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  • Question 1 - You assess a 40-year-old woman who underwent a renal transplant 10 months ago...

    Correct

    • 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: 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.

    • This question is part of the following fields:

      • Renal System
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  • Question 2 - A 30-year-old man presents to the emergency department with complaints of abdominal pain,...

    Incorrect

    • 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: PH 7.5; pCO2 2.3 kPa; Anion Gap 25

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 3 - A 65-year-old man visits the haemofiltration unit thrice a week for treatment. What...

    Incorrect

    • A 65-year-old man visits the haemofiltration unit thrice a week for treatment. What is responsible for detecting alterations in salt concentrations, such as sodium chloride, in normally functioning kidneys and adjusting the glomerular filtration rate accordingly?

      Your Answer: Juxtaglomerular cells

      Correct Answer: Macula densa

      Explanation:

      The macula densa is a specialized area of columnar tubule cells located in the final part of the ascending loop of Henle. These cells are in contact with the afferent arteriole and play a crucial role in detecting the concentration of sodium chloride in the convoluted tubules and ascending loop of Henle. This detection is affected by the glomerular filtration rate (GFR), which is increased by an increase in blood pressure. When the macula densa detects high sodium chloride levels, it releases ATP and adenosine, which constrict the afferent arteriole and lower GFR. Conversely, when low sodium chloride levels are detected, the macula densa releases nitric oxide, which acts as a vasodilator. The macula densa can also increase renin production from the juxtaglomerular cells.

      Juxtaglomerular cells are smooth muscle cells located mainly in the walls of the afferent arteriole. They act as baroreceptors to detect changes in blood pressure and can secrete renin.

      Mesangial cells are located at the junction of the afferent and efferent arterioles and, together with the juxtaglomerular cells and the macula densa, form the juxtaglomerular apparatus.

      Podocytes, which are modified simple squamous epithelial cells with foot-like projections, make up the innermost layer of the Bowman’s capsule surrounding the glomerular capillaries. They assist in glomerular filtration.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 4 - A 49-year-old man with a history of chronic alcohol abuse presents with abdominal...

    Incorrect

    • A 49-year-old man with a history of chronic alcohol abuse presents with abdominal distension and is diagnosed with decompensated alcoholic liver disease with ascites. The consultant initiates treatment with spironolactone to aid in the management of his ascites.

      What is the mode of action of spironolactone?

      Your Answer: Inhibition of the sodium/potassium/chloride transporter in the loop of Henle

      Correct Answer: Inhibition of the mineralocorticoid receptor in the cortical collecting ducts

      Explanation:

      Aldosterone antagonists function as diuretics by targeting the cortical collecting ducts.

      By inhibiting the mineralocorticoid receptor in the cortical collecting ducts, spironolactone acts as an aldosterone antagonist.

      Loop diuretics like furosemide work by blocking the sodium/potassium/chloride transporter in the loop of Henle.

      Thiazide diuretics, such as bendroflumethiazide, block the sodium/chloride transporter in the distal convoluted tubules.

      Carbonic anhydrase inhibitors, like dorzolamide, act on the proximal tubules.

      Amiloride inhibits the epithelial sodium transporter in the distal convoluted tubules.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 5 - A 50-year-old man visits his doctor complaining of pain in his lower back....

    Correct

    • A 50-year-old man visits his doctor complaining of pain in his lower back. He reports seeing blood in his urine and feeling a lump in his left flank, causing him great concern. The doctor plans to perform an ultrasound.
      What is the probable diagnosis at this point?

      Your Answer: Renal cell carcinoma

      Explanation:

      Common Kidney Conditions and Their Symptoms

      Haematuria, loin pain, and an abdominal mass are the three main symptoms associated with renal cell carcinoma. Patients may also experience weight loss and malaise. Diagnostic tests such as ultrasonography and excretion urography can reveal the presence of a solid lesion or space-occupying lesion. CT and MRI scans may be used to determine the stage of the tumour. Nephrectomy is the preferred treatment option, unless the patient’s second kidney is not functioning properly.

      Nephrotic syndrome is a kidney condition that causes excessive protein excretion. Patients typically experience swelling around the eyes and legs.

      Renal calculi, or kidney stones, can cause severe flank pain and haematuria. Muscle spasms occur as the body tries to remove the stone.

      Urinary tract infections are more common in women and present with symptoms such as frequent urination, painful urination, suprapubic pain, and haematuria.

      In summary, these common kidney conditions can cause a range of symptoms and require different diagnostic tests and treatment options. It is important to seek medical attention if any of these symptoms are present.

    • This question is part of the following fields:

      • Renal System
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  • Question 6 - A 65-year-old male presents with multiple episodes of haematuria. He has a history...

    Correct

    • A 65-year-old male presents with multiple episodes of haematuria. He has a history of COPD due to prolonged smoking. What could be the probable root cause?

      Your Answer: Transitional cell carcinoma of the bladder

      Explanation:

      TCC is the most common subtype of renal cancer and is strongly associated with smoking. Renal adenocarcinoma may also cause similar symptoms but is less likely.

      Bladder cancer is a common urological cancer that primarily affects males aged 50-80 years old. Smoking and exposure to hydrocarbons increase the risk of developing the disease. Chronic bladder inflammation from Schistosomiasis infection is also a common cause of squamous cell carcinomas in countries where the disease is endemic. Benign tumors of the bladder, such as inverted urothelial papilloma and nephrogenic adenoma, are rare. The most common bladder malignancies are urothelial (transitional cell) carcinoma, squamous cell carcinoma, and adenocarcinoma. Urothelial carcinomas may be solitary or multifocal, with papillary growth patterns having a better prognosis. The remaining tumors may be of higher grade and prone to local invasion, resulting in a worse prognosis.

      The TNM staging system is used to describe the extent of bladder cancer. Most patients present with painless, macroscopic hematuria, and a cystoscopy and biopsies or TURBT are used to provide a histological diagnosis and information on depth of invasion. Pelvic MRI and CT scanning are used to determine locoregional spread, and PET CT may be used to investigate nodes of uncertain significance. Treatment options include TURBT, intravesical chemotherapy, surgery (radical cystectomy and ileal conduit), and radical radiotherapy. The prognosis varies depending on the stage of the cancer, with T1 having a 90% survival rate and any T, N1-N2 having a 30% survival rate.

    • This question is part of the following fields:

      • Renal System
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  • Question 7 - A 69-year-old man is admitted to the medical assessment unit with reduced urine...

    Incorrect

    • 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: Insulin

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 8 - A 28-year-old man presents to his GP complaining of abdominal pain and diarrhea....

    Incorrect

    • A 28-year-old man presents to his GP complaining of abdominal pain and diarrhea. The GP suspects gastritis but decides to perform a urine test to rule out a UTI. The results of the urine dipstick test are as follows:

      Blood: Negative mmol/l
      Protein: Negative mmol/l
      Leukocytes: ++ mmol/l
      Nitrites: Negative mmol/l

      What could be the reason for the abnormal urine dipstick result?

      Your Answer: Benign prostatic hypertrophy (BPH)

      Correct Answer: Chlamydia

      Explanation:

      Sterile pyuria can be caused by urethritis as a result of a sexually transmitted disease such as chlamydia.

      Understanding Sterile Pyuria and Its Causes

      Sterile pyuria is a medical condition characterized by the presence of white blood cells in the urine without any bacterial growth. It is a common finding in patients with urinary tract infections (UTIs) but can also be caused by other underlying conditions.

      Some of the common causes of sterile pyuria include partially treated UTIs, urethritis (such as Chlamydia), renal tuberculosis, renal stones, appendicitis, bladder or renal cell cancer, adult polycystic kidney disease, and analgesic nephropathy.

      It is important to identify the underlying cause of sterile pyuria to ensure proper treatment and prevent complications. Patients with this condition should seek medical attention and undergo further evaluation to determine the root cause of their symptoms. Early detection and treatment can help prevent further damage to the urinary tract and improve overall health outcomes.

    • This question is part of the following fields:

      • Renal System
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  • Question 9 - An 80-year-old man is undergoing investigation for haematuria, with no other urinary symptoms...

    Incorrect

    • An 80-year-old man is undergoing investigation for haematuria, with no other urinary symptoms reported. He has no significant medical history and previously worked in the textiles industry. During a flexible cystoscopy, a sizable mass is discovered in the lower part of his bladder, raising suspicion of bladder cancer. A PET scan is planned to check for any nodal metastasis. Which lymph nodes are most likely to be affected?

      Your Answer: Superior mesenteric lymph nodes

      Correct Answer: External and internal iliac lymph nodes

      Explanation:

      The bladder’s lymphatic drainage is mainly to the external and internal iliac nodes. A man with haematuria and a history of working with dye is found to have a bladder tumour. To stage the tumour, nodal metastasis should be investigated, and the correct lymph nodes to check are the external and internal iliac nodes. Other options such as deep inguinal, para-aortic, and superficial inguinal nodes are incorrect.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 10 - A 65-year-old man with type 2 diabetes mellitus is undergoing his annual diabetic...

    Incorrect

    • A 65-year-old man with type 2 diabetes mellitus is undergoing his annual diabetic examination. He reports feeling more fatigued than usual and has missed his previous three annual check-ups. His blood glucose control has been inadequate, and he has not been adhering to his medications. His blood pressure measures 170/90 mmHg, and a urinalysis reveals microalbuminuria. A blood test shows that his glomerular filtration rate (GFR) is 27mL/min per 1.73m².

      Assuming a renal biopsy is conducted on this patient, what are the anticipated findings?

      Your Answer: Enlarged and hypercellular glomeruli

      Correct Answer: Nodular glomerulosclerosis and hyaline arteriosclerosis

      Explanation:

      The patient in question is suffering from T2DM that is poorly controlled, resulting in diabetic nephropathy. The histological examination reveals the presence of Kimmelstiel-Wilson lesions (nodular glomerulosclerosis) and hyaline arteriosclerosis, which are caused by nonenzymatic glycosylation.

      Amyloidosis is characterized by apple-green birefringence under polarised light.

      Acute post-streptococcal glomerulonephritis is identified by enlarged and hypercellular glomeruli.

      Rapidly progressive (crescentic) glomerulonephritis is characterized by crescent moon-shaped glomeruli.

      Diffuse proliferative glomerulonephritis (often due to SLE) is identified by wire looping of capillaries in the glomeruli.

      Understanding Diabetic Nephropathy: The Common Cause of End-Stage Renal Disease

      Diabetic nephropathy is the leading cause of end-stage renal disease in the western world. It affects approximately 33% of patients with type 1 diabetes mellitus by the age of 40 years, and around 5-10% of patients with type 1 diabetes mellitus develop end-stage renal disease. The pathophysiology of diabetic nephropathy is not fully understood, but changes to the haemodynamics of the glomerulus, such as increased glomerular capillary pressure, and non-enzymatic glycosylation of the basement membrane are thought to play a key role. Histological changes include basement membrane thickening, capillary obliteration, mesangial widening, and the development of nodular hyaline areas in the glomeruli, known as Kimmelstiel-Wilson nodules.

      There are both modifiable and non-modifiable risk factors for developing diabetic nephropathy. Modifiable risk factors include hypertension, hyperlipidaemia, smoking, poor glycaemic control, and raised dietary protein. On the other hand, non-modifiable risk factors include male sex, duration of diabetes, and genetic predisposition, such as ACE gene polymorphisms. Understanding these risk factors and the pathophysiology of diabetic nephropathy is crucial in the prevention and management of this condition.

    • This question is part of the following fields:

      • Renal System
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  • Question 11 - A 25-year-old man presents to his GP with a complaint of blood in...

    Incorrect

    • A 25-year-old man presents to his GP with a complaint of blood in his urine. He reports that it began a day ago and is bright red in color. He denies any pain and has not observed any clots in his urine. The patient is generally healthy, but had a recent upper respiratory tract infection 2 days ago.

      Upon urine dipstick examination, +++ blood and + protein are detected. What histological finding would be expected on biopsy, given the likely diagnosis?

      Your Answer: Fusion of podocytes and effacement of foot processes

      Correct Answer: Mesangial hypercellularity with positive immunofluorescence for IgA & C3

      Explanation:

      The histological examination of IgA nephropathy reveals an increase in mesangial cells, accompanied by positive immunofluorescence for IgA and C3.

      Understanding IgA Nephropathy

      IgA nephropathy, also known as Berger’s disease, is the most common cause of glomerulonephritis worldwide. It typically presents as macroscopic haematuria in young people following an upper respiratory tract infection. The condition is thought to be caused by mesangial deposition of IgA immune complexes, and there is considerable pathological overlap with Henoch-Schonlein purpura (HSP). Histology shows mesangial hypercellularity and positive immunofluorescence for IgA and C3.

      Differentiating between IgA nephropathy and post-streptococcal glomerulonephritis is important. Post-streptococcal glomerulonephritis is associated with low complement levels and the main symptom is proteinuria, although haematuria can occur. There is typically an interval between URTI and the onset of renal problems in post-streptococcal glomerulonephritis.

      Management of IgA nephropathy depends on the severity of the condition. If there is isolated hematuria, no or minimal proteinuria, and a normal glomerular filtration rate (GFR), no treatment is needed other than follow-up to check renal function. If there is persistent proteinuria and a normal or only slightly reduced GFR, initial treatment is with ACE inhibitors. If there is active disease or failure to respond to ACE inhibitors, immunosuppression with corticosteroids may be necessary.

      The prognosis for IgA nephropathy varies. 25% of patients develop ESRF. Markers of good prognosis include frank haematuria, while markers of poor prognosis include male gender, proteinuria (especially > 2 g/day), hypertension, smoking, hyperlipidaemia, and ACE genotype DD.

      Overall, understanding IgA nephropathy is important for proper diagnosis and management of the condition. Proper management can help improve outcomes and prevent progression to ESRF.

    • This question is part of the following fields:

      • Renal System
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  • Question 12 - During an on-call shift, you are reviewing the blood results of a 72-year-old...

    Correct

    • 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: 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.

    • This question is part of the following fields:

      • Renal System
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  • Question 13 - A 67-year-old man with a history of heart failure visits the clinic complaining...

    Incorrect

    • A 67-year-old man with a history of heart failure visits the clinic complaining of breathlessness for the past four weeks. The breathlessness worsens with activity or when lying down, and he needs to sleep on three large pillows at night. He is currently taking ramipril, bisoprolol, furosemide, and bendroflumethiazide. You are contemplating adding a low dose of spironolactone to his current treatment. What accurately describes the mechanism of action of spironolactone?

      Your Answer: Inhibits angiotensin converting enzyme

      Correct Answer: Aldosterone antagonist

      Explanation:

      Spironolactone is classified as an aldosterone antagonist, which is a type of potassium-sparing diuretic. It works by blocking the action of aldosterone on aldosterone receptors, which inhibits the Na+/K+ exchanger in the cortical collecting ducts. Amiloride is another potassium-sparing diuretic that inhibits the epithelial sodium channels in the cortical collecting ducts. Thiazide diuretics work by inhibiting the Na+ Cl- cotransporter in the distal convoluted tubule, while loop diuretics inhibit Na+ K+ 2Cl- cotransporters in the thick ascending loop of Henle. ACE inhibitors like ramipril, on the other hand, produce an antihypertensive effect by inhibiting ACE in the renin-angiotensin-aldosterone-system. In heart failure, diuretics are commonly used to reduce fluid overload and improve heart function. However, caution should be taken when using potassium-sparing diuretics like spironolactone in patients already at risk of hyperkalemia due to treatment with ACE inhibitors. Serum potassium levels should be monitored before and after starting spironolactone.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 14 - Which is least likely to cause hyperuricaemia? ...

    Correct

    • Which is least likely to cause hyperuricaemia?

      Your Answer: Amiodarone

      Explanation:

      The drugs that cause hyperuricaemia due to reduced urate excretion can be remembered using the mnemonic Can’t leap, which stands for Ciclosporin, Alcohol, Nicotinic acid, Thiazides, Loop diuretics, Ethambutol, Aspirin, and Pyrazinamide. Additionally, decreased tubular secretion of urate can occur in patients with acidosis, such as those with diabetic ketoacidosis, ethanol or salicylate intoxication, or starvation ketosis, as the organic acids that accumulate in these conditions compete with urate for tubular secretion.

      Understanding Hyperuricaemia

      Hyperuricaemia is a condition characterized by elevated levels of uric acid in the blood. This can be caused by an increase in cell turnover or a decrease in the excretion of uric acid by the kidneys. While some individuals with hyperuricaemia may not experience any symptoms, it can be associated with other health conditions such as hyperlipidaemia, hypertension, and the metabolic syndrome.

      There are several factors that can contribute to the development of hyperuricaemia. Increased synthesis of uric acid can occur in conditions such as Lesch-Nyhan disease, myeloproliferative disorders, and with a diet rich in purines. On the other hand, decreased excretion of uric acid can be caused by drugs like low-dose aspirin, diuretics, and pyrazinamide, as well as pre-eclampsia, alcohol consumption, renal failure, and lead exposure.

      It is important to understand the underlying causes of hyperuricaemia in order to properly manage and treat the condition. Regular monitoring of uric acid levels and addressing any contributing factors can help prevent complications such as gout and kidney stones.

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      • Renal System
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  • Question 15 - A 50-year-old woman presents to her GP with a complaint of generalised puffiness....

    Correct

    • 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: 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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      • Renal System
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  • Question 16 - A 63-year-old man is seen in the oncology clinic. He is being monitored...

    Incorrect

    • A 63-year-old man is seen in the oncology clinic. He is being monitored for known breast cancer. His recent mammogram and biopsy suggest an increased disease burden. It is decided to initiate Tamoxifen therapy while awaiting a mastectomy.

      What is the mechanism of action of this new medication?

      Your Answer: Steroidal anti-androgen

      Correct Answer: Androgen receptor blocker

      Explanation:

      Bicalutamide is a medication that blocks the androgen receptor and is commonly used to treat prostate cancer. Abiraterone, on the other hand, is an androgen synthesis inhibitor that is prescribed to patients with metastatic prostate cancer who have not responded to androgen deprivation therapy. GnRH agonists like goserelin can also be used to treat prostate cancer by reducing the release of gonadotrophins and inhibiting androgen production. While cyproterone acetate is a steroidal anti-androgen, it is not as commonly used as non-steroidal anti-androgens like bicalutamide.

      Prostate cancer management varies depending on the stage of the disease and the patient’s life expectancy and preferences. For localized prostate cancer (T1/T2), treatment options include active monitoring, watchful waiting, radical prostatectomy, and radiotherapy (external beam and brachytherapy). For localized advanced prostate cancer (T3/T4), options include hormonal therapy, radical prostatectomy, and radiotherapy. Patients may develop proctitis and are at increased risk of bladder, colon, and rectal cancer following radiotherapy for prostate cancer.

      In cases of metastatic prostate cancer, reducing androgen levels is a key aim of treatment. A combination of approaches is often used, including anti-androgen therapy, synthetic GnRH agonist or antagonists, bicalutamide, cyproterone acetate, abiraterone, and bilateral orchidectomy. GnRH agonists, such as Goserelin (Zoladex), initially cause a rise in testosterone levels before falling to castration levels. To prevent a rise in testosterone, anti-androgens are often used to cover the initial therapy. GnRH antagonists, such as degarelix, are being evaluated to suppress testosterone while avoiding the flare phenomenon. Chemotherapy with docetaxel is also an option for the treatment of hormone-relapsed metastatic prostate cancer in patients who have no or mild symptoms after androgen deprivation therapy has failed, and before chemotherapy is indicated.

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      • Renal System
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  • Question 17 - In a 70 Kg person, what percentage of the entire body fluid will...

    Incorrect

    • In a 70 Kg person, what percentage of the entire body fluid will be provided by plasma?

      Your Answer: 25%

      Correct Answer: 5%

      Explanation:

      Understanding the Physiology of Body Fluid Compartments

      Body fluid compartments are essential components of the human body, consisting of intracellular and extracellular compartments. The extracellular compartment is further divided into interstitial fluid, plasma, and transcellular fluid. In a typical 70 Kg male, the intracellular compartment comprises 60-65% of the total body fluid volume, while the extracellular compartment comprises 35-40%. The plasma volume is approximately 5%, while the interstitial fluid volume is 24%. The transcellular fluid volume is approximately 3%. These figures are only approximate and may vary depending on the individual’s weight and other factors. Understanding the physiology of body fluid compartments is crucial in maintaining proper fluid balance and overall health.

    • This question is part of the following fields:

      • Renal System
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  • Question 18 - A 25-year-old suffers a groin stab wound resulting in hypovolaemic shock. What would...

    Incorrect

    • A 25-year-old suffers a groin stab wound resulting in hypovolaemic shock. What would be the probable observation on examining his urine?

      Your Answer: Increased urinary glucose

      Correct Answer: Increased specific gravity

      Explanation:

      When blood pressure drops below the level at which the kidney can regulate its blood flow, hypovolemic shock can lead to a reduction in renal blood flow. This can cause an increase in specific gravity as the body tries to retain water to maintain blood volume.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 19 - A 39-year-old male visits his GP for a routine check-up of his high...

    Incorrect

    • A 39-year-old male visits his GP for a routine check-up of his high blood pressure. Despite being on a maximum dose of ramipril, amlodipine, and spironolactone, his blood pressure remains consistently at or above 160/100 mmHg. During the consultation, the patient reveals that he has been experiencing episodes of intense anxiety, sweating, palpitations, and fear about twice a week for the past six months.

      What is the source of the hormone responsible for the symptoms experienced by this man?

      Your Answer: Zona reticularis of adrenal cortex

      Correct Answer: Adrenal medulla

      Explanation:

      The patient’s symptoms suggest a phaeochromocytoma, which is caused by a tumor in the adrenal medulla that leads to the release of excess epinephrine. This results in refractory hypertension and severe episodes of sweating, palpitations, and anxiety.

      While the pituitary gland produces hormones like thyroid-stimulating hormone and adrenocorticotropic hormone, these hormones do not directly cause the symptoms seen in this patient. Additionally, excess ACTH production is associated with Cushing’s syndrome, which does not fit the clinical picture.

      The adrenal cortex has three distinct zones, each responsible for producing different hormones. The zona fasciculata produces glucocorticoids like cortisol, which can lead to Cushing’s syndrome. The zona glomerulosa produces mineralocorticoids like aldosterone, which can cause uncontrolled hypertension and electrolyte imbalances. The zona reticularis produces androgens like testosterone. However, none of these conditions match the symptoms seen in this patient.

      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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      • Renal System
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  • Question 20 - A 32-year-old single mum has been recommended for genetic testing after her 10-months-old...

    Incorrect

    • A 32-year-old single mum has been recommended for genetic testing after her 10-months-old daughter was diagnosed with congenital nephrogenic diabetes insipidus. She has no symptoms and does not know of any family history of this disorder.

      Which part of the kidney is frequently impacted in this condition?

      Your Answer: Angiotensin II receptor

      Correct Answer: Vasopressin receptor

      Explanation:

      Diabetes insipidus is a medical condition that can be caused by either a decreased secretion of antidiuretic hormone (ADH) from the pituitary gland (cranial DI) or an insensitivity to ADH (nephrogenic DI). Cranial DI can be caused by various factors such as head injury, pituitary surgery, and infiltrative diseases like sarcoidosis. On the other hand, nephrogenic DI can be caused by genetic factors, electrolyte imbalances, and certain medications like lithium and demeclocycline. The common symptoms of DI are excessive urination and thirst. Diagnosis is made through a water deprivation test and checking the osmolality of the urine. Treatment options include thiazides and a low salt/protein diet for nephrogenic DI, while central DI can be treated with desmopressin.

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      • Renal System
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  • Question 21 - A 35-year-old man presents to the emergency department with confusion and lethargy. Arterial...

    Correct

    • 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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      • Renal System
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  • Question 22 - Which serum protein is most likely to increase in a patient with severe...

    Incorrect

    • Which serum protein is most likely to increase in a patient with severe sepsis?

      Your Answer: Transthyretin

      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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      • Renal System
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  • Question 23 - A 57-year-old male presents to the urology clinic with painless haematuria and requires...

    Incorrect

    • A 57-year-old male presents to the urology clinic with painless haematuria and requires an urgent assessment. He undergoes a flexible cystoscopy, during which the neck and trigone of the bladder are visualised. What structures make up the trigone of the bladder?

      Your Answer: Two ureteric orifices and the two internal urethral orifices

      Correct Answer: Two ureteric orifices and the internal urethral orifice

      Explanation:

      The triangular area of the bladder is made up of muscles and is located above the urethra. It is formed by the openings of the two ureters and the internal urethral opening.

      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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      • Renal System
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  • Question 24 - A 73-year-old man visits the urology clinic due to an elevated PSA level....

    Correct

    • 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: 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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      • Renal System
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  • Question 25 - An 73-year-old man visits his doctor complaining of limb weakness, fatigue, and easy...

    Incorrect

    • An 73-year-old man visits his doctor complaining of limb weakness, fatigue, and easy bruising. Despite maintaining a healthy diet, he has noticed an increase in abdominal weight. Following a positive high dexamethasone test, he is diagnosed with Cushing's disease caused by a pituitary adenoma. Which part of the adrenal gland produces the hormone responsible for his symptoms' pathophysiology?

      Your Answer:

      Correct Answer: Zona fasciculata

      Explanation:

      The correct answer is the zona fasciculata of the adrenal cortex.

      This patient’s symptoms suggest that they may have Cushing’s syndrome, which is caused by excess cortisol production. Cortisol is normally produced in the zona fasciculata of the adrenal cortex.

      The adrenal medulla produces catecholamines like adrenaline and noradrenaline.

      The juxtaglomerular apparatus is located in the kidney and produces renin in response to reduced renal perfusion.

      The zona glomerulosa is the outer layer of the adrenal cortex and produces mineralocorticoids like aldosterone.

      The zona reticularis is the innermost layer of the adrenal cortex and produces androgens like DHEA.

      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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      • Renal System
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  • Question 26 - A 16-year-old boy is being evaluated for weight loss and increased thirst. During...

    Incorrect

    • A 16-year-old boy is being evaluated for weight loss and increased thirst. During a urine dipstick test, one of the parameters showed a +++ result. In which part of the nephron does the resorption of this solute primarily occur?

      Your Answer:

      Correct Answer: Proximal convoluted tubule

      Explanation:

      Glucose is primarily reabsorbed in the proximal convoluted tubule of the nephron. In individuals with type 1 diabetes, the level of circulating glucose exceeds the nephron’s capacity for reabsorption, resulting in glycosuria or glucose in the urine. The collecting duct system mainly reabsorbs water under the control of hormones such as ADH. The descending limb of the loop of Henle is primarily permeable to water, while the distal convoluted tubule mainly absorbs ions and water through active transport. The thick ascending limb of the loop of Henle is the main site of resorption for sodium, potassium, and chloride ions, creating a hypotonic filtrate.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 27 - A 50-year-old male is undergoing evaluation for persistent proteinuria. He has a medical...

    Incorrect

    • A 50-year-old male is undergoing evaluation for persistent proteinuria. He has a medical history of relapsed multiple myeloma. A renal biopsy is performed, and the Congo red stain with light microscopy shows apple-green birefringence under polarised light.

      What is the probable diagnosis?

      Your Answer:

      Correct Answer: Amyloidosis

      Explanation:

      Understanding Amyloidosis

      Amyloidosis is a medical condition that occurs when an insoluble fibrillar protein called amyloid accumulates outside the cells. This protein is derived from various precursor proteins and contains non-fibrillary components such as amyloid-P component, apolipoprotein E, and heparan sulphate proteoglycans. The accumulation of amyloid fibrils can lead to tissue or organ dysfunction.

      Amyloidosis can be classified as systemic or localized, and further characterized by the type of precursor protein involved. For instance, in myeloma, the precursor protein is immunoglobulin light chain fragments, which is abbreviated as AL (A for amyloid and L for light chain fragments).

      To diagnose amyloidosis, doctors may use Congo red staining, which shows apple-green birefringence, or a serum amyloid precursor (SAP) scan. Biopsy of skin, rectal mucosa, or abdominal fat may also be necessary. Understanding amyloidosis is crucial for early detection and treatment of the condition.

    • This question is part of the following fields:

      • Renal System
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  • Question 28 - Jill, who is in her mid-30s, has just completed a half marathon and...

    Incorrect

    • Jill, who is in her mid-30s, has just completed a half marathon and is now dehydrated. The decreased perfusion pressure in her kidneys is detected by baroreceptors, leading to the activation of the renin-angiotensin-aldosterone system (RAAS). As a result, renin cleaves angiotensinogen to angiotensin I, which is then converted to angiotensin II by angiotensin-converting enzyme (ACE). What effect does angiotensin II have on the arteriole that branches off from the renal artery and carries blood away from the glomerulus? And how does this impact Jill's glomerular filtration rate (GFR)?

      Your Answer:

      Correct Answer: Vasoconstriction - increases GFR

      Explanation:

      Angiotensin II causes vasoconstriction of the efferent arteriole, which increases the pressure difference between the afferent and efferent arterioles. This increase in pressure leads to an increase in filtration pressure and thus an increase in GFR. Therefore, efferent arteriole constriction increases GFR.

      Reabsorption and Secretion in Renal Function

      In renal function, reabsorption and secretion play important roles in maintaining homeostasis. The filtered load is the amount of a substance that is filtered by the glomerulus and is determined by the glomerular filtration rate (GFR) and the plasma concentration of the substance. The excretion rate is the amount of the substance that is eliminated in the urine and is determined by the urine flow rate and the urine concentration of the substance. Reabsorption occurs when the filtered load is greater than the excretion rate, and secretion occurs when the excretion rate is greater than the filtered load.

      The reabsorption rate is the difference between the filtered load and the excretion rate, and the secretion rate is the difference between the excretion rate and the filtered load. Reabsorption and secretion can occur in different parts of the nephron, including the proximal tubule, loop of Henle, distal tubule, and collecting duct. These processes are regulated by various hormones and signaling pathways, such as aldosterone, antidiuretic hormone (ADH), and atrial natriuretic peptide (ANP).

      Overall, reabsorption and secretion are important mechanisms for regulating the composition of the urine and maintaining fluid and electrolyte balance in the body. Dysfunction of these processes can lead to various renal disorders, such as diabetes insipidus, renal tubular acidosis, and Fanconi syndrome.

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      • Renal System
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  • Question 29 - A 55-year-old man, who has a history of type 2 diabetes, is prescribed...

    Incorrect

    • A 55-year-old man, who has a history of type 2 diabetes, is prescribed losartan for his hypertension due to the development of a dry cough from ramipril. Losartan works by inhibiting the activity of a substance that acts on the AT1 receptor.

      What accurately characterizes the function of this substance?

      Your Answer:

      Correct Answer: Increases filtration fraction through vasoconstriction of the efferent arteriole of the glomerulus to preserve GFR

      Explanation:

      Angiotensin II is responsible for increasing the filtration fraction by constricting the efferent arteriole of the glomerulus, which helps to maintain the glomerular filtration rate (GFR). This mechanism has been found to slow down the progression of diabetic nephropathy. AT1 receptor blockers such as azilsartan, candesartan, and olmesartan can also block the action of Ang II. Desmopressin activates aquaporin, which is mainly located in the collecting duct of the kidneys. Norepinephrine and epinephrine, not Ang II, can cause vasoconstriction of the afferent arteriole of the glomerulus.

      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.

    • This question is part of the following fields:

      • Renal System
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  • Question 30 - What substance is most effective in obtaining the most precise measurement of the...

    Incorrect

    • What substance is most effective in obtaining the most precise measurement of the glomerular filtration rate?

      Your Answer:

      Correct Answer: Inulin

      Explanation:

      The decrease in renal function and muscle mass as one ages leads to a decline in creatinine levels. The kidney reabsorbs glucose, protein (amino acids), and PAH.

      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.

    • This question is part of the following fields:

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SESSION STATS - PERFORMANCE PER SPECIALTY

Renal System (5/24) 21%
Passmed