00
Correct
00
Incorrect
00 : 00 : 00
Session Time
00 : 00
Average Question Time ( Secs)
  • Question 1 - A 59-year-old man comes to the GP complaining of lower back pain, weight...

    Correct

    • A 59-year-old man comes to the GP complaining of lower back pain, weight loss, an abdominal mass, and visible haematuria. The GP eliminates the possibility of a UTI and refers him through a 2-week wait pathway. An ultrasound reveals a tumour, and a biopsy confirms renal cell carcinoma. From which part of the kidney does his cancer originate?

      Your Answer: Proximal renal tubular epithelium

      Explanation:

      Renal cell carcinoma originates from the proximal renal tubular epithelium, while the other options, such as blood vessels, distal renal tubular epithelium, and glomerular basement membrane, are all parts of the kidney but not the site of origin for renal cell carcinoma. Transitional cell carcinoma, on the other hand, arises from the transitional cells in the lining of the renal pelvis.

      Renal cell cancer, also known as hypernephroma, is a primary renal neoplasm that accounts for 85% of cases. It originates from the proximal renal tubular epithelium and is commonly associated with smoking and conditions such as von Hippel-Lindau syndrome and tuberous sclerosis. The clear cell subtype is the most prevalent, comprising 75-85% of tumors.

      Renal cell cancer is more common in middle-aged men and may present with classical symptoms such as haematuria, loin pain, and an abdominal mass. Other features include endocrine effects, such as the secretion of erythropoietin, parathyroid hormone-related protein, renin, and ACTH. Metastases are present in 25% of cases at presentation, and paraneoplastic syndromes such as Stauffer syndrome may also occur.

      The T category criteria for renal cell cancer are based on tumor size and extent of invasion. Management options include partial or total nephrectomy, depending on the tumor size and extent of disease. Patients with a T1 tumor are typically offered a partial nephrectomy, while alpha-interferon and interleukin-2 may be used to reduce tumor size and treat metastases. Receptor tyrosine kinase inhibitors such as sorafenib and sunitinib have shown superior efficacy compared to interferon-alpha.

      In summary, renal cell cancer is a common primary renal neoplasm that is associated with various risk factors and may present with classical symptoms and endocrine effects. Management options depend on the extent of disease and may include surgery and targeted therapies.

    • This question is part of the following fields:

      • Renal System
      58.5
      Seconds
  • Question 2 - A 67-year-old man is attending the urology clinic and receiving goserelin for his...

    Correct

    • A 67-year-old man is attending the urology clinic and receiving goserelin for his metastatic prostate cancer. Can you explain the drug's mechanism of action?

      Your Answer: Overstimulation of GnRH receptors

      Explanation:

      GnRH agonists used in the treatment of prostate cancer can paradoxically lead to lower LH levels in the long term. This is because chronic use of these agonists can result in overstimulation of GnRH receptors, which in turn disrupts endogenous hormonal feedback systems. While initially stimulating the production of LH/FSH and subsequent androgen production, chronic use of GnRH agonists can cause negative feedback to suppress the release of gonadotropins, resulting in a significant decrease in serum testosterone levels. This mechanism can be thought of as switching on to switch off. It is important to note that inhibiting the 5 alpha-reductase enzyme and relaxing prostatic smooth muscle are not mechanisms of action for GnRH agonists, but rather for other medications used in the treatment of prostate conditions.

      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.

    • This question is part of the following fields:

      • Renal System
      70.6
      Seconds
  • Question 3 - A 20-year-old patient visits their GP complaining of non-specific malaise. The patient has...

    Incorrect

    • A 20-year-old patient visits their GP complaining of non-specific malaise. The patient has a medical history of recurrent haematuria during childhood with infections and fever, as well as bilateral mild sensorineural hearing loss. Due to frequent moves between countries, the patient has never had continuous medical care. Further investigations reveal proteinuria and haematuria, leading to a referral to secondary care and a subsequent renal biopsy. The biopsy results show splitting of the lamina densa on electron microscopy.

      What is the most common mode of inheritance for this likely diagnosis?

      Your Answer: X-linked recessive

      Correct Answer: X-linked dominant

      Explanation:

      Alport’s syndrome is a genetic disorder that is typically inherited in an X-linked dominant pattern. It is caused by a defect in the gene responsible for producing type IV collagen, which leads to an abnormal glomerular-basement membrane (GBM). The disease is more severe in males, with females rarely developing renal failure. Symptoms usually present in childhood and may include microscopic haematuria, progressive renal failure, bilateral sensorineural deafness, lenticonus, retinitis pigmentosa, and splitting of the lamina densa seen on electron microscopy. In some cases, an Alport’s patient with a failing renal transplant may have anti-GBM antibodies, leading to a Goodpasture’s syndrome-like picture. Diagnosis can be made through molecular genetic testing, renal biopsy, or electron microscopy. In around 85% of cases, the syndrome is inherited in an X-linked dominant pattern, while 10-15% of cases are inherited in an autosomal recessive fashion, with rare autosomal dominant variants existing.

    • This question is part of the following fields:

      • Renal System
      23.8
      Seconds
  • Question 4 - A 40-year-old man visits his doctor for a routine check-up and is informed...

    Correct

    • A 40-year-old man visits his doctor for a routine check-up and is informed that his cholesterol levels are elevated. He has a significant family history of high cholesterol and genetic testing reveals that he is heterozygous for the affected allele. If he has a child with a woman who does not carry the affected allele, what is the probability that their child will inherit the condition?

      Your Answer: 50%

      Explanation:

      Familial Hypercholesterolaemia: Causes, Diagnosis, and Management

      Familial hypercholesterolaemia (FH) is a genetic condition that affects approximately 1 in 500 people. It is an autosomal dominant disorder that results in high levels of LDL-cholesterol, which can lead to early cardiovascular disease if left untreated. FH is caused by mutations in the gene that encodes the LDL-receptor protein.

      To diagnose FH, NICE recommends suspecting it as a possible diagnosis in adults with a total cholesterol level greater than 7.5 mmol/l and/or a personal or family history of premature coronary heart disease. For children of affected parents, testing should be arranged by age 10 if one parent is affected and by age 5 if both parents are affected.

      The Simon Broome criteria are used for clinical diagnosis, which includes a total cholesterol level greater than 7.5 mmol/l and LDL-C greater than 4.9 mmol/l in adults or a total cholesterol level greater than 6.7 mmol/l and LDL-C greater than 4.0 mmol/l in children. Definite FH is diagnosed if there is tendon xanthoma in patients or first or second-degree relatives or DNA-based evidence of FH. Possible FH is diagnosed if there is a family history of myocardial infarction below age 50 years in second-degree relatives, below age 60 in first-degree relatives, or a family history of raised cholesterol levels.

      Management of FH involves referral to a specialist lipid clinic and the use of high-dose statins as first-line treatment. CVD risk estimation using standard tables is not appropriate in FH as they do not accurately reflect the risk of CVD. First-degree relatives have a 50% chance of having the disorder and should be offered screening, including children who should be screened by the age of 10 years if there is one affected parent. Statins should be discontinued in women 3 months before conception due to the risk of congenital defects.

    • This question is part of the following fields:

      • Renal System
      41.8
      Seconds
  • Question 5 - A 42-year-old man is admitted to the gastroenterology ward with a flare-up of...

    Correct

    • A 42-year-old man is admitted to the gastroenterology ward with a flare-up of his Crohn's disease. He has been experiencing up to 6 bowel movements per day for the past 2 weeks and has lost around 5kg in weight.

      What are the expected biochemical abnormalities in this clinical scenario?

      Your Answer: Metabolic acidosis, normal anion gap, hypokalaemia

      Explanation:

      Prolonged diarrhoea can lead to a normal anion gap metabolic acidosis and hypokalaemia. This is due to the loss of potassium and other electrolytes through the gastrointestinal tract. The anion gap remains within normal limits despite the metabolic acidosis caused by diarrhoea. It is important to monitor electrolyte levels in patients with prolonged diarrhoea to prevent complications.

      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
      27
      Seconds
  • Question 6 - A 38-year-old man arrives at the emergency department with sudden-onset acute left flank...

    Incorrect

    • A 38-year-old man arrives at the emergency department with sudden-onset acute left flank pain that started an hour ago. He describes the pain as colicky and radiating down to his groin. The man is also experiencing nausea and vomiting and appears restless. He has no significant medical or surgical history and has never been hospitalized before. His body mass index is 31 kg per m2. Upon examination, his heart rate is 94 beats per minute, respiratory rate is 19 breaths per minute, and blood pressure is 136/79 mmHg. Radiographic studies confirm the presence of stones in the left ureter. What is a characteristic of the most common type of kidney stones?

      Your Answer: Wedge-shaped prism crystals

      Correct Answer: Envelope-shaped crystals

      Explanation:

      The patient displayed symptoms consistent with urolithiasis, specifically ureterolithiasis, as imaging revealed the presence of stones in the left ureter. Kidney stones are commonly composed of calcium oxalate, but can also consist of calcium phosphate, ammonium magnesium phosphate, uric acid, or cystine, depending on urine pH and other factors.

      Uric acid stones are characterized by diamond or rhomboid-shaped crystals and are often found in individuals with hyperuricemia. Calcium oxalate stones, which have envelope-shaped crystals, are the most common type and are associated with low water intake and dehydration. Cystine stones, with hexagonal-shaped crystals, are prevalent in patients with the genetic condition COLA, which impairs the reabsorption of certain amino acids in the proximal convoluted tubule. Ammonium magnesium phosphate stones, also known as struvites, have coffin-lid shaped crystals and are common in individuals with urinary tract infections caused by urease-producing organisms, such as Klebsiella, Staphylococcus saprophyticus, and Proteus mirabilis. Preventive strategies should be a focus of future management for patients diagnosed with kidney stones.

      Renal stones can be classified into different types based on their composition. Calcium oxalate stones are the most common, accounting for 85% of all calculi. These stones are formed due to hypercalciuria, hyperoxaluria, and hypocitraturia. They are radio-opaque and may also bind with uric acid stones. Cystine stones are rare and occur due to an inherited recessive disorder of transmembrane cystine transport. Uric acid stones are formed due to purine metabolism and may precipitate when urinary pH is low. Calcium phosphate stones are associated with renal tubular acidosis and high urinary pH. Struvite stones are formed from magnesium, ammonium, and phosphate and are associated with chronic infections. The pH of urine can help determine the type of stone present, with calcium phosphate stones forming in normal to alkaline urine, uric acid stones forming in acidic urine, and struvate stones forming in alkaline urine. Cystine stones form in normal urine pH.

    • This question is part of the following fields:

      • Renal System
      29
      Seconds
  • Question 7 - A 50-year-old man presents to a urology clinic with persistent haematuria. He has...

    Incorrect

    • A 50-year-old man presents to a urology clinic with persistent haematuria. He has a smoking history of 30 pack years and you suspect bladder cancer. After performing a cystoscopy and biopsy, the lesion is found to be malignant. What is the probable cell type?

      Your Answer: Adenocarcinoma

      Correct Answer: Transitional cell carcinoma

      Explanation:

      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
      28.3
      Seconds
  • Question 8 - A 65-year-old male is referred to the cardiology department by his physician due...

    Incorrect

    • A 65-year-old male is referred to the cardiology department by his physician due to chest pain during physical activity. The cardiologist plans to evaluate for coronary artery blockage and prescribes a coronary CT angiography. The radiologist will administer a contrast dye intravenously during the imaging. What is the most crucial blood test to conduct before giving the contrast agent?

      Your Answer: Full blood count

      Correct Answer: Urea and electrolytes

      Explanation:

      Before administering contrast medium, it is important to assess renal function by checking the patient’s urea and electrolytes (U&Es) due to the nephrotoxic nature of the contrast medium.

      Although cardiac enzymes can be useful in ruling out myocardial infarction, they are not relevant to the administration of contrast medium in this particular clinical scenario where an acute myocardial infarction is not suspected.

      While a full blood count may be part of the patient’s regular workup, it is not necessary for assessing the administration of contrast medium.

      Liver function does not need to be checked prior to administering contrast medium as it is not known to be hepatotoxic.

      Although contrast medium can affect thyroid function in some patients due to its iodine content, it is not routinely checked before administration.

      Contrast media nephrotoxicity is characterized by a 25% increase in creatinine levels within three days of receiving intravascular contrast media. This condition typically occurs between two to five days after administration and is more likely to affect patients with pre-existing renal impairment, dehydration, cardiac failure, or those taking nephrotoxic drugs like NSAIDs. Procedures that may cause contrast-induced nephropathy include CT scans with contrast and coronary angiography or percutaneous coronary intervention (PCI). Around 5% of patients who undergo PCI experience a temporary increase in plasma creatinine levels of more than 88 µmol/L.

      To prevent contrast-induced nephropathy, intravenous 0.9% sodium chloride should be administered at a rate of 1 mL/kg/hour for 12 hours before and after the procedure. Isotonic sodium bicarbonate may also be used. While N-acetylcysteine was previously used, recent evidence suggests it is not effective. Patients at high risk for contrast-induced nephropathy should have metformin withheld for at least 48 hours and until their renal function returns to normal to avoid the risk of lactic acidosis.

    • This question is part of the following fields:

      • Renal System
      20.6
      Seconds
  • Question 9 - A 45-year-old woman visits her doctor for a follow-up appointment after commencing metformin...

    Incorrect

    • A 45-year-old woman visits her doctor for a follow-up appointment after commencing metformin treatment half a year ago. She expresses worry about the potential long-term impact of diabetes on her kidneys, based on information she read online.

      What is the primary mechanism through which kidney damage occurs in this demographic of patients?

      Your Answer: Antigen-antibody complex deposition

      Correct Answer: Non-enzymatic glycosylation

      Explanation:

      The non-enzymatic glycosylation of the basement membrane is responsible for the complications of diabetes nephropathy.

      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
      11.4
      Seconds
  • Question 10 - A 62-year-old male with type 2 diabetes is urgently referred by his GP...

    Incorrect

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

      Your Answer: Lactic acidosis

      Correct Answer: Sepsis

      Explanation:

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

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

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

    • This question is part of the following fields:

      • Renal System
      4
      Seconds
  • Question 11 - An 82-year-old woman with a history of chronic kidney disease presents to the...

    Incorrect

    • An 82-year-old woman with a history of chronic kidney disease presents to the general practice with a painful left foot. The pain is sharp in nature and is felt mostly towards the posterior of the sole of the foot. The pain is most severe when the patient takes her first few steps after getting out of bed in the morning. There is no history of trauma. You diagnose plantar fasciitis. The usual treatment of plantar fasciitis is with NSAIDs. However, NSAIDs are contraindicated in severe renal disease. What is the effect of NSAIDs on the glomerular filtration pressure?

      Your Answer:

      Correct Answer: Vasoconstriction of the afferent arteriole

      Explanation:

      The correct answer is vasoconstriction of the afferent arteriole, as explained in the following notes.

      ACE inhibitors and ARBs cause vasodilation of the efferent arteriole, which reduces glomerular filtration pressure. This effect is particularly significant in individuals with renal artery stenosis, as their kidneys receive limited perfusion, including the glomeruli.

      In a healthy individual, the afferent arteriole remains dilated, while the efferent arteriole remains constricted to maintain a fine balance of glomerular pressure. Vasodilation of the afferent arteriole or vasoconstriction of the efferent arteriole would both increase glomerular filtration pressure.

      The patient in the given question is experiencing symptoms that suggest plantar fasciitis, a common condition caused by inflammation of the plantar fascia in the foot.

      The Impact of NSAIDs on Kidney Function

      NSAIDs are commonly used anti-inflammatory drugs that work by inhibiting the enzymes COX-1 and COX-2, which are responsible for the synthesis of prostanoids such as prostaglandins and thromboxanes. In the kidneys, prostaglandins play a crucial role in vasodilating the afferent arterioles of the glomeruli, allowing for increased blood flow and a higher glomerular filtration rate (GFR).

      However, when NSAIDs inhibit the COX enzymes, the levels of prostaglandins decrease, leading to a reduction in afferent arteriole vasodilation and subsequently, a decrease in renal perfusion and GFR. This can have negative consequences for kidney function, particularly in individuals with pre-existing kidney disease or those taking high doses of NSAIDs for prolonged periods of time.

      It is important for healthcare providers to consider the potential impact of NSAIDs on kidney function and to monitor patients accordingly, especially those at higher risk for kidney damage. Alternative treatments or lower doses of NSAIDs may be recommended to minimize the risk of kidney injury.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 12 - A 35-year-old woman, gravida 3 para 1, is scheduled for a caesarian-section. During...

    Incorrect

    • A 35-year-old woman, gravida 3 para 1, is scheduled for a caesarian-section. During the procedure, it is crucial to avoid damaging certain structures, such as the bladder and its vascular supply, to prevent complications. What is the female bladder's venous drainage structure?

      Your Answer:

      Correct Answer: Vesicouterine venous plexus

      Explanation:

      The vesicouterine venous plexus is responsible for draining the bladder in females, while the vesicoprostatic venous plexus serves the same function in males by connecting the prostatic venous plexus and vesical plexuses. The pampiniform plexus is responsible for draining the ovaries in females. It is important to note that the terms vesicorectal and vesicovaginal plexuses are not accurate anatomical structures, but rather refer to fistulas that may form between the bladder and nearby structures.

      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
      0
      Seconds
  • Question 13 - A 70-year-old woman presents to the emergency department with confusion and drowsiness, discovered...

    Incorrect

    • A 70-year-old woman presents to the emergency department with confusion and drowsiness, discovered by her carers at home. She has experienced three episodes of vomiting and complains of a headache. Earlier in the day, she was unable to recognise her carers and is now communicating with short, nonsensical phrases.

      Based on her medical history of type 2 diabetes and stage 3 chronic kidney disease, along with the results of a CT head scan showing generalised cerebral and cerebellar oedema with narrowed ventricles and effaced sulci and cisterns, what is the most likely cause of this patient's symptoms?

      Your Answer:

      Correct Answer: Hyponatraemia

      Explanation:

      Severe hyponatraemia can lead to cerebral oedema, which is likely the cause of the patient’s symptoms of confusion, headache, and drowsiness. The patient’s history of chronic kidney disease and use of thiazide diuretics increase her risk of developing hyponatraemia. Thiazides inhibit urinary dilution, leading to reduced reabsorption of NaCl in the distal renal tubules and an increased risk of hyponatraemia. In severe cases, hyponatraemia can cause a decrease in plasma osmolality, resulting in water movement into the brain and cerebral oedema.

      Hypocalcaemia is not associated with cerebral oedema and can be ruled out based on the CT findings. Hypomagnesaemia is typically asymptomatic unless severe and is not associated with cerebral oedema. Hypophosphataemia is uncommon in patients with renal disease and does not present with symptoms similar to those described in the vignette. Severe hypovolemia is not indicated in this case, as there is no evidence of reduced skin turgor, dry mucous membranes, reduced urine output, or other signs of hypovolaemic shock. However, it should be noted that rapid volume correction in hypovolaemic shock can also lead to cerebral oedema.

      Hyponatremia is a condition where the sodium levels in the blood are too low. If left untreated, it can lead to cerebral edema and brain herniation. Therefore, it is important to identify and treat hyponatremia promptly. The treatment plan depends on various factors such as the duration and severity of hyponatremia, symptoms, and the suspected cause. Over-rapid correction can lead to osmotic demyelination syndrome, which is a serious complication.

      Initial steps in treating hyponatremia involve ruling out any errors in the test results and reviewing medications that may cause hyponatremia. For chronic hyponatremia without severe symptoms, the treatment plan varies based on the suspected cause. If it is hypovolemic, normal saline may be given as a trial. If it is euvolemic, fluid restriction and medications such as demeclocycline or vaptans may be considered. If it is hypervolemic, fluid restriction and loop diuretics or vaptans may be considered.

      For acute hyponatremia with severe symptoms, patients require close monitoring in a hospital setting. Hypertonic saline is used to correct the sodium levels more quickly than in chronic cases. Vaptans, which act on V2 receptors, can be used but should be avoided in patients with hypovolemic hyponatremia and those with underlying liver disease.

      It is important to avoid over-correction of severe hyponatremia as it can lead to osmotic demyelination syndrome. Symptoms of this condition include dysarthria, dysphagia, paralysis, seizures, confusion, and coma. Therefore, sodium levels should only be raised by 4 to 6 mmol/L in a 24-hour period to prevent this complication.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 14 - A 32-year-old construction worker becomes dehydrated after spending the day working under the...

    Incorrect

    • A 32-year-old construction worker becomes dehydrated after spending the day working under the sun.

      What can be inferred about this person?

      Your Answer:

      Correct Answer: Most of the ultrafiltrated water in the nephron to be reabsorbed in the proximal tubule

      Explanation:

      The majority of filtered water is absorbed in the proximal tubule, while the highest amount of sodium reabsorption occurs in this area due to the Na+/K+ ATPase mechanism. This results in the movement of fluid from the proximal tubules to peritubular capillaries.

      After a strenuous run, the individual is likely to be slightly dehydrated, leading to an increased activation of the renin-angiotensin-aldosterone system. This would cause an increase in aldosterone release from the zona glomerulosa. Additionally, vasopressin (also known as ADH) would be elevated to enhance water reabsorption in the collecting duct.

      Renal cortical blood flow is higher than medullary blood flow, as tubular cells are more susceptible to ischaemia.

      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
      0
      Seconds
  • Question 15 - A 30-year-old male presents to his GP with concerns about lumps on his...

    Incorrect

    • A 30-year-old male presents to his GP with concerns about lumps on his hands. He recalls his father having similar spots and is worried about their appearance after comments from his colleagues. On examination, soft yellow papules are found on the base of the 1st and 3rd digit. A blood test reveals elevated cholesterol and triglycerides, with low HDL and high LDL. What is the underlying genetic mutation causing this patient's lipid transport defect?

      Your Answer:

      Correct Answer: Apolipoprotein E (Apo-E)

      Explanation:

      Hyperlipidaemia Classification

      Hyperlipidaemia is a condition characterized by high levels of lipids (fats) in the blood. The Fredrickson classification system was previously used to categorize hyperlipidaemia based on the type of lipid and genetic factors. However, it is now being replaced by a classification system based solely on genetics.

      The Fredrickson classification system included five types of hyperlipidaemia, each with a specific genetic cause. Type I was caused by lipoprotein lipase deficiency or apolipoprotein C-II deficiency, while type IIa was caused by familial hypercholesterolaemia. Type IIb was caused by familial combined hyperlipidaemia, and type III was caused by remnant hyperlipidaemia or apo-E2 homozygosity. Type IV was caused by familial hypertriglyceridaemia or familial combined hyperlipidaemia, and type V was caused by familial hypertriglyceridaemia.

      Hyperlipidaemia can primarily be caused by raised cholesterol or raised triglycerides. Familial hypercholesterolaemia and polygenic hypercholesterolaemia are primarily caused by raised cholesterol, while familial hypertriglyceridaemia and lipoprotein lipase deficiency or apolipoprotein C-II deficiency are primarily caused by raised triglycerides. Mixed hyperlipidaemia disorders, such as familial combined hyperlipidaemia and remnant hyperlipidaemia, involve a combination of raised cholesterol and raised triglycerides.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 16 - A 79-year-old woman is admitted with confusion and started on an IV infusion...

    Incorrect

    • A 79-year-old woman is admitted with confusion and started on an IV infusion after blood tests are taken. Her admission blood results indicate dehydration and elevated potassium levels, with a subsequent increase to 5.9. Which intravenous therapy is likely causing her hyperkalaemia?

      Your Answer:

      Correct Answer: Hartmann’s

      Explanation:

      Fluid Therapy Guidelines for Junior Doctors

      Fluid therapy is a common task for junior doctors, and it is important to follow guidelines to ensure patients receive the appropriate amount of fluids. The 2013 NICE guidelines recommend 25-30 ml/kg/day of water, 1 mmol/kg/day of potassium, sodium, and chloride, and 50-100 g/day of glucose for maintenance fluids. For the first 24 hours, NICE recommends using sodium chloride 0.18% in 4% glucose with 27 mmol/l potassium. However, the amount of fluid required may vary depending on the patient’s medical history. For example, a post-op patient with significant fluid loss will require more fluid, while a patient with heart failure should receive less fluid to avoid pulmonary edema.

      It is important to consider the electrolyte concentrations of plasma and the most commonly used fluids when prescribing intravenous fluids. 0.9% saline can lead to hyperchloraemic metabolic acidosis if large volumes are used. Hartmann’s solution contains potassium and should not be used in patients with hyperkalemia. By following these guidelines and considering individual patient needs, junior doctors can ensure safe and effective fluid therapy.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 17 - A 55-year-old man presents to the emergency department after his GP performed an...

    Incorrect

    • A 55-year-old man presents to the emergency department after his GP performed an ECG due to complaints of palpitations, which showed active changes associated with hyperkalaemia. The emergency department confirms these changes and an arterial blood gas reveals a serum potassium level of 6.9 mmol/l. The patient is promptly initiated on treatment. What intervention will stabilize the cardiac membrane?

      Your Answer:

      Correct Answer: Calcium gluconate

      Explanation:

      Hyperkalaemia is present in the patient.

      Although all the options are used in treating hyperkalaemia, they have distinct roles. Calcium gluconate is the only option used to stabilise the cardiac membrane.

      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.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 18 - Which one of the following statements are not typically true in hypokalaemia? ...

    Incorrect

    • Which one of the following statements are not typically true in hypokalaemia?

      Your Answer:

      Correct Answer: It often accompanies acidosis

      Explanation:

      Potassium depletion can occur through the gastrointestinal tract or the kidneys. Chronic vomiting is less likely to cause potassium loss than diarrhea because gastric secretions contain less potassium than lower GI secretions. However, if vomiting leads to metabolic alkalosis, renal potassium wasting may occur as the body excretes potassium instead of hydrogen ions. Conversely, potassium depletion can result in acidic urine.

      Hypokalemia is often associated with metabolic alkalosis due to two factors. Firstly, common causes of metabolic alkalosis, such as vomiting and diuretics, directly cause loss of H+ and K+ (via aldosterone), leading to hypokalemia. Secondly, hypokalemia can cause metabolic alkalosis through three mechanisms. Firstly, it causes a transcellular shift where K+ leaves and H+ enters cells, raising extracellular pH. Secondly, it causes an intracellular acidosis in the proximal tubules, promoting ammonium production and excretion. Thirdly, in the presence of hypokalemia, hydrogen secretion in the proximal and distal tubules increases, leading to further reabsorption of HCO3-. Overall, this results in an increase in net acid excretion.

      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.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 19 - A 33-year-old individual presents to the emergency department in an intoxicated state after...

    Incorrect

    • A 33-year-old individual presents to the emergency department in an intoxicated state after a night of drinking. Although there are no immediate medical concerns, the patient is visibly under the influence of alcohol, exhibiting unsteady gait, reduced social inhibition, and mild slurring of speech. Additionally, the patient is observed to be urinating frequently.

      What is the probable mechanism behind the increased frequency of urination in this patient?

      Your Answer:

      Correct Answer: Suppression of antidiuretic hormone (ADH) release from the posterior pituitary gland

      Explanation:

      Polyuria, or excessive urination, can be caused by a variety of factors. A recent review in the BMJ categorizes these causes by their frequency of occurrence. The most common causes of polyuria include the use of diuretics, caffeine, and alcohol, as well as diabetes mellitus, lithium, and heart failure. Less common causes include hypercalcaemia and hyperthyroidism, while rare causes include chronic renal failure, primary polydipsia, and hypokalaemia. The least common cause of polyuria is diabetes insipidus, which occurs in less than 1 in 10,000 cases. It is important to note that while these frequencies may not align with exam questions, understanding the potential causes of polyuria can aid in diagnosis and treatment.

    • This question is part of the following fields:

      • Renal System
      0
      Seconds
  • Question 20 - A 75-year-old male ex-smoker presents to a urologist with a complaint of painless...

    Incorrect

    • A 75-year-old male ex-smoker presents to a urologist with a complaint of painless haematuria that has been ongoing for 3 weeks. He has experienced a weight loss of 5 kg over the past two months. During an urgent cystoscopy, a suspicious mass is discovered and subsequently biopsied. The histology confirms a transitional cell carcinoma of the bladder. A CT scan of the abdomen and pelvis reveals multiple enlarged lymph nodes. Which lymph node is the most probable site of metastasis?

      Your Answer:

      Correct Answer: Internal and external iliac lymph nodes

      Explanation:

      The external and internal iliac nodes are the main recipients of lymphatic drainage from the bladder, while the testes and ovaries are primarily drained by the para-aortic lymph nodes.

      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
      0
      Seconds

SESSION STATS - PERFORMANCE PER SPECIALTY

Renal System (4/10) 40%
Passmed