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Question 1
Incorrect
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A 65-year-old man comes in with symptoms related to his lower urinary tract and is given the option to take a PSA test. What factor could potentially affect the accuracy of his PSA level?
Your Answer: Drinking more than 4 units of alcohol in the past 48 hours
Correct Answer: Vigorous exercise in the past 48 hours
Explanation: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 2
Correct
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A 35-year-old man presents to the emergency department with confusion and lethargy. Arterial blood gas results indicate an increased anion gap metabolic acidosis. After identifying the underlying cause, appropriate treatment is initiated. Within a few hours, the patient's mental status significantly improves.
Upon repeat laboratory studies, there is an increase in serum bicarbonate and sodium levels, a decrease in serum osmolarity, and a drop in serum potassium levels.
What is the most probable treatment administered to this patient?Your Answer: Insulin and normal saline
Explanation:Insulin and hydration are the primary treatments for diabetic ketoacidosis (DKA), which causes an increased anion gap metabolic acidosis. Insulin allows cells to use glucose as an energy source, decreasing ketone body production and causing an intracellular shift of potassium. Loop diuretics, mineralocorticoid injections, and opioid antagonists are not appropriate treatments for DKA.
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 3
Correct
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A 49-year-old man with recently diagnosed hypertension has a left adrenal gland phaeochromocytoma and is scheduled for a laparoscopic left adrenalectomy. Which of the following structures is not directly associated with the left adrenal gland?
Your Answer: Lesser curvature of the stomach
Explanation:The left adrenal gland is slightly bigger than the right and has a crescent shape. Its concave side fits against the medial border of the upper part of the left kidney. The upper part is separated from the cardia of the stomach by the peritoneum of the omental bursa. The lower part is in contact with the pancreas and splenic artery and is not covered by peritoneum. On the front side, there is a hilum where the suprarenal vein comes out. The gland rests on the kidney on the lateral side and on the left crus of the diaphragm on the medial side.
Adrenal Gland Anatomy
The adrenal glands are located superomedially to the upper pole of each kidney. The right adrenal gland is posteriorly related to the diaphragm, inferiorly related to the kidney, medially related to the vena cava, and anteriorly related to the hepato-renal pouch and bare area of the liver. On the other hand, the left adrenal gland is postero-medially related to the crus of the diaphragm, inferiorly related to the pancreas and splenic vessels, and anteriorly related to the lesser sac and stomach.
The arterial supply of the adrenal glands is through the superior adrenal arteries from the inferior phrenic artery, middle adrenal arteries from the aorta, and inferior adrenal arteries from the renal arteries. The right adrenal gland drains via one central vein directly into the inferior vena cava, while the left adrenal gland drains via one central vein into the left renal vein.
In summary, the adrenal glands are small but important endocrine glands located above the kidneys. They have a unique blood supply and drainage system, and their location and relationships with other organs in the body are crucial for their proper functioning.
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This question is part of the following fields:
- Renal System
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Question 4
Incorrect
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A 26-year-old man has been in a car accident and his right leg has been trapped for 5 hours during transportation. During examination, his foot is found to be insensate and there is only a weakly felt dorsalis pedis pulse. Which of the following biochemical abnormalities is most likely to be present?
Your Answer: Hyponatraemia
Correct Answer: Hyperkalaemia
Explanation:The patient is expected to suffer from compartment syndrome, which may lead to delayed diagnosis and muscle necrosis. Muscle necrosis can cause the release of potassium, and there is a high probability of renal dysfunction, which can result in elevated serum potassium levels.
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 5
Correct
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A 65-year-old man is being evaluated at the liver clinic of his local hospital. The physician in charge observes that he has developed ascites due to secondary hyperaldosteronism, which is common in patients with liver cirrhosis. To counteract the elevated aldosterone levels by blocking its action in the nephron, she intends to initiate a diuretic.
Which part of the nephron is the diuretic most likely to target in this patient?Your Answer: Cortical collecting ducts
Explanation:Spironolactone is a diuretic that acts as an aldosterone antagonist on the cortical collecting ducts. It is the first-line treatment for controlling ascites in this gentleman as it blocks the secondary hyperaldosteronism underlying the condition. The main site of action for spironolactone’s diuretic effects is the cortical collecting duct.
Spironolactone is a medication that works as an aldosterone antagonist in the cortical collecting duct. It is used to treat various conditions such as ascites, hypertension, heart failure, nephrotic syndrome, and Conn’s syndrome. In patients with cirrhosis, spironolactone is often prescribed in relatively large doses of 100 or 200 mg to counteract secondary hyperaldosteronism. It is also used as a NICE ‘step 4’ treatment for hypertension. In addition, spironolactone has been shown to reduce all-cause mortality in patients with NYHA III + IV heart failure who are already taking an ACE inhibitor, according to the RALES study.
However, spironolactone can cause adverse effects such as hyperkalaemia and gynaecomastia, although the latter is less common with eplerenone. It is important to monitor potassium levels in patients taking spironolactone to prevent hyperkalaemia, which can lead to serious complications such as cardiac arrhythmias. Overall, spironolactone is a useful medication for treating various conditions, but its potential adverse effects should be carefully considered and monitored.
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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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In a patient with an ectopic kidney, where would you expect to find the adrenal gland situated?
Your Answer: In the pelvis
Correct Answer: In its usual position
Explanation:If the kidney is present, the adrenal gland will typically develop in its normal location instead of being absent.
The adrenal cortex, which secretes steroids, is derived from the mesoderm of the posterior abdominal wall and is first detected at 6 weeks’ gestation. The fetal cortex predominates throughout fetal life, with adult-type zona glomerulosa and fasciculata detected but making up only a small proportion of the gland. The adrenal medulla, which is responsible for producing adrenaline, is of ectodermal origin and arises from neural crest cells that migrate to the medial aspect of the developing cortex. The fetal adrenal gland is relatively large, but it rapidly regresses at birth, disappearing almost completely by age 1 year. By age 4-5 years, the permanent adult-type adrenal cortex has fully developed.
Anatomic anomalies of the adrenal gland may occur, such as agenesis of an adrenal gland being usually associated with ipsilateral agenesis of the kidney. Fused adrenal glands, whereby the two glands join across the midline posterior to the aorta, are also associated with a fused kidney. Adrenal hypoplasia can occur in two forms: hypoplasia or absence of the fetal cortex with a poorly formed medulla, or disorganized fetal cortex and medulla with no permanent cortex present. Adrenal heterotopia describes a normal adrenal gland in an abnormal location, such as within the renal or hepatic capsules. Accessory adrenal tissue, also known as adrenal rests, is most commonly located in the broad ligament or spermatic cord but can be found anywhere within the abdomen, and even intracranial adrenal rests have been reported.
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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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Which serum protein is most likely to increase in a patient with severe sepsis?
Your Answer: Transferrin
Correct Answer: Ferritin
Explanation:During an acute phase response, ferritin levels can significantly rise while other parameters typically decrease.
Acute Phase Proteins and their Role in the Body’s Response to Infection
During an infection or injury, the body undergoes an acute phase response where it produces a variety of proteins to help fight off the infection and promote healing. These proteins are known as acute phase proteins and include CRP, procalcitonin, ferritin, fibrinogen, alpha-1 antitrypsin, ceruloplasmin, serum amyloid A, serum amyloid P component, haptoglobin, and complement.
CRP is a commonly measured acute phase protein that is synthesized in the liver and binds to bacterial cells and those undergoing apoptosis. It is able to activate the complement system and its levels are known to rise in patients following surgery. Procalcitonin is another acute phase protein that is used as a marker for bacterial infections. Ferritin is involved in iron storage and transport, while fibrinogen is important for blood clotting. Alpha-1 antitrypsin helps protect the lungs from damage, and ceruloplasmin is involved in copper transport. Serum amyloid A and serum amyloid P component are involved in inflammation, while haptoglobin binds to hemoglobin to prevent its breakdown. Complement is a group of proteins that help to destroy pathogens.
During the acute phase response, the liver decreases the production of other proteins known as negative acute phase proteins, including albumin, transthyretin, transferrin, retinol binding protein, and cortisol binding protein. These proteins are important for maintaining normal bodily functions, but their production is decreased during an infection or injury to allow for the production of acute phase proteins.
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This question is part of the following fields:
- Renal System
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Question 8
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: Hyponatraemia
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 9
Incorrect
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A middle-aged woman expresses concerns about her baby not receiving enough blood supply. Her physician assures her that her blood volume will rise during pregnancy, resulting in a sufficient blood supply for her baby. What is the cause of this increased blood volume?
Your Answer: Increased ADH
Correct Answer: Renin-angiotensin system
Explanation:The renin-angiotensin system is responsible for increasing plasma volume by converting angiotensinogen to angiotensin 2, which causes vasoconstriction and fluid retention. While increased ADH could theoretically raise plasma volume, it typically maintains the hypothalamic plasma volume set-point and reduces micturition rate, which is not consistent with pregnancy. Conversely, decreased ADH could increase micturition and decrease plasma volume. It is important to note that decreased GFR is not a factor in increasing plasma volume during pregnancy, as it actually increases.
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 10
Incorrect
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Which one of the following statements relating to the regulation of cardiac blood flow is not true?
Your Answer: The kidney receives approximately 25% of the total cardiac output at rest
Correct Answer: Systolic blood pressures of less than 65mmHg will cause the mesangial cells to secrete aldosterone
Explanation:The kidney has the ability to regulate its own blood supply within a certain range of systolic blood pressures. If the arterial pressure drops, the juxtaglomerular cells detect this and release renin, which activates the renin-angiotensin system. Mesangial cells, which are located in the tubule, do not have any direct endocrine function but are able to contract.
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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