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  • Question 1 - You review a child with hypocalcaemia with your consultant. She performs an examination...

    Correct

    • You review a child with hypocalcaemia with your consultant. She performs an examination and taps along the course of the facial nerve as part of this. This causes contraction of the muscles of the eye, mouth, and nose on the same side.

      Which SINGLE sign has the consultant demonstrated?

      Your Answer: Chvostek’s sign

      Explanation:

      Chvostek’s sign is an indication of latent tetany and is observed in individuals with hypocalcaemia. When the angle of the jaw is tapped, the facial muscles on the same side of the face will momentarily contract.

      Trousseau’s sign is another indication of latent tetany seen in hypocalcaemia. To test for this sign, a blood pressure cuff is placed around the subject’s arm and inflated to 20 mmHg above systolic blood pressure. This occludes arterial blood flow to the hand for a period of 3 to 5 minutes. In the presence of hypocalcaemia, carpopedal spasm will occur, characterized by flexion at the wrist and MCP joints, extension of the IP joints, and adduction of the thumb and fingers.

      Blumberg’s sign is a diagnostic tool for peritonitis. It is considered positive when rebound tenderness is felt in the abdominal wall upon slow compression and rapid release.

      Froment’s sign is a test used to assess ulnar nerve palsy, specifically evaluating the action of the adductor pollicis muscle. The patient is instructed to hold a piece of paper between their thumb and index finger. The examiner then attempts to pull the paper from between the thumb and index finger. A patient with ulnar nerve palsy will struggle to maintain a grip and may compensate by flexing the flexor pollicis longus muscle to sustain the pinching effect.

      Gower’s sign is observed in children with Duchenne’s muscular dystrophy. When attempting to stand up from the ground, these children will start with both hands and feet on the floor and gradually use their hands to work up their legs until they achieve an upright posture.

    • This question is part of the following fields:

      • Nephrology
      20.2
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  • Question 2 - You review a patient with a history of renal failure that has presented...

    Incorrect

    • You review a patient with a history of renal failure that has presented to the Emergency Department with problems relating to their renal replacement therapy. You note that they are currently receiving peritoneal dialysis.

      In which of the following patient groups with end-stage renal failure should peritoneal dialysis be considered as the initial treatment option, instead of hemodialysis?

      Your Answer: Adults patients with significant associated comorbidities

      Correct Answer: Children aged two years old or younger

      Explanation:

      All individuals diagnosed with stage 5 chronic kidney disease should be given the option to choose between haemodialysis or peritoneal dialysis. Peritoneal dialysis should be prioritized as the preferred treatment for the following groups of patients: those who still have some remaining kidney function, adult patients without major additional health conditions, and children who are two years old or younger.

    • This question is part of the following fields:

      • Nephrology
      22.7
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  • Question 3 - You are overseeing the care of a patient who has been recommended to...

    Correct

    • You are overseeing the care of a patient who has been recommended to visit the emergency department due to an unexpected abnormal potassium level on a routine blood test. What signs or symptoms would you anticipate observing in a patient with severe hyperkalemia?

      Your Answer: Flaccid paralysis

      Explanation:

      Hyperkalaemia can be identified by certain signs, such as muscle weakness, cramps, and delayed deep tendon reflexes. Additionally, there are neurological signs that may be present, including flaccid paralysis, twitching, peripheral paresthesia, weakness, and hypo-reflexia.

      Further Reading:

      Vasoactive drugs can be classified into three categories: inotropes, vasopressors, and unclassified. Inotropes are drugs that alter the force of muscular contraction, particularly in the heart. They primarily stimulate adrenergic receptors and increase myocardial contractility. Commonly used inotropes include adrenaline, dobutamine, dopamine, isoprenaline, and ephedrine.

      Vasopressors, on the other hand, increase systemic vascular resistance (SVR) by stimulating alpha-1 receptors, causing vasoconstriction. This leads to an increase in blood pressure. Commonly used vasopressors include norepinephrine, metaraminol, phenylephrine, and vasopressin.

      Electrolytes, such as potassium, are essential for proper bodily function. Solutions containing potassium are often given to patients to prevent or treat hypokalemia (low potassium levels). However, administering too much potassium can lead to hyperkalemia (high potassium levels), which can cause dangerous arrhythmias. It is important to monitor potassium levels and administer it at a controlled rate to avoid complications.

      Hyperkalemia can be caused by various factors, including excessive potassium intake, decreased renal excretion, endocrine disorders, certain medications, metabolic acidosis, tissue destruction, and massive blood transfusion. It can present with cardiovascular, respiratory, gastrointestinal, and neuromuscular symptoms. ECG changes, such as tall tented T-waves, prolonged PR interval, flat P-waves, widened QRS complex, and sine wave, are also characteristic of hyperkalemia.

      In summary, vasoactive drugs can be categorized as inotropes, vasopressors, or unclassified. Inotropes increase myocardial contractility, while vasopressors increase systemic vascular resistance. Electrolytes, particularly potassium, are important for bodily function, but administering too much can lead to hyperkalemia. Monitoring potassium levels and ECG changes is crucial in managing hyperkalemia.

    • This question is part of the following fields:

      • Nephrology
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  • Question 4 - A 45-year-old man presents with generalized weakness and palpitations. Upon reviewing his blood...

    Correct

    • A 45-year-old man presents with generalized weakness and palpitations. Upon reviewing his blood results, you note that his potassium level is significantly elevated. His ECG shows a broad QRS and peaked T waves. As part of his treatment, you administer a dose of calcium chloride.

      How does calcium chloride work in the treatment of hyperkalemia?

      Your Answer: Stabilisation of the cell membrane

      Explanation:

      Calcium is effective in treating hyperkalaemia by counteracting the harmful effects on the heart caused by high levels of potassium. It achieves this by stabilizing the cardiac cell membrane and preventing unwanted depolarization. The onset of action is rapid, typically within 15 minutes, but the effects do not last for a long duration. Calcium is considered the first-line treatment for severe hyperkalaemia (potassium levels above 7 mmol/l) and when significant ECG abnormalities are present, such as widened QRS interval, loss of P wave, or cardiac arrhythmias. However, if the ECG only shows peaked T waves, calcium is usually not recommended.

      It is important to note that calcium does not directly affect the serum potassium levels. Therefore, when administering calcium, it should be accompanied by other therapies that actively lower the serum potassium levels, such as insulin and salbutamol.

      When hyperkalaemia is accompanied by hemodynamic compromise, calcium chloride is preferred over calcium gluconate. This is because calcium chloride contains approximately three times more elemental calcium than an equal volume of calcium gluconate.

    • This question is part of the following fields:

      • Nephrology
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  • Question 5 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Incorrect

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      What is a potential cause of post-renal AKI?

      Your Answer: Severe cardiac failure

      Correct Answer: Papillary necrosis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of urea and other waste products in the body and disrupts the balance of fluids and electrolytes. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases that develop outside of healthcare settings are due to pre-renal causes, accounting for 90% of cases. These causes typically involve low blood pressure associated with conditions like sepsis and fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated.

      Pre-renal:
      – Volume depletion (e.g., severe bleeding, excessive vomiting or diarrhea, burns)
      – Oedematous states (e.g., heart failure, liver cirrhosis, nephrotic syndrome)
      – Low blood pressure (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe heart failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular diseases (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged lack of blood supply
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular diseases (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Kidney stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal

    • This question is part of the following fields:

      • Nephrology
      32.8
      Seconds
  • Question 6 - A 5-year-old girl is brought to the Emergency Department by her parents. For...

    Correct

    • A 5-year-old girl is brought to the Emergency Department by her parents. For the past two days, she has had severe diarrhoea and vomiting. She has not passed urine so far today. She normally weighs 20 kg. On examination, she has sunken eyes and dry mucous membranes. She is tachycardia and tachypnoeic and has cool peripheries. Her capillary refill time is prolonged.
      What is her estimated percentage dehydration?

      Your Answer: 10%

      Explanation:

      Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. To put it in simpler terms, 5% dehydration means that the body has lost 5 grams of fluid per 100 grams of body weight, which is equivalent to 50 milliliters per kilogram of fluid. Similarly, 10% dehydration implies a loss of 100 milliliters per kilogram of fluid.

      The clinical features of dehydration and shock are summarized below:

      Dehydration (5%):
      – The child appears unwell
      – The heart rate may be normal or increased (tachycardia)
      – The respiratory rate may be normal or increased (tachypnea)
      – Peripheral pulses are normal
      – Capillary refill time (CRT) is normal or slightly prolonged
      – Blood pressure is normal
      – Extremities feel warm
      – Decreased urine output
      – Reduced skin turgor
      – Sunken eyes
      – Depressed fontanelle
      – Dry mucous membranes

      Clinical shock (10%):
      – The child appears pale, lethargic, and mottled
      – Tachycardia (increased heart rate)
      – Tachypnea (increased respiratory rate)
      – Weak peripheral pulses
      – Prolonged CRT
      – Hypotension (low blood pressure)
      – Extremities feel cold
      – Decreased urine output
      – Decreased level of consciousness

    • This question is part of the following fields:

      • Nephrology
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  • Question 7 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Incorrect

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      Which of the following is NOT a primary renal cause of AKI?

      Your Answer: Thrombotic microangiopathy

      Correct Answer: Renal artery stenosis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of urea and other waste products in the body and disrupts the balance of fluids and electrolytes. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases that develop outside of healthcare settings are due to pre-renal causes, accounting for 90% of cases. These causes typically involve low blood pressure associated with conditions like sepsis and fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated.
      Pre-renal:
      – Volume depletion (e.g., severe bleeding, excessive vomiting or diarrhea, burns)
      – Oedematous states (e.g., heart failure, liver cirrhosis, nephrotic syndrome)
      – Low blood pressure (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe heart failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular diseases (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged lack of blood supply
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular diseases (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Kidney stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal

    • This question is part of the following fields:

      • Nephrology
      19.1
      Seconds
  • Question 8 - A 7 year old boy is brought to the emergency department by his...

    Correct

    • A 7 year old boy is brought to the emergency department by his father complaining of stomach pain. The boy has had a sore throat for 2-3 days before the stomach pain began. The patient has normal vital signs and is able to provide a clear history. During the examination, you observe a rash on his legs that consists of small raised red-purple spots that do not fade when pressure is applied. His abdomen is soft with no signs of guarding or palpable organ enlargement.

      What is the most probable diagnosis?

      Your Answer: Henoch-Schonlein purpura

      Explanation:

      Renal disease is not commonly seen as a presenting sign or symptom, but approximately a certain percentage of individuals may develop it. In the case of meningococcal septicaemia, patients usually experience acute illness along with abnormal observations and confusion. Immune thrombocytopenia (ITP) is known to cause easy bruising and nosebleeds, but it does not have the same distribution pattern as HSP and does not come with abdominal pain or joint pain. On the other hand, viral urticaria and roseola typically result in a rash that blanches.

      Further Reading:

      Henoch-Schonlein purpura (HSP) is a small vessel vasculitis that is mediated by IgA. It is commonly seen in children following an infection, with 90% of cases occurring in children under 10 years of age. The condition is characterized by a palpable purpuric rash, abdominal pain, gastrointestinal upset, and polyarthritis. Renal involvement occurs in approximately 50% of cases, with renal impairment typically occurring within 1 day to 1 month after the onset of other symptoms. However, renal impairment is usually mild and self-limiting, although 10% of cases may have serious renal impairment at presentation and 1% may progress to end-stage kidney failure long term. Treatment for HSP involves analgesia for arthralgia, and treatment for nephropathy is generally supportive. The prognosis for HSP is usually excellent, with the condition typically resolving fully within 4 weeks, especially in children without renal involvement. However, around 1/3rd of patients may experience relapses, which can occur for several months.

    • This question is part of the following fields:

      • Nephrology
      49.8
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  • Question 9 - A 15 kg toddler presents with clinical signs of shock and 10% dehydration...

    Incorrect

    • A 15 kg toddler presents with clinical signs of shock and 10% dehydration as a result of gastroenteritis. A 20 ml/kg fluid bolus is given initially.
      How much fluid should be given over the next 24 hours following this?

      Your Answer: 1600 ml

      Correct Answer: 4100 ml

      Explanation:

      The intravascular volume of an infant is approximately 80 ml/kg, while in older children it is around 70 ml/kg. Dehydration itself does not lead to death, but shock can. Shock can occur when there is a loss of 20 ml/kg from the intravascular space, whereas clinical dehydration is only noticeable after total losses greater than 25 ml/kg.

      The table below summarizes the maintenance fluid requirements for well, normal children based on their body weight:

      Bodyweight:
      – First 10 kg: Daily fluid requirement of 100 ml/kg, hourly fluid requirement of 4 ml/kg
      – Second 10 kg: Daily fluid requirement of 50 ml/kg, hourly fluid requirement of 2 ml/kg
      – Subsequent kg: Daily fluid requirement of 20 ml/kg, hourly fluid requirement of 1 ml/kg

      In general, a child showing clinical signs of dehydration without shock is assumed to be 5% dehydrated. If shock is also present, it is assumed that the child is 10% dehydrated or more. 5% dehydration means the body has lost 5 g per 100 g body weight, which is equivalent to 50 ml/kg of fluid. Therefore, 10% dehydration implies a loss of 100 ml/kg of fluid.

      In this case, the child is in shock and should receive a 20 ml/kg fluid bolus. The initial volume of fluid to administer should be 20 x 25% ml = 500 ml.

      Following this, the child requires:
      – 100 ml/kg replacement for the 10% dehydration = 100 x 25 = 2500 ml
      – 1st 10 kg = 100 ml/kg for daily maintenance fluid = 100 x 10 = 1000 ml
      – 2nd 10kg = 50 ml/kg for daily maintenance fluid = 50 x 10 = 500 ml
      – Subsequent kg = 20 ml/kg for daily maintenance fluid = 20 x 5 = 100 ml

      The total fluid needed for rehydration and maintenance is 2500 + 1600 = 4100 ml over a 24-hour period.

      The clinical features of dehydration are summarized below:

      Dehydration (5%):
      – Appears ‘unwell’
      – Normal heart rate or tachycardia
      – Normal respiratory rate or tachypnea
      – Normal peripheral pulses
      – Normal or mildly prolonged

    • This question is part of the following fields:

      • Nephrology
      43.8
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  • Question 10 - A 14-month-old girl is brought to the Emergency Department by her father. For...

    Correct

    • A 14-month-old girl is brought to the Emergency Department by her father. For the past three days, she has had severe diarrhea. She has had no wet diapers so far today and is lethargic and not her usual self. She was recently weighed by her pediatrician's nurse and was 9 kg. On examination, she has dry mucous membranes and reduced skin turgor, but a normal capillary refill time (CRT) and her vital signs are within normal limits.
      What is her estimated percentage of dehydration?

      Your Answer: 5%

      Explanation:

      Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. To put it in simpler terms, 5% dehydration means that the body has lost 5 grams of fluid per 100 grams of body weight, which is equivalent to 50 milliliters per kilogram of fluid. Similarly, 10% dehydration implies a loss of 100 milliliters per kilogram of fluid.

      The clinical features of dehydration are summarized below:

      Dehydration (5%):
      – The child appears unwell
      – The heart rate may be normal or increased (tachycardia)
      – The respiratory rate may be normal or increased (tachypnea)
      – Peripheral pulses are normal
      – Capillary refill time (CRT) is normal or slightly prolonged
      – Blood pressure is normal
      – Extremities feel warm
      – Decreased urine output
      – Reduced skin turgor
      – Sunken eyes
      – Depressed fontanelle
      – Dry mucous membranes

      Clinical shock (10%):
      – The child appears pale, lethargic, and mottled
      – Tachycardia (increased heart rate)
      – Tachypnea (increased respiratory rate)
      – Weak peripheral pulses
      – Prolonged CRT
      – Hypotension (low blood pressure)
      – Extremities feel cold
      – Decreased urine output
      – Decreased level of consciousness

    • This question is part of the following fields:

      • Nephrology
      30.4
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  • Question 11 - A 45-year-old man comes in with vomiting, disorientation, and decreased urine production. His...

    Incorrect

    • A 45-year-old man comes in with vomiting, disorientation, and decreased urine production. His creatinine levels have increased by 150% compared to his usual levels over the past week. After conducting additional tests, the patient is diagnosed with acute kidney injury (AKI).
      What stage of AKI does he fall under?

      Your Answer: Stage 3

      Correct Answer: Stage 2

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This leads to the accumulation of urea and other waste products in the body, as well as disturbances in fluid balance and electrolyte levels. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      AKI is categorized into three stages based on specific criteria. In stage 1, there is a rise in creatinine levels of 26 micromol/L or more within 48 hours, or a rise of 50-99% from baseline within 7 days (1.5-1.99 times the baseline). Additionally, a urine output of less than 0.5 mL/kg/hour for more than 6 hours is indicative of stage 1 AKI.

      Stage 2 AKI is characterized by a creatinine rise of 100-199% from baseline within 7 days (2.0-2.99 times the baseline), or a urine output of less than 0.5 mL/kg/hour for more than 12 hours.

      In stage 3 AKI, there is a creatinine rise of 200% or more from baseline within 7 days (3.0 or more times the baseline). Alternatively, a creatinine rise to 354 micromol/L or more with an acute rise of 26 micromol/L or more within 48 hours, or a rise of 50% or more within 7 days, is indicative of stage 3 AKI. Additionally, a urine output of less than 0.3 mL/kg/hour for 24 hours or anuria (no urine output) for 12 hours also falls under stage 3 AKI.

    • This question is part of the following fields:

      • Nephrology
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  • Question 12 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Incorrect

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 2 days, leading to a diagnosis of acute kidney injury (AKI).
      Which of the following is NOT a cause of AKI that occurs after the kidneys?

      Your Answer: Retroperitoneal fibrosis

      Correct Answer: Renal artery stenosis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of urea and other waste products in the body and disrupts the balance of fluids and electrolytes. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases that develop outside of healthcare settings are due to pre-renal causes, accounting for 90% of cases. These causes typically involve low blood pressure associated with conditions like sepsis and fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated.

      Pre-renal:
      – Volume depletion (e.g., severe bleeding, excessive vomiting or diarrhea, burns)
      – Oedematous states (e.g., heart failure, liver cirrhosis, nephrotic syndrome)
      – Low blood pressure (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe heart failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular diseases (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged lack of blood supply
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular diseases (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Kidney stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal

    • This question is part of the following fields:

      • Nephrology
      79
      Seconds
  • Question 13 - A 45-year-old man comes in with vomiting, disorientation, and decreased urine production. His...

    Correct

    • A 45-year-old man comes in with vomiting, disorientation, and decreased urine production. His creatinine levels have increased by 50% compared to his usual levels over the past week. After conducting additional tests, the patient is diagnosed with acute kidney injury (AKI).
      What stage of AKI does he fall under?

      Your Answer: Stage 1

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This leads to the accumulation of urea and other waste products in the body, as well as disturbances in fluid balance and electrolyte levels. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      AKI is categorized into three stages based on specific criteria. In stage 1, there is a rise in creatinine levels of 26 micromol/L or more within 48 hours, or a rise of 50-99% from baseline within 7 days (1.5-1.99 times the baseline). Additionally, a urine output of less than 0.5 mL/kg/hour for more than 6 hours is indicative of stage 1 AKI.

      Stage 2 AKI is characterized by a creatinine rise of 100-199% from baseline within 7 days (2.0-2.99 times the baseline), or a urine output of less than 0.5 mL/kg/hour for more than 12 hours.

      In stage 3 AKI, there is a creatinine rise of 200% or more from baseline within 7 days (3.0 or more times the baseline). Alternatively, a creatinine rise to 354 micromol/L or more with an acute rise of 26 micromol/L or more within 48 hours, or a rise of 50% or more within 7 days, is indicative of stage 3 AKI. Additionally, a urine output of less than 0.3 mL/kg/hour for 24 hours or anuria (no urine output) for 12 hours also falls under stage 3 AKI.

    • This question is part of the following fields:

      • Nephrology
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  • Question 14 - A 60-year-old individual comes in with symptoms of nausea, confusion, and decreased urine...

    Correct

    • A 60-year-old individual comes in with symptoms of nausea, confusion, and decreased urine output. After conducting renal function tests and other examinations, the doctor determines that the patient has acute kidney injury (AKI).
      What findings align with a diagnosis of AKI?

      Your Answer: A fall in urine output to less than 0.5 mL/kg/hour for more than 6 hours

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function that leads to the accumulation of waste products and disturbances in fluid and electrolyte balance. This can occur in individuals with previously normal kidney function or those with pre-existing kidney disease (acute-on-chronic kidney disease). AKI is relatively common, affecting approximately 15% of adults admitted to hospitals in the UK.

      The clinical presentation of AKI varies depending on the underlying cause and the severity of the condition. Typically, patients experience reduced urine output (oliguria or anuria) along with an increase in serum creatinine levels. AKI is diagnosed when at least one of the following criteria is met: a rise in serum creatinine of 26 μmol/L or more within 48 hours, a 50% or greater increase in serum creatinine (1.5 times the baseline) within the previous seven days, or a decrease in urine output to less than 0.5 mL/kg/hour for more than six hours.

      Common symptoms of AKI include reduced urine output, which is usually oliguria or anuria. However, polyuria can also occur due to impaired fluid reabsorption by damaged renal tubules or the osmotic effect of accumulated metabolites. Abrupt anuria may indicate an acute obstruction, severe glomerulonephritis, or renal artery occlusion, while a gradual decrease in urine output may suggest a urethral stricture or bladder outlet obstruction, such as benign prostatic hyperplasia. Other symptoms may include nausea, vomiting, dehydration, and confusion.

      Signs of AKI can include hypertension, a palpable bladder if urinary retention is present, dehydration with postural hypotension and no swelling, or fluid overload with elevated jugular venous pressure (JVP), pulmonary edema, and peripheral edema.

    • This question is part of the following fields:

      • Nephrology
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  • Question 15 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Correct

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only produced a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      What is an example of an intrinsic renal cause of AKI?

      Your Answer: Acute tubular necrosis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of urea and other waste products in the body and disrupts the balance of fluids and electrolytes. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases that develop outside of healthcare settings are due to pre-renal causes, accounting for 90% of cases. These causes typically involve low blood pressure associated with conditions like sepsis and fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated.

      Pre-renal:
      – Volume depletion (e.g., severe bleeding, excessive vomiting or diarrhea, burns)
      – Oedematous states (e.g., heart failure, liver cirrhosis, nephrotic syndrome)
      – Low blood pressure (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe heart failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular diseases (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged lack of blood supply
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular diseases (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Kidney stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal

    • This question is part of the following fields:

      • Nephrology
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  • Question 16 - A 6-year-old boy is brought to the Emergency Department by his father. For...

    Incorrect

    • A 6-year-old boy is brought to the Emergency Department by his father. For the past two days, he has been experiencing severe diarrhea and vomiting. He has not urinated today. He typically weighs 25 kg.

      What is the child's hourly maintenance fluid requirement when he is in good health?

      Your Answer: 75 ml/hour

      Correct Answer: 65 ml/hour

      Explanation:

      The intravascular volume of an infant is approximately 80 ml/kg, while in older children it is around 70 ml/kg. Dehydration itself does not lead to death, but shock can occur when there is a loss of 20 ml/kg from the intravascular space. Clinical dehydration becomes evident only after total losses greater than 25 ml/kg.

      The table below summarizes the maintenance fluid requirements for well, normal children:

      Bodyweight:
      – First 10 kg: Daily fluid requirement of 100 ml/kg and hourly fluid requirement of 4 ml/kg.
      – Second 10 kg: Daily fluid requirement of 50 ml/kg and hourly fluid requirement of 2 ml/kg.
      – Subsequent kg: Daily fluid requirement of 20 ml/kg and hourly fluid requirement of 1 ml/kg.

      Based on this information, the hourly maintenance fluid requirements for this child can be calculated as follows:

      – First 10 kg: 4 ml/kg = 40 ml
      – Second 10 kg: 2 ml/kg = 20 ml
      – Subsequent kg: 1 ml/kg = 5 ml

      Therefore, the total hourly maintenance fluid requirement for this child is 65 ml.

    • This question is part of the following fields:

      • Nephrology
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  • Question 17 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Correct

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      Which of the following is NOT a cause of AKI that occurs before the kidneys?

      Your Answer: Glomerulonephritis

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of waste products and disturbances in fluid and electrolyte balance. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases in the community are due to pre-renal causes, accounting for 90% of cases. These are often associated with conditions such as hypotension from sepsis or fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated in AKI.

      The table below summarizes the most common causes of AKI:

      Pre-renal:
      – Volume depletion (e.g., hemorrhage, severe vomiting or diarrhea, burns)
      – Oedematous states (e.g., cardiac failure, liver cirrhosis, nephrotic syndrome)
      – Hypotension (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe cardiac failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, Abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular disease (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged ischemia
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular disease (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Renal stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal fibrosis

    • This question is part of the following fields:

      • Nephrology
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  • Question 18 - You analyze the results of renal function tests conducted on a patient who...

    Incorrect

    • You analyze the results of renal function tests conducted on a patient who is currently using a non-steroidal anti-inflammatory drug (NSAID). What impact would you anticipate NSAID treatment to have on renal measurements?

      Your Answer: Decreased renal plasma flow, decreased filtration fraction, decreased GFR

      Correct Answer: Decreased renal plasma flow, no change in filtration fraction, decreased GFR

      Explanation:

      NSAIDs have been found to have a relatively high occurrence of renal adverse drug reactions (ADRs). These ADRs primarily occur due to changes in renal haemodynamics caused by alterations in prostaglandin levels.

      Normally, prostaglandins play a role in dilating the afferent arteriole of the glomerulus. This dilation helps maintain normal glomerular perfusion and glomerular filtration rate (GFR).

      However, NSAIDs work by reducing prostaglandin levels. This reduction leads to unopposed vasoconstriction of the afferent arteriole, resulting in decreased renal plasma flow. Consequently, this decrease in renal plasma flow leads to a decrease in GFR. It is important to note that NSAIDs do not have any impact on the filtration fraction itself.

    • This question is part of the following fields:

      • Nephrology
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  • Question 19 - A 72-year-old man comes to the Emergency Department complaining of fatigue and overall...

    Correct

    • A 72-year-old man comes to the Emergency Department complaining of fatigue and overall feeling unwell. He is currently taking 5 mg of bendroflumethiazide every day for his high blood pressure. After conducting a complete blood test, it is discovered that his potassium level is 2.0 mmol/l. What type of acid-base disorder would you anticipate in a patient who has potassium depletion due to the use of thiazide diuretics?

      Your Answer: Metabolic alkalosis

      Explanation:

      Respiratory alkalosis can be caused by hyperventilation, such as during periods of anxiety. It can also be a result of conditions like pulmonary embolism, CNS disorders (such as stroke or encephalitis), altitude, pregnancy, or the early stages of aspirin overdose.

      Respiratory acidosis is often associated with chronic obstructive pulmonary disease (COPD) or life-threatening asthma. Other causes include pulmonary edema, sedative drug overdose (such as opiates or benzodiazepines), neuromuscular disease, obesity, or certain medications.

      Metabolic alkalosis can occur due to vomiting, potassium depletion (often caused by diuretic usage), Cushing’s syndrome, or Conn’s syndrome.

      Metabolic acidosis with a raised anion gap can be caused by conditions like lactic acidosis (which can result from hypoxemia, shock, sepsis, or infarction) or ketoacidosis (commonly seen in diabetes, starvation, or alcohol excess). Other causes include renal failure or poisoning (such as late stages of aspirin overdose, methanol, or ethylene glycol).

      Metabolic acidosis with a normal anion gap can be attributed to conditions like renal tubular acidosis, diarrhea, ammonium chloride ingestion, or adrenal insufficiency.

    • This question is part of the following fields:

      • Nephrology
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  • Question 20 - A 45 year old male presents to the emergency department with complaints of...

    Correct

    • A 45 year old male presents to the emergency department with complaints of fatigue, headache, muscle spasms, and tingling sensations in the limbs. The patient has no regular medication and no significant medical history. You decide to order blood tests for analysis. The patient's blood results and observations are as follows:

      Sodium (Na+): 152 mmol/l
      Potassium (K+): 3.3 mmol/l
      Urea: 4.0 mmol/l
      Creatinine: 71 µmol/l

      Blood pressure: 180/96 mmHg
      Pulse rate: 80
      Respiration rate: 14
      Oxygen saturation: 98% on air
      Temperature: 36.8ºC

      What is the most likely diagnosis?

      Your Answer: Conn's syndrome

      Explanation:

      Conn’s syndrome, also known as primary hyperaldosteronism, is often characterized by hypertension along with hypokalaemia and hypernatraemia. On the other hand, Addison’s disease typically leads to hypotension, hyponatremia, and hyperkalaemia. Hyponatraemia is commonly associated with pituitary adenoma, while acute renal failure (ARF) is characterized by elevated levels of urea and creatinine, and hyperkalaemia is frequently observed in ARF.

      Further Reading:

      Hyperaldosteronism is a condition characterized by excessive production of aldosterone by the adrenal glands. It can be classified into primary and secondary hyperaldosteronism. Primary hyperaldosteronism, also known as Conn’s syndrome, is typically caused by adrenal hyperplasia or adrenal tumors. Secondary hyperaldosteronism, on the other hand, is a result of high renin levels in response to reduced blood flow across the juxtaglomerular apparatus.

      Aldosterone is the main mineralocorticoid steroid hormone produced by the adrenal cortex. It acts on the distal renal tubule and collecting duct of the nephron, promoting the reabsorption of sodium ions and water while secreting potassium ions.

      The causes of hyperaldosteronism vary depending on whether it is primary or secondary. Primary hyperaldosteronism can be caused by adrenal adenoma, adrenal hyperplasia, adrenal carcinoma, or familial hyperaldosteronism. Secondary hyperaldosteronism can be caused by renal artery stenosis, reninoma, renal tubular acidosis, nutcracker syndrome, ectopic tumors, massive ascites, left ventricular failure, or cor pulmonale.

      Clinical features of hyperaldosteronism include hypertension, hypokalemia, metabolic alkalosis, hypernatremia, polyuria, polydipsia, headaches, lethargy, muscle weakness and spasms, and numbness. It is estimated that hyperaldosteronism is present in 5-10% of patients with hypertension, and hypertension in primary hyperaldosteronism is often resistant to drug treatment.

      Diagnosis of hyperaldosteronism involves various investigations, including U&Es to assess electrolyte disturbances, aldosterone-to-renin plasma ratio (ARR) as the gold standard diagnostic test, ECG to detect arrhythmia, CT/MRI scans to locate adenoma, fludrocortisone suppression test or oral salt testing to confirm primary hyperaldosteronism, genetic testing to identify familial hyperaldosteronism, and adrenal venous sampling to determine lateralization prior to surgery.

      Treatment of primary hyperaldosteronism typically involves surgical adrenalectomy for patients with unilateral primary aldosteronism. Diet modification with sodium restriction and potassium supplementation may also be recommended.

    • This question is part of the following fields:

      • Nephrology
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  • Question 21 - A 68 year old male is brought into the emergency department with a...

    Incorrect

    • A 68 year old male is brought into the emergency department with a two week history of worsening nausea, muscle aches, fatigue, and weakness. You send urine and blood samples for analysis. The results are shown below:

      Na+ 126 mmol/l
      K+ 5.3 mmol/l
      Urea 7.0 mmol/l
      Creatinine 90 µmol/l
      Glucose 6.0 mmol/l
      Urine osmolality 880 mosmol/kg

      You review the patient's medications. Which drug is most likely responsible for this patient's symptoms?

      Your Answer: Lithium

      Correct Answer: Sertraline

      Explanation:

      This patient is experiencing hyponatremia, which is characterized by low plasma osmolality and high urine osmolality, indicating syndrome of inappropriate antidiuretic hormone secretion (SIADH). One of the most common causes of SIADH is the use of SSRIs. On the other hand, lithium, sodium bicarbonate, and corticosteroids are known to cause hypernatremia. Plasma osmolality can be calculated using the formula (2 x Na) + Glucose + Urea. In this patient, the calculated osmolality is 265 mosmol/kg, which falls within the normal range of 275-295 mosmol/kg.

      Further Reading:

      Syndrome of inappropriate antidiuretic hormone (SIADH) is a condition characterized by low sodium levels in the blood due to excessive secretion of antidiuretic hormone (ADH). ADH, also known as arginine vasopressin (AVP), is responsible for promoting water and sodium reabsorption in the body. SIADH occurs when there is impaired free water excretion, leading to euvolemic (normal fluid volume) hypotonic hyponatremia.

      There are various causes of SIADH, including malignancies such as small cell lung cancer, stomach cancer, and prostate cancer, as well as neurological conditions like stroke, subarachnoid hemorrhage, and meningitis. Infections such as tuberculosis and pneumonia, as well as certain medications like thiazide diuretics and selective serotonin reuptake inhibitors (SSRIs), can also contribute to SIADH.

      The diagnostic features of SIADH include low plasma osmolality, inappropriately elevated urine osmolality, urinary sodium levels above 30 mmol/L, and euvolemic. Symptoms of hyponatremia, which is a common consequence of SIADH, include nausea, vomiting, headache, confusion, lethargy, muscle weakness, seizures, and coma.

      Management of SIADH involves correcting hyponatremia slowly to avoid complications such as central pontine myelinolysis. The underlying cause of SIADH should be treated if possible, such as discontinuing causative medications. Fluid restriction is typically recommended, with a daily limit of around 1000 ml for adults. In severe cases with neurological symptoms, intravenous hypertonic saline may be used. Medications like demeclocycline, which blocks ADH receptors, or ADH receptor antagonists like tolvaptan may also be considered.

      It is important to monitor serum sodium levels closely during treatment, especially if using hypertonic saline, to prevent rapid correction that can lead to central pontine myelinolysis. Osmolality abnormalities can help determine the underlying cause of hyponatremia, with increased urine osmolality indicating dehydration or renal disease, and decreased urine osmolality suggesting SIADH or overhydration.

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      • Nephrology
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  • Question 22 - You are asked to review a 7-year-old girl that is feeling sick in...

    Correct

    • You are asked to review a 7-year-old girl that is feeling sick in the Paediatric Emergency Department. You observe from her urea & electrolytes that her potassium is elevated at 6.2 mmol/l.

      What is the most frequent cause of hyperkalaemia in children?

      Your Answer: Renal failure

      Explanation:

      Hyperkalaemia is a condition characterized by a high level of potassium in the blood, specifically a plasma potassium level greater than 5.5 mmol/l. It can be further classified into three categories based on the severity of the condition. Mild hyperkalaemia refers to a potassium level ranging from 5.5-5.9 mmol/l, while moderate hyperkalaemia is defined as a potassium level between 6.0-6.4 mmol/l. Severe hyperkalaemia is indicated by a potassium level exceeding 6.5 mmol/l.

      The most common cause of hyperkalaemia in renal failure, which can occur either acutely or chronically. However, there are other factors that can contribute to this condition as well. These include acidosis, adrenal insufficiency, cell lysis, and excessive potassium intake.

      Overall, hyperkalaemia is a medical condition that requires attention and management, as it can have significant implications for the body’s normal functioning.

    • This question is part of the following fields:

      • Nephrology
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  • Question 23 - A 45-year-old woman comes in with nausea, disorientation, and decreased urine production. Her...

    Correct

    • A 45-year-old woman comes in with nausea, disorientation, and decreased urine production. Her urine output has dropped to 0.4 mL/kg/hour over the last 15 hours. After conducting additional tests, she is diagnosed with acute kidney injury (AKI).
      What stage of AKI does she have?

      Your Answer: Stage 2

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This leads to the accumulation of urea and other waste products in the body, as well as disturbances in fluid balance and electrolyte levels. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      AKI is categorized into three stages based on specific criteria. In stage 1, there is a rise in creatinine levels of 26 micromol/L or more within 48 hours, or a rise of 50-99% from baseline within 7 days (1.5-1.99 times the baseline). Additionally, a urine output of less than 0.5 mL/kg/hour for more than 6 hours is indicative of stage 1 AKI.

      Stage 2 AKI is characterized by a creatinine rise of 100-199% from baseline within 7 days (2.0-2.99 times the baseline), or a urine output of less than 0.5 mL/kg/hour for more than 12 hours.

      In stage 3 AKI, there is a creatinine rise of 200% or more from baseline within 7 days (3.0 or more times the baseline). Alternatively, a creatinine rise to 354 micromol/L or more with an acute rise of 26 micromol/L or more within 48 hours, or a rise of 50% or more within 7 days, is indicative of stage 3 AKI. Additionally, a urine output of less than 0.3 mL/kg/hour for 24 hours or anuria (no urine output) for 12 hours also falls under stage 3 AKI.

    • This question is part of the following fields:

      • Nephrology
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  • Question 24 - A 5-year-old girl is brought to the Emergency Department by her parents. For...

    Incorrect

    • A 5-year-old girl is brought to the Emergency Department by her parents. For the past two days, she has had severe diarrhoea and vomiting. She has not passed urine so far today. She usually weighs 20 kg. On examination, she has sunken eyes and dry mucous membranes. She is tachycardia and tachypnoeic and has cool peripheries. Her capillary refill time is prolonged.
      What volume of fluid would you administer for your initial fluid bolus?

      Your Answer: 300 ml

      Correct Answer: 600 ml

      Explanation:

      Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. When we say 5% dehydration, it means that the body has lost 5 grams per 100 grams of body weight, which is equivalent to 50 milliliters per kilogram of fluid. Similarly, 10% dehydration implies a fluid loss of 100 milliliters per kilogram of fluid.

      In the case of this child, they are 10% dehydrated, which means they have lost 100 milliliters per kilogram of fluid. Considering their weight of 30 kilograms, their estimated fluid loss amounts to 100 multiplied by 30, which equals 3000 milliliters.

      Since this child is also in shock, they should receive a fluid bolus of 20 milliliters per kilogram. Therefore, the initial volume of fluid to administer would be 20 multiplied by 30 milliliters, resulting in 600 milliliters.

      To summarize the clinical features of dehydration and shock, please refer below:

      Dehydration (5%):
      – The child appears unwell
      – Normal heart rate or tachycardia
      – Normal respiratory rate or tachypnea
      – Normal peripheral pulses
      – Normal or mildly prolonged capillary refill time (CRT)
      – Normal blood pressure
      – Warm extremities
      – Decreased urine output
      – Reduced skin turgor
      – Sunken eyes
      – Depressed fontanelle
      – Dry mucous membranes

      Clinical shock (10%):
      – Pale, lethargic, mottled appearance
      – Tachycardia
      – Tachypnea
      – Weak peripheral pulses
      – Prolonged capillary refill time (CRT)
      – Hypotension
      – Cold extremities
      – Decreased urine output
      – Decreased level of consciousness

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      • Nephrology
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  • Question 25 - You review a patient with a history of renal failure that has presented...

    Correct

    • You review a patient with a history of renal failure that has presented with nausea, fatigue, and sleepiness. Upon reviewing her blood results today, you note that her glomerular filtration rate has recently fallen significantly. She has no other medical history of note.

      At what level should patients generally begin dialysis when their glomerular filtration rate (GFR) reaches?

      Your Answer: 10 ml/minute

      Explanation:

      Patients typically initiate dialysis when their glomerular filtration rate (GFR) drops to 10 ml/min. However, if the patient has diabetes, dialysis may be recommended when their GFR reaches 15 ml/min. The GFR is a measure of kidney function and indicates how well the kidneys are able to filter waste products from the blood. Dialysis is a medical procedure that helps perform the function of the kidneys by removing waste and excess fluid from the body.

    • This question is part of the following fields:

      • Nephrology
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  • Question 26 - A 5-year-old girl is brought to the Emergency Department by her parents. For...

    Incorrect

    • A 5-year-old girl is brought to the Emergency Department by her parents. For the past two days, she has had severe diarrhea and vomiting. She has not passed urine so far today. She normally weighs 20 kg. On examination, she has sunken eyes and dry mucous membranes. She is tachycardic and tachypneic and has cool peripheries. Her capillary refill time is prolonged.
      What is her estimated fluid loss?

      Your Answer: 500 ml

      Correct Answer: 3000 ml

      Explanation:

      Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. When a child is 5% dehydrated, it means that their body has lost 5 grams of fluid per 100 grams of body weight, which is equivalent to 50 ml of fluid per kilogram. In the case of 10% dehydration, the body has lost 100 ml of fluid per kilogram.

      For example, if a child is 10% dehydrated and weighs 30 kilograms, their estimated fluid loss would be 100 ml/kg x 30 kg = 3000 ml.

      The clinical features of dehydration and shock are summarized below:

      Dehydration (5%):
      – The child appears unwell
      – Their heart rate may be normal or increased (tachycardia)
      – Their respiratory rate may be normal or increased (tachypnea)
      – Peripheral pulses are normal
      – Capillary refill time (CRT) is normal or slightly prolonged
      – Blood pressure is normal
      – Extremities feel warm
      – Urine output is decreased
      – Skin turgor is reduced
      – Eyes may appear sunken
      – The fontanelle (soft spot on the baby’s head) may be depressed
      – Mucous membranes are dry

      Clinical shock (10%):
      – The child appears pale, lethargic, and mottled
      – Heart rate is increased (tachycardia)
      – Respiratory rate is increased (tachypnea)
      – Peripheral pulses are weak
      – Capillary refill time (CRT) is prolonged
      – Blood pressure is low (hypotension)
      – Extremities feel cold
      – Urine output is decreased
      – Level of consciousness is decreased

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      • Nephrology
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  • Question 27 - You review a 70-year-old man with a history of hypertension and atrial fibrillation,...

    Incorrect

    • You review a 70-year-old man with a history of hypertension and atrial fibrillation, who is currently on the clinical decision unit (CDU). His most recent blood results reveal significant renal impairment.

      His current medications are as follows:
      Digoxin 250 mcg once daily
      Atenolol 50 mg once daily
      Aspirin 75 mg once daily

      What is the SINGLE most suitable medication adjustment to initiate for this patient?

      Your Answer: No medication changes are required

      Correct Answer: Reduce dose of digoxin

      Explanation:

      Digoxin is eliminated through the kidneys, and if renal function is compromised, it can lead to elevated levels of digoxin and potential toxicity. To address this issue, it is necessary to decrease the patient’s digoxin dosage and closely monitor their digoxin levels and electrolyte levels.

    • This question is part of the following fields:

      • Nephrology
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  • Question 28 - A 65-year-old patient presents with nausea and vomiting and decreased urine output. He...

    Correct

    • A 65-year-old patient presents with nausea and vomiting and decreased urine output. He has only passed a small amount of urine in the last day, and he has noticeable swelling in his ankles. His blood tests show a sudden increase in his creatinine levels in the last 48 hours, leading to a diagnosis of acute kidney injury (AKI).
      What is a potential pre-renal cause of AKI in this patient?

      Your Answer: Cardiac failure

      Explanation:

      Acute kidney injury (AKI), previously known as acute renal failure, is a sudden decline in kidney function. This results in the accumulation of waste products and disturbances in fluid and electrolyte balance. AKI can occur in individuals with previously normal kidney function or those with pre-existing kidney disease, known as acute-on-chronic kidney disease. It is a relatively common condition, with approximately 15% of adults admitted to hospitals in the UK developing AKI.

      The causes of AKI can be categorized into pre-renal, intrinsic renal, and post-renal factors. The majority of AKI cases in the community are due to pre-renal causes, accounting for 90% of cases. These are often associated with conditions such as hypotension from sepsis or fluid depletion. Medications, particularly ACE inhibitors and NSAIDs, are also frequently implicated in AKI.

      The table below summarizes the most common causes of AKI:

      Pre-renal:
      – Volume depletion (e.g., hemorrhage, severe vomiting or diarrhea, burns)
      – Oedematous states (e.g., cardiac failure, liver cirrhosis, nephrotic syndrome)
      – Hypotension (e.g., cardiogenic shock, sepsis, anaphylaxis)
      – Cardiovascular conditions (e.g., severe cardiac failure, arrhythmias)
      – Renal hypoperfusion: NSAIDs, COX-2 inhibitors, ACE inhibitors or ARBs, Abdominal aortic aneurysm
      – Renal artery stenosis
      – Hepatorenal syndrome

      Intrinsic renal:
      – Glomerular disease (e.g., glomerulonephritis, thrombosis, hemolytic-uremic syndrome)
      – Tubular injury: acute tubular necrosis (ATN) following prolonged ischemia
      – Acute interstitial nephritis due to drugs (e.g., NSAIDs), infection, or autoimmune diseases
      – Vascular disease (e.g., vasculitis, polyarteritis nodosa, thrombotic microangiopathy, cholesterol emboli, renal vein thrombosis, malignant hypertension)
      – Eclampsia

      Post-renal:
      – Renal stones
      – Blood clot
      – Papillary necrosis
      – Urethral stricture
      – Prostatic hypertrophy or malignancy
      – Bladder tumor
      – Radiation fibrosis
      – Pelvic malignancy
      – Retroperitoneal fibrosis

    • This question is part of the following fields:

      • Nephrology
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  • Question 29 - You are asked to assess a patient with a plasma potassium level of...

    Incorrect

    • You are asked to assess a patient with a plasma potassium level of 6.7 mmol/L.
      What is the SINGLE LEAST probable reason for this?

      Your Answer: Beta-blockers

      Correct Answer: Bartter’s syndrome

      Explanation:

      Bartter’s syndrome is a rare genetic defect that affects the ascending limb of the loop of Henle. This condition is characterized by low blood pressure and a hypokalemic alkalosis, which means there is a decrease in potassium levels in the blood.

      Hyperkalemia, on the other hand, is defined as having a plasma potassium level greater than 5.5 mmol/L. There are various non-drug factors that can cause hyperkalemia, such as renal failure, excessive potassium supplementation, Addison’s disease (adrenal insufficiency), congenital adrenal hyperplasia, renal tubular acidosis (type 4), rhabdomyolysis, burns and trauma, and tumor lysis syndrome. Additionally, acidosis can also contribute to the development of hyperkalemia.

      In addition to these non-drug causes, certain medications can also lead to hyperkalemia. These include ACE inhibitors, angiotensin receptor blockers, NSAIDs, beta-blockers, digoxin, and suxamethonium. It is important to be aware of these potential causes and to monitor potassium levels in order to prevent and manage hyperkalemia effectively.

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      • Nephrology
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  • Question 30 - A 14-month-old girl is brought to the Emergency Department by her father. For...

    Incorrect

    • A 14-month-old girl is brought to the Emergency Department by her father. For the past three days, she has been experiencing severe diarrhea. She has not had any wet diapers today and is lethargic and not behaving as usual. She was recently weighed by her pediatrician's nurse and was 9 kg. During examination, she has dry mucous membranes and decreased skin elasticity, but her capillary refill time (CRT) is normal and her vital signs are within normal range.
      What is her approximate fluid loss?

      Your Answer: 500 ml

      Correct Answer: 400 ml

      Explanation:

      Generally speaking, if a child shows clinical signs of dehydration but does not exhibit shock, it can be assumed that they are 5% dehydrated. On the other hand, if shock is also present, it can be assumed that the child is 10% dehydrated or more. When we say 5% dehydration, it means that the body has lost 5 grams of fluid per 100 grams of body weight, which is equivalent to 50 ml of fluid per kilogram. Similarly, 10% dehydration implies a fluid loss of 100 ml per kilogram of body weight.

      In the case of this child, who is 5% dehydrated, we can estimate that she has lost 50 ml of fluid per kilogram. Considering her weight of 8 kilograms, her estimated fluid loss would be 400 ml.

      The clinical features of dehydration and shock are summarized below:

      Dehydration (5%):
      – The child appears unwell
      – Normal heart rate or tachycardia
      – Normal respiratory rate or tachypnea
      – Normal peripheral pulses
      – Normal or mildly prolonged capillary refill time (CRT)
      – Normal blood pressure
      – Warm extremities
      – Decreased urine output
      – Reduced skin turgor
      – Sunken eyes
      – Depressed fontanelle
      – Dry mucous membranes

      Clinical shock (10%):
      – Pale, lethargic, mottled appearance
      – Tachycardia
      – Tachypnea
      – Weak peripheral pulses
      – Prolonged capillary refill time (CRT)
      – Hypotension
      – Cold extremities
      – Decreased urine output
      – Decreased level of consciousness

    • This question is part of the following fields:

      • Nephrology
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