents to the emergency department in an intoxicated state after a night of drinking. Although there are no immediate medical concerns, the patient is visibly under the influence of alcohol, exhibiting unsteady gait, reduced social inhibition, and mild slurring of speech. Additionally, the patient is observed to be urinating frequently.
What is the probable mechanism behind the increased frequency of urination in this patient?Your Answer:
Correct Answer: Suppression of antidiuretic hormone (ADH) release from the posterior pituitary gland
Explanation:Polyuria, or excessive urination, can be caused by a variety of factors. A recent review in the BMJ categorizes these causes by their frequency of occurrence. The most common causes of polyuria include the use of diuretics, caffeine, and alcohol, as well as diabetes mellitus, lithium, and heart failure. Less common causes include hypercalcaemia and hyperthyroidism, while rare causes include chronic renal failure, primary polydipsia, and hypokalaemia. The least common cause of polyuria is diabetes insipidus, which occurs in less than 1 in 10,000 cases. It is important to note that while these frequencies may not align with exam questions, understanding the potential causes of polyuria can aid in diagnosis and treatment.
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This question is part of the following fields:
- Renal System
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Question 12
Incorrect
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A 35-year-old male presents with gynaecomastia. Upon examination, a nodule is detected in his right testis. What is the probable diagnosis?
Your Answer:
Correct Answer: Leydig cell tumour
Explanation:Overview of Testicular Disorders
Testicular disorders can range from benign conditions to malignant tumors. Testicular cancer is the most common malignancy in men aged 20-30 years, with germ-cell tumors accounting for 95% of cases. Seminomas are the most common subtype, while non-seminomatous germ cell tumors include teratoma, yolk sac tumor, choriocarcinoma, and mixed germ cell tumors. Risk factors for testicular cancer include cryptorchidism, infertility, family history, Klinefelter’s syndrome, and mumps orchitis. The most common presenting symptom is a painless lump, but pain, hydrocele, and gynecomastia may also be present.
Benign testicular disorders include epididymo-orchitis, which is an acute inflammation of the epididymis often caused by bacterial infection. Testicular torsion, which results in testicular ischemia and necrosis, is most common in males aged between 10 and 30. Hydrocele presents as a mass that transilluminates and may occur as a result of a patent processus vaginalis in children. Treatment for these conditions varies, with orchidectomy being the primary treatment for testicular cancer. Surgical exploration is necessary for testicular torsion, while epididymo-orchitis and hydrocele may require medication or surgical procedures depending on the severity of the condition.
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This question is part of the following fields:
- Renal System
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Question 13
Incorrect
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You assess a 40-year-old woman who underwent a renal transplant 10 months ago for focal segmental glomerulosclerosis. She is currently taking a combination of tacrolimus, mycophenolate, and prednisolone. She complains of feeling unwell for the past five days with fatigue, jaundice, and joint pain. Upon examination, you note hepatomegaly, widespread lymphadenopathy, and jaundice. What is the probable diagnosis?
Your Answer:
Correct Answer: Epstein-Barr virus
Explanation:Complications that may arise after a transplant include CMV and EBV. CMV usually presents within the first 4 weeks to 6 months post transplant, while EBV can lead to post transplant lymphoproliferative disease, which typically occurs more than 6 months after the transplant. This disorder is often linked to high doses of immunosuppressant medication.
The HLA system, also known as the major histocompatibility complex (MHC), is located on chromosome 6 and is responsible for human leucocyte antigens. Class 1 antigens include A, B, and C, while class 2 antigens include DP, DQ, and DR. When matching for a renal transplant, the importance of HLA antigens is ranked as DR > B > A.
Graft survival rates for renal transplants are high, with a 90% survival rate at one year and a 60% survival rate at ten years for cadaveric transplants. Living-donor transplants have even higher survival rates, with a 95% survival rate at one year and a 70% survival rate at ten years. However, postoperative problems can occur, such as acute tubular necrosis of the graft, vascular thrombosis, urine leakage, and urinary tract infections.
Hyperacute rejection can occur within minutes to hours after a transplant and is caused by pre-existing antibodies against ABO or HLA antigens. This type of rejection is an example of a type II hypersensitivity reaction and leads to widespread thrombosis of graft vessels, resulting in ischemia and necrosis of the transplanted organ. Unfortunately, there is no treatment available for hyperacute rejection, and the graft must be removed.
Acute graft failure, which occurs within six months of a transplant, is usually due to mismatched HLA and is caused by cell-mediated cytotoxic T cells. This type of failure is usually asymptomatic and is detected by a rising creatinine, pyuria, and proteinuria. Other causes of acute graft failure include cytomegalovirus infection, but it may be reversible with steroids and immunosuppressants.
Chronic graft failure, which occurs after six months of a transplant, is caused by both antibody and cell-mediated mechanisms that lead to fibrosis of the transplanted kidney, known as chronic allograft nephropathy. The recurrence of the original renal disease, such as MCGN, IgA, or FSGS, can also cause chronic graft failure.
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This question is part of the following fields:
- Renal System
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Question 14
Incorrect
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A 20-year-old patient visits their GP complaining of non-specific malaise. The patient has a medical history of recurrent haematuria during childhood with infections and fever, as well as bilateral mild sensorineural hearing loss. Due to frequent moves between countries, the patient has never had continuous medical care. Further investigations reveal proteinuria and haematuria, leading to a referral to secondary care and a subsequent renal biopsy. The biopsy results show splitting of the lamina densa on electron microscopy.
What is the most common mode of inheritance for this likely diagnosis?Your Answer:
Correct Answer: X-linked dominant
Explanation:Alport’s syndrome is a genetic disorder that is typically inherited in an X-linked dominant pattern. It is caused by a defect in the gene responsible for producing type IV collagen, which leads to an abnormal glomerular-basement membrane (GBM). The disease is more severe in males, with females rarely developing renal failure. Symptoms usually present in childhood and may include microscopic haematuria, progressive renal failure, bilateral sensorineural deafness, lenticonus, retinitis pigmentosa, and splitting of the lamina densa seen on electron microscopy. In some cases, an Alport’s patient with a failing renal transplant may have anti-GBM antibodies, leading to a Goodpasture’s syndrome-like picture. Diagnosis can be made through molecular genetic testing, renal biopsy, or electron microscopy. In around 85% of cases, the syndrome is inherited in an X-linked dominant pattern, while 10-15% of cases are inherited in an autosomal recessive fashion, with rare autosomal dominant variants existing.
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This question is part of the following fields:
- Renal System
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Question 15
Incorrect
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A 28-year-old man is on day 9 of his cycle from Land's End to John O'Groats. He made a wrong turn and ran out of fluids. After getting back on track, he found a shop and purchased a 2L bottle of water.
Which part of the nephron is responsible for reabsorbing the majority of this water?Your Answer:
Correct Answer: Proximal tubule
Explanation:The correct answer is the proximal tubule. This is where the majority of filtered water is reabsorbed, due to the osmotic force generated by Na+ reabsorption. Bowman’s capsule only allows for ultrafiltration, while the collecting duct allows for variable water reabsorption, but not to the same extent as the proximal tubule. The distal tubule also plays a role in Na+ reabsorption, but water reabsorption is dependent on this mechanism.
The Loop of Henle and its Role in Renal Physiology
The Loop of Henle is a crucial component of the renal system, located in the juxtamedullary nephrons and running deep into the medulla. Approximately 60 litres of water containing 9000 mmol sodium enters the descending limb of the loop of Henle in 24 hours. The osmolarity of fluid changes and is greatest at the tip of the papilla. The thin ascending limb is impermeable to water, but highly permeable to sodium and chloride ions. This loss means that at the beginning of the thick ascending limb the fluid is hypo osmotic compared with adjacent interstitial fluid. In the thick ascending limb, the reabsorption of sodium and chloride ions occurs by both facilitated and passive diffusion pathways. The loops of Henle are co-located with vasa recta, which have similar solute compositions to the surrounding extracellular fluid, preventing the diffusion and subsequent removal of this hypertonic fluid. The energy-dependent reabsorption of sodium and chloride in the thick ascending limb helps to maintain this osmotic gradient. Overall, the Loop of Henle plays a crucial role in regulating the concentration of solutes in the renal system.
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This question is part of the following fields:
- Renal System
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Question 16
Incorrect
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A 28-year-old woman with autosomal dominant polycystic kidney disease type 1 is seeking guidance from her general practitioner regarding family planning. She recently lost her father to a subarachnoid haemorrhage, which prompted her to undergo genetic testing to confirm her diagnosis. Despite her desire to start a family with her husband, she is worried about the possibility of passing on the renal disease to her children. On which chromosome is the genetic defect for this condition most commonly found?
Your Answer:
Correct Answer: Chromosome 16
Explanation:The patient’s autosomal dominant polycystic kidney disease type 1 is not caused by a gene on chromosomes 13, 18, or 21. It is important to note that nondisjunction of these chromosomes can lead to other genetic disorders such as Patau syndrome, Edward’s syndrome, and Down’s syndrome. The chance of the patient passing on the autosomal dominant polycystic kidney disease type 1 to her children would depend on the inheritance pattern of the specific gene mutation causing the disease.
Autosomal dominant polycystic kidney disease (ADPKD) is a commonly inherited kidney disease that affects 1 in 1,000 Caucasians. The disease is caused by mutations in two genes, PKD1 and PKD2, which produce polycystin-1 and polycystin-2 respectively. ADPKD type 1 accounts for 85% of cases, while ADPKD type 2 accounts for 15% of cases. ADPKD type 1 is caused by a mutation in the PKD1 gene on chromosome 16, while ADPKD type 2 is caused by a mutation in the PKD2 gene on chromosome 4. ADPKD type 1 tends to present with renal failure earlier than ADPKD type 2.
To screen for ADPKD in relatives of affected individuals, an abdominal ultrasound is recommended. The diagnostic criteria for ultrasound include the presence of two cysts, either unilateral or bilateral, if the individual is under 30 years old. If the individual is between 30-59 years old, two cysts in both kidneys are required for diagnosis. If the individual is over 60 years old, four cysts in both kidneys are necessary for diagnosis.
For some patients with ADPKD, tolvaptan, a vasopressin receptor 2 antagonist, may be an option to slow the progression of cyst development and renal insufficiency. However, NICE recommends tolvaptan only for adults with ADPKD who have chronic kidney disease stage 2 or 3 at the start of treatment, evidence of rapidly progressing disease, and if the company provides it with the agreed discount in the patient access scheme.
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This question is part of the following fields:
- Renal System
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Question 17
Incorrect
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A 56-year-old man with end stage diabetic nephropathy is undergoing evaluation for a renal transplant. In terms of HLA matching between donor and recipient, which HLA antigen is the most crucial to match?
Your Answer:
Correct Answer: DR
Explanation:The HLA system, also known as the major histocompatibility complex (MHC), is located on chromosome 6 and is responsible for human leucocyte antigens. Class 1 antigens include A, B, and C, while class 2 antigens include DP, DQ, and DR. When matching for a renal transplant, the importance of HLA antigens is ranked as DR > B > A.
Graft survival rates for renal transplants are high, with a 90% survival rate at one year and a 60% survival rate at ten years for cadaveric transplants. Living-donor transplants have even higher survival rates, with a 95% survival rate at one year and a 70% survival rate at ten years. However, postoperative problems can occur, such as acute tubular necrosis of the graft, vascular thrombosis, urine leakage, and urinary tract infections.
Hyperacute rejection can occur within minutes to hours after a transplant and is caused by pre-existing antibodies against ABO or HLA antigens. This type of rejection is an example of a type II hypersensitivity reaction and leads to widespread thrombosis of graft vessels, resulting in ischemia and necrosis of the transplanted organ. Unfortunately, there is no treatment available for hyperacute rejection, and the graft must be removed.
Acute graft failure, which occurs within six months of a transplant, is usually due to mismatched HLA and is caused by cell-mediated cytotoxic T cells. This type of failure is usually asymptomatic and is detected by a rising creatinine, pyuria, and proteinuria. Other causes of acute graft failure include cytomegalovirus infection, but it may be reversible with steroids and immunosuppressants.
Chronic graft failure, which occurs after six months of a transplant, is caused by both antibody and cell-mediated mechanisms that lead to fibrosis of the transplanted kidney, known as chronic allograft nephropathy. The recurrence of the original renal disease, such as MCGN, IgA, or FSGS, can also cause chronic graft failure.
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This question is part of the following fields:
- Renal System
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Question 18
Incorrect
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You are working in a GP clinic. A 32-year-old woman has multiple sclerosis. After taking a history and examining her, you diagnose her with chronic urinary retention.
What nerves are most likely affected by demyelination in this case?Your Answer:
Correct Answer: Pelvic splanchnic
Explanation:The pelvic splanchnic nerves provide parasympathetic innervation to the bladder. In cases of chronic urinary retention, damage to these nerves may be the cause. The greater splanchnic nerves supply the foregut of the gastrointestinal tract, while the lesser splanchnic nerves supply the midgut. Sympathetic innervation of the bladder comes from the hypogastric nerve plexuses, and the lumbar splanchnic nerves innervate the smooth muscles and glands of the pelvis.
Bladder Anatomy and Innervation
The bladder is a three-sided pyramid-shaped organ located in the pelvic cavity. Its apex points towards the symphysis pubis, while the base lies anterior to the rectum or vagina. The bladder’s inferior aspect is retroperitoneal, while the superior aspect is covered by peritoneum. The trigone, the least mobile part of the bladder, contains the ureteric orifices and internal urethral orifice. The bladder’s blood supply comes from the superior and inferior vesical arteries, while venous drainage occurs through the vesicoprostatic or vesicouterine venous plexus. Lymphatic drainage occurs mainly to the external iliac and internal iliac nodes, with the obturator nodes also playing a role. The bladder is innervated by parasympathetic nerve fibers from the pelvic splanchnic nerves and sympathetic nerve fibers from L1 and L2 via the hypogastric nerve plexuses. The parasympathetic fibers cause detrusor muscle contraction, while the sympathetic fibers innervate the trigone muscle. The external urethral sphincter is under conscious control, and voiding occurs when the rate of neuronal firing to the detrusor muscle increases.
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This question is part of the following fields:
- Renal System
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Question 19
Incorrect
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A 38-year-old man arrives at the emergency department with sudden-onset acute left flank pain that started an hour ago. He describes the pain as colicky and radiating down to his groin. The man is also experiencing nausea and vomiting and appears restless. He has no significant medical or surgical history and has never been hospitalized before. His body mass index is 31 kg per m2. Upon examination, his heart rate is 94 beats per minute, respiratory rate is 19 breaths per minute, and blood pressure is 136/79 mmHg. Radiographic studies confirm the presence of stones in the left ureter. What is a characteristic of the most common type of kidney stones?
Your Answer:
Correct Answer: Envelope-shaped crystals
Explanation:The patient displayed symptoms consistent with urolithiasis, specifically ureterolithiasis, as imaging revealed the presence of stones in the left ureter. Kidney stones are commonly composed of calcium oxalate, but can also consist of calcium phosphate, ammonium magnesium phosphate, uric acid, or cystine, depending on urine pH and other factors.
Uric acid stones are characterized by diamond or rhomboid-shaped crystals and are often found in individuals with hyperuricemia. Calcium oxalate stones, which have envelope-shaped crystals, are the most common type and are associated with low water intake and dehydration. Cystine stones, with hexagonal-shaped crystals, are prevalent in patients with the genetic condition COLA, which impairs the reabsorption of certain amino acids in the proximal convoluted tubule. Ammonium magnesium phosphate stones, also known as struvites, have coffin-lid shaped crystals and are common in individuals with urinary tract infections caused by urease-producing organisms, such as Klebsiella, Staphylococcus saprophyticus, and Proteus mirabilis. Preventive strategies should be a focus of future management for patients diagnosed with kidney stones.
Renal stones can be classified into different types based on their composition. Calcium oxalate stones are the most common, accounting for 85% of all calculi. These stones are formed due to hypercalciuria, hyperoxaluria, and hypocitraturia. They are radio-opaque and may also bind with uric acid stones. Cystine stones are rare and occur due to an inherited recessive disorder of transmembrane cystine transport. Uric acid stones are formed due to purine metabolism and may precipitate when urinary pH is low. Calcium phosphate stones are associated with renal tubular acidosis and high urinary pH. Struvite stones are formed from magnesium, ammonium, and phosphate and are associated with chronic infections. The pH of urine can help determine the type of stone present, with calcium phosphate stones forming in normal to alkaline urine, uric acid stones forming in acidic urine, and struvate stones forming in alkaline urine. Cystine stones form in normal urine pH.
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This question is part of the following fields:
- Renal System
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Question 20
Incorrect
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A 50-year-old woman presents to her GP with a complaint of generalised puffiness. She has been feeling lethargic and noticed swelling in her hands, feet, and face over the past few weeks. Additionally, she has been experiencing shortness of breath on exertion and cannot lie flat, frequently waking up at night gasping for air. She also reports tingling and loss of sensation in both feet, which has now extended to her knees. She has no regular medications and is otherwise healthy.
Upon examination, the patient has decreased sensation over the distal lower limbs and hepatomegaly. Urine dipstick reveals protein +++ and urinalysis reveals hyperalbuminuria. Serology shows hypoalbuminaemia and hyperlipidaemia. An outpatient echocardiogram reveals both systolic and diagnostic heart failure, with a restrictive filling pattern. The Mantoux skin test was negative.
What is the probable mechanism behind this patient's condition?Your Answer:
Correct Answer: Deposition of light chain fragments
Explanation:The deposition of light chain fragments in various tissues is the most common cause of amyloidosis (AL), which can present with symptoms such as nephrotic syndrome, heart failure, and peripheral neuropathy.
Symptoms in the upper respiratory tract and kidneys are typically seen in granulomatosis with polyangiitis (GPA), which is caused by anti-neutrophil cytoplasmic antibody-induced inflammation. Therefore, this answer is not applicable.
Tuberculosis is caused by Mycobacterium, but the absence of pulmonary features and negative Mantoux skin test make it unlikely in this case. Therefore, this answer is not applicable.
Amyloidosis is a condition that can occur in different forms. The most common type is AL amyloidosis, which is caused by the accumulation of immunoglobulin light chain fragments. This can be due to underlying conditions such as myeloma, Waldenstrom’s, or MGUS. Symptoms of AL amyloidosis can include nephrotic syndrome, cardiac and neurological issues, macroglossia, and periorbital eccymoses.
Another type of amyloidosis is AA amyloid, which is caused by the buildup of serum amyloid A protein, an acute phase reactant. This form of amyloidosis is often seen in patients with chronic infections or inflammation, such as TB, bronchiectasis, or rheumatoid arthritis. The most common symptom of AA amyloidosis is renal involvement.
Beta-2 microglobulin amyloidosis is another form of the condition, which is caused by the accumulation of beta-2 microglobulin, a protein found in the major histocompatibility complex. This type of amyloidosis is often seen in patients who are on renal dialysis.
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This question is part of the following fields:
- Renal System
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Question 21
Incorrect
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A 30-year-old man presents to the emergency department with complaints of abdominal pain, nausea, and vomiting for a few hours. He has a history of type 1 diabetes mellitus, which is managed with insulin. He admits to running out of his insulin a few days ago. On examination, his temperature is 37.8ºC, pulse is 120/min, respirations are 25/min, and blood pressure is 100/70 mmHg. Dry mucous membranes are noted, and he has a fruity odour on his breath.
The following laboratory results are obtained:
Hb 142 g/L Male: (135-180)
Female: (115 - 160)
Platelets 250 * 109/L (150 - 400)
WBC 11.2 * 109/L (4.0 - 11.0)
Na+ 138 mmol/L (135 - 145)
K+ 5.2 mmol/L (3.5 - 5.0)
Urea 2.8 mmol/L (2.0 - 7.0)
Creatinine 110 µmol/L (55 - 120)
Glucose 28 mmol/L (4 - 7)
Which of the following laboratory findings is most likely to be seen in this patient?Your Answer:
Correct Answer: PH 7.1; pCO2 2.3 kPa; Anion Gap 21
Explanation:The patient is experiencing diabetic ketoacidosis, which results in a raised anion gap metabolic acidosis. To determine the correct answer, we must eliminate options with a normal or raised pH (7.4 and 7.5), as well as those with respiratory acidosis (as the patient has an increased respiratory rate and should have a low pCO2). The anion gap is also a crucial factor, with a normal range of 3 to 16. Therefore, the correct option is the one with an anion gap of 21.
Understanding Metabolic Acidosis
Metabolic acidosis is a condition that can be classified based on the anion gap, which is calculated by subtracting the sum of chloride and bicarbonate from the sum of sodium and potassium. The normal range for anion gap is 10-18 mmol/L. If a question provides the chloride level, it may be an indication to calculate the anion gap.
Hyperchloraemic metabolic acidosis is a type of metabolic acidosis with a normal anion gap. It can be caused by gastrointestinal bicarbonate loss, prolonged diarrhea, ureterosigmoidostomy, fistula, renal tubular acidosis, drugs like acetazolamide, ammonium chloride injection, and Addison’s disease. On the other hand, raised anion gap metabolic acidosis is caused by lactate, ketones, urate, acid poisoning, and other factors.
Lactic acidosis is a type of metabolic acidosis that is caused by high lactate levels. It can be further classified into two types: lactic acidosis type A, which is caused by sepsis, shock, hypoxia, and burns, and lactic acidosis type B, which is caused by metformin. Understanding the different types and causes of metabolic acidosis is important in diagnosing and treating the condition.
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This question is part of the following fields:
- Renal System
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Question 22
Incorrect
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A 69-year-old man is admitted to the medical assessment unit with reduced urine output and nausea. He has a complex medical history, including heart failure, hypercholesterolemia, hypertension, type 1 diabetes mellitus, and hypothyroidism. Among his regular medications are bisoprolol, furosemide, simvastatin, insulin, and levothyroxine. The medical team suspects that he is currently experiencing an acute kidney injury.
Which of his usual medications should be discontinued?Your Answer:
Correct Answer: Furosemide
Explanation:In cases of AKI, it is advisable to discontinue the use of diuretics as they may aggravate renal function. Loop diuretics like Furosemide should be stopped. Additionally, drugs that have the potential to harm the kidneys, such as aminoglycoside antibiotics (e.g. gentamicin), non-steroidal anti-inflammatory drugs, angiotensin-converting enzyme inhibitors (e.g. ramipril), angiotensin II receptor antagonists (e.g. losartan), and diuretics, should also be discontinued.
Fortunately, the remaining drugs are generally safe to continue as they are not typically considered nephrotoxic. Insulin, a peptide hormone drug used in treating type 1 and type 2 diabetes mellitus, is cleared from the body through enzymatic breakdown in the liver and kidneys and is not usually harmful to the kidneys.
Acute kidney injury (AKI) is a condition where there is a reduction in renal function following an insult to the kidneys. It was previously known as acute renal failure and can result in long-term impaired kidney function or even death. AKI can be caused by prerenal, intrinsic, or postrenal factors. Patients with chronic kidney disease, other organ failure/chronic disease, a history of AKI, or who have used drugs with nephrotoxic potential are at an increased risk of developing AKI. To prevent AKI, patients at risk may be given IV fluids or have certain medications temporarily stopped.
The kidneys are responsible for maintaining fluid balance and homeostasis, so a reduced urine output or fluid overload may indicate AKI. Symptoms may not be present in early stages, but as renal failure progresses, patients may experience arrhythmias, pulmonary and peripheral edema, or features of uraemia. Blood tests such as urea and electrolytes can be used to detect AKI, and urinalysis and imaging may also be necessary.
Management of AKI is largely supportive, with careful fluid balance and medication review. Loop diuretics and low-dose dopamine are not recommended, but hyperkalaemia needs prompt treatment to avoid life-threatening arrhythmias. Renal replacement therapy may be necessary in severe cases. Patients with suspected AKI secondary to urinary obstruction require prompt review by a urologist, and specialist input from a nephrologist is required for cases where the cause is unknown or the AKI is severe.
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This question is part of the following fields:
- Renal System
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Question 23
Incorrect
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A 45-year-old patient presents to the clinic with complaints of abdominal pain. Upon routine blood tests, the following results were obtained:
Na+ 142 mmol/l
K+ 4.0 mmol/l
Chloride 104 mmol/l
Bicarbonate 19 mmol/l
Urea 7.0 mmol/l
Creatinine 112 µmol/l
What is the calculated anion gap?Your Answer:
Correct Answer: 23 mmol/L
Explanation:Understanding Anion Gap in Metabolic Acidosis
Metabolic acidosis is a condition where the body produces too much acid or loses too much bicarbonate. Anion gap is a useful tool in diagnosing metabolic acidosis. It is calculated by subtracting the sum of bicarbonate and chloride from the sum of sodium and potassium. A normal anion gap is between 8-14 mmol/L.
There are two types of metabolic acidosis: normal anion gap and raised anion gap. Normal anion gap or hyperchloraemic metabolic acidosis can be caused by gastrointestinal bicarbonate loss, renal tubular acidosis, drugs like acetazolamide, ammonium chloride injection, and Addison’s disease. On the other hand, raised anion gap metabolic acidosis can be caused by lactate due to shock or hypoxia, ketones in diabetic ketoacidosis or alcohol, urate in renal failure, acid poisoning from salicylates or methanol, and 5-oxoproline from chronic paracetamol use.
Understanding anion gap in metabolic acidosis is crucial in identifying the underlying cause of the condition. It helps healthcare professionals in providing appropriate treatment and management to patients.
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This question is part of the following fields:
- Renal System
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Question 24
Incorrect
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A 72-year-old man, with a past medical history of diabetes, hypertension and stable angina visits his family physician for a routine check-up. He is currently taking metoprolol, daily aspirin and insulin glargine. He lives alone and is able to manage his daily activities. He used to work as a teacher and his wife passed away from a stroke 5 years ago. During the examination, his heart rate is 60 beats per minute, respiratory rate is 14 breaths per minute and blood pressure is 125/80 mmHg. What is the direct effect of the metoprolol medication on this patient?
Your Answer:
Correct Answer: Decrease in renin secretion
Explanation:During the patient’s regular follow-up for diabetes and hypertension management, it was noted that both conditions increase the risk of cardiovascular complications and other related complications such as kidney and eye problems. To manage hypertension, the patient was prescribed metoprolol, a beta-blocker that reduces blood pressure by decreasing heart rate and cardiac output. Additionally, metoprolol blocks beta-1 adrenergic receptors in the juxtaglomerular apparatus of the kidneys, leading to a decrease in renin secretion. Renin is responsible for converting angiotensinogen to angiotensin I, which is further converted to angiotensin II, a hormone that increases blood pressure through vasoconstriction and sodium retention. By blocking renin secretion, metoprolol causes a decrease in blood pressure. Other antihypertensive medications work through different mechanisms, such as calcium channel blockers that dilate arterioles, ACE inhibitors that decrease angiotensin II secretion, and beta-blockers that decrease renin secretion.
The renin-angiotensin-aldosterone system is a complex system that regulates blood pressure and fluid balance in the body. The adrenal cortex is divided into three zones, each producing different hormones. The zona glomerulosa produces mineralocorticoids, mainly aldosterone, which helps regulate sodium and potassium levels in the body. Renin is an enzyme released by the renal juxtaglomerular cells in response to reduced renal perfusion, hyponatremia, and sympathetic nerve stimulation. It hydrolyses angiotensinogen to form angiotensin I, which is then converted to angiotensin II by angiotensin-converting enzyme in the lungs. Angiotensin II has various actions, including causing vasoconstriction, stimulating thirst, and increasing proximal tubule Na+/H+ activity. It also stimulates aldosterone and ADH release, which causes retention of Na+ in exchange for K+/H+ in the distal tubule.
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This question is part of the following fields:
- Renal System
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Question 25
Incorrect
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A health-conscious 45-year-old presents with an unexplained acute kidney injury (AKI) and a kidney biopsy reveals the presence of calcium oxalate crystals in the renal tubules. The patient's calcium levels are normal, oxalate levels are elevated, and vitamin D levels are within normal range. Which vitamin overdose could potentially account for this condition?
Your Answer:
Correct Answer: Vitamin C
Explanation:The deposition of calcium oxalate in the renal tubules indicates that the patient is experiencing oxalate nephropathy, which is commonly caused by an overdose of vitamin C. Therefore, the correct answer is vitamin C overdose. It should be noted that elevated calcium levels are associated with vitamin D overdose, which is not applicable in this case.
Understanding Oxalate Nephropathy
Oxalate nephropathy is a type of sudden kidney damage that occurs when calcium oxalate crystals accumulate in the renal tubules. This condition can be caused by various factors, including the ingestion of ethylene glycol or an overdose of vitamin C. When these crystals build up in the renal tubules, they can cause damage to the tubular epithelium, leading to kidney dysfunction.
To better understand oxalate nephropathy, it is important to note that the renal tubules are responsible for filtering waste products from the blood and excreting them in the urine. When calcium oxalate crystals accumulate in these tubules, they can disrupt this process and cause damage to the tubular epithelium. This can lead to a range of symptoms, including decreased urine output, swelling in the legs and feet, and fatigue.
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This question is part of the following fields:
- Renal System
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Question 26
Incorrect
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A 38-year-old female visits her doctor complaining of tingling sensations around her mouth and frequent muscle cramps. During the blood pressure check, her wrist and fingers start to cramp and flex. Despite these symptoms, she appears to be in good health.
What condition is the most probable diagnosis?Your Answer:
Correct Answer: Hypocalcaemia
Explanation:Hypocalcaemia is characterized by perioral paraesthesia, cramps, tetany, and convulsions. The female in this scenario is displaying these symptoms, along with a positive Trousseau’s sign and potentially a positive Chvostek’s sign. Hypocalcaemia is commonly caused by hyperparathyroidism, vitamin D deficiency, or phosphate infusions.
Hyperkalaemia is when there is an elevated level of potassium in the blood, which can be caused by chronic kidney disease, dehydration, and certain medications such as spironolactone. Symptoms may include muscle weakness, heart palpitations, and nausea and vomiting.
Hypermagnesaemia is rare and can cause decreased respiratory rate, muscle weakness, and decreased reflexes. It may be caused by renal failure, excessive dietary intake, or increased cell destruction.
Hypokalaemia is relatively common and can cause weakness, fatigue, and muscle cramps. It may be caused by diuretic use, low dietary intake, or vomiting.
Hyponatraemia may also cause cramps, but typically presents with nausea and vomiting, fatigue, confusion, and in severe cases, seizures or coma. Causes may include syndrome of inappropriate ADH release (SIADH), excessive fluid intake, and certain medications such as diuretics, SSRIs, and antipsychotics.
Hypocalcaemia: Symptoms and Signs
Hypocalcaemia is a condition characterized by low levels of calcium in the blood. As calcium is essential for proper muscle and nerve function, many of the symptoms and signs of hypocalcaemia are related to neuromuscular excitability. The most common features of hypocalcaemia include muscle twitching, cramping, and spasms, as well as perioral paraesthesia. In chronic cases, patients may experience depression and cataracts. An electrocardiogram (ECG) may show a prolonged QT interval.
Two specific signs that are commonly used to diagnose hypocalcaemia are Trousseau’s sign and Chvostek’s sign. Trousseau’s sign is observed when the brachial artery is occluded by inflating the blood pressure cuff and maintaining pressure above systolic. This causes wrist flexion and fingers to be drawn together, which is seen in around 95% of patients with hypocalcaemia and around 1% of normocalcaemic people. Chvostek’s sign is observed when tapping over the parotid gland causes facial muscles to twitch. This sign is seen in around 70% of patients with hypocalcaemia and around 10% of normocalcaemic people. Overall, hypocalcaemia can cause a range of symptoms and signs that are related to neuromuscular excitability, and specific diagnostic signs can be used to confirm the diagnosis.
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This question is part of the following fields:
- Renal System
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Question 27
Incorrect
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What electrolyte imbalance is probable in a patient experiencing diarrhea and a palpable soft mass during digital rectal examination?
Your Answer:
Correct Answer: Hypokalaemia
Explanation:Rectal secretions from large villous adenomas of the rectum can cause hypokalaemia due to their high potassium content, which is a result of the marked secretory activity of the adenomas.
Understanding Hypokalaemia and its Causes
Hypokalaemia is a condition characterized by low levels of potassium in the blood. Potassium and hydrogen ions are competitors, and as potassium levels decrease, more hydrogen ions enter the cells. Hypokalaemia can occur with either alkalosis or acidosis. In cases of alkalosis, hypokalaemia may be caused by vomiting, thiazide and loop diuretics, Cushing’s syndrome, or Conn’s syndrome. On the other hand, hypokalaemia with acidosis may be caused by diarrhoea, renal tubular acidosis, acetazolamide, or partially treated diabetic ketoacidosis.
It is important to note that magnesium deficiency may also cause hypokalaemia. In such cases, normalizing potassium levels may be difficult until the magnesium deficiency has been corrected. Understanding the causes of hypokalaemia can help in its diagnosis and treatment.
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This question is part of the following fields:
- Renal System
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Question 28
Incorrect
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During an on-call shift, you are reviewing the blood results of a 72-year-old man. He was admitted with abdominal pain and has a working diagnosis of acute cholecystitis. He is currently on intravenous cefuroxime and metronidazole, awaiting further surgical review. His blood results are as follows:
Hb 115 g/L : (115 - 160)
Platelets 320* 109/L (150 - 400)
WBC 18.2* 109/L (4.0 - 11.0)
Na+ 136 mmol/L (135 - 145)
K+ 6.9 mmol/L (3.5 - 5.0)
Urea 14.8 mmol/L (2.0 - 7.0)
Creatinine 225 µmol/L (55 - 120)
CRP 118 mg/L (< 5)
Bilirubin 15 µmol/L (3 - 17)
ALP 410 u/L (30 - 100)
ALT 32 u/L (3 - 40)
Albumin 39 g/L (35 - 50)
You initiate treatment with intravenous calcium gluconate, salbutamol nebulisers, and furosemide. On discussion with the renal team, they recommend additional treatment with calcium resonium.
What is the mechanism of action of calcium resonium?Your Answer:
Correct Answer: It increases potassium excretion by preventing enteral absorption
Explanation:The correct answer is that calcium resonium increases potassium excretion by preventing enteral absorption. This is achieved through cation ion exchange, where the resin exchanges potassium for Ca++ in the body. The onset of action is usually 2-12 hours when taken orally and longer when administered rectally. It is important to note that calcium resonium does not act on the Na+/K+-ATPase pump, which is the mechanism of action for drugs like digoxin. Additionally, it does not shift potassium from the extracellular to the intracellular compartment, which is the mechanism of action for salbutamol nebulisers. Lastly, calcium resonium does not stabilise the cardiac membrane, which is the action of calcium gluconate.
Managing Hyperkalaemia: A Step-by-Step Guide
Hyperkalaemia is a serious condition that can lead to life-threatening arrhythmias if left untreated. To manage hyperkalaemia, it is important to address any underlying factors that may be contributing to the condition, such as acute kidney injury, and to stop any aggravating drugs, such as ACE inhibitors. Treatment can be categorised based on the severity of the hyperkalaemia, which is classified as mild, moderate, or severe based on the patient’s potassium levels.
ECG changes are also important in determining the appropriate management for hyperkalaemia. Peaked or ‘tall-tented’ T waves, loss of P waves, broad QRS complexes, and a sinusoidal wave pattern are all associated with hyperkalaemia and should be evaluated in all patients with new hyperkalaemia.
The principles of treatment modalities for hyperkalaemia include stabilising the cardiac membrane, shifting potassium from extracellular to intracellular fluid compartments, and removing potassium from the body. IV calcium gluconate is used to stabilise the myocardium, while insulin/dextrose infusion and nebulised salbutamol can be used to shift potassium from the extracellular to intracellular fluid compartments. Calcium resonium, loop diuretics, and dialysis can be used to remove potassium from the body.
In practical terms, all patients with severe hyperkalaemia or ECG changes should receive emergency treatment, including IV calcium gluconate to stabilise the myocardium and insulin/dextrose infusion to shift potassium from the extracellular to intracellular fluid compartments. Other treatments, such as nebulised salbutamol, may also be used to temporarily lower serum potassium levels. Further management may involve stopping exacerbating drugs, treating any underlying causes, and lowering total body potassium through the use of calcium resonium, loop diuretics, or dialysis.
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This question is part of the following fields:
- Renal System
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Question 29
Incorrect
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A 90-year-old man is discovered unconscious in his residence. He is transported to the hospital for further evaluation and is diagnosed with dehydration-induced hypotension. What is the most probable physiological response?
Your Answer:
Correct Answer: Renin release due to reduced perfusion of organs
Explanation:Renin is released when there is a decrease in renal perfusion.
The secretion of aldosterone would increase due to elevated levels of angiotensin II.
Angiotensin II causes vasoconstriction of the efferent arteriole to the glomerulus, which increases the pressure across the glomerulus and filtration fraction, ultimately preserving GFR.
Angiotensin II stimulates the pituitary gland to secrete more ADH, which acts on the collecting duct to increase water absorption.
The baroreceptor reflex is another mechanism that helps maintain blood pressure homeostasis, along with the renin-angiotensin-aldosterone system. When blood pressure increases, baroreceptors in the aortic arch/carotid sinus detect the stretching of the vessel, leading to inhibition of sympathetic tone and increased parasympathetic tone, which decreases blood pressure. In hypotension, the baroreceptors detect less stretching in the vessel, leading to increased sympathetic tone and decreased parasympathetic tone. In this case, increased sympathetic tone would result in an increase in heart rate.
The renin-angiotensin-aldosterone system is a complex system that regulates blood pressure and fluid balance in the body. The adrenal cortex is divided into three zones, each producing different hormones. The zona glomerulosa produces mineralocorticoids, mainly aldosterone, which helps regulate sodium and potassium levels in the body. Renin is an enzyme released by the renal juxtaglomerular cells in response to reduced renal perfusion, hyponatremia, and sympathetic nerve stimulation. It hydrolyses angiotensinogen to form angiotensin I, which is then converted to angiotensin II by angiotensin-converting enzyme in the lungs. Angiotensin II has various actions, including causing vasoconstriction, stimulating thirst, and increasing proximal tubule Na+/H+ activity. It also stimulates aldosterone and ADH release, which causes retention of Na+ in exchange for K+/H+ in the distal tubule.
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This question is part of the following fields:
- Renal System
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Question 30
Incorrect
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A 58-year-old man is having a right nephrectomy. At what level does the renal artery typically branch off from the abdominal aorta during this procedure?
Your Answer:
Correct Answer: L2
Explanation:The level with L2 is where the renal arteries typically branch off from the aorta.
Anatomy of the Renal Arteries
The renal arteries are blood vessels that supply the kidneys with oxygenated blood. They are direct branches off the aorta and enter the kidney at the hilum. The right renal artery is longer than the left renal artery. The renal vein, artery, and pelvis also enter the kidney at the hilum.
The right renal artery is related to the inferior vena cava, right renal vein, head of the pancreas, and descending part of the duodenum. On the other hand, the left renal artery is related to the left renal vein and tail of the pancreas.
In some cases, there may be accessory arteries, mainly on the left side. These arteries usually pierce the upper or lower part of the kidney instead of entering at the hilum.
Before reaching the hilum, each renal artery divides into four or five segmental branches that supply each pyramid and cortex. These segmental branches then divide within the sinus into lobar arteries. Each vessel also gives off small inferior suprarenal branches to the suprarenal gland, ureter, and surrounding tissue and muscles.
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This question is part of the following fields:
- Renal System
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