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  • Question 1 - An 80-year-old man presents to the emergency department with complaints of chest pain,...

    Incorrect

    • An 80-year-old man presents to the emergency department with complaints of chest pain, dizziness, and palpitations. He has a medical history of mitral stenosis and denies any alcohol or smoking habits. Upon conducting an ECG, it is observed that lead I shows positively directed sawtooth deflections, while leads II, III, and aVF show negatively directed sawtooth deflections. What pathology does this finding suggest?

      Your Answer: Ventricular fibrillation

      Correct Answer: Atrial flutter

      Explanation:

      Atrial flutter is identified by a sawtooth pattern on the ECG and is a type of supraventricular tachycardia. It occurs when electrical activity from the sinoatrial node reenters the atria instead of being conducted to the ventricles. Valvular heart disease is a risk factor, and atrial flutter is managed similarly to atrial fibrillation.

      Left bundle branch block causes a delayed contraction of the left ventricle and is identified by a W pattern in V1 and an M pattern in V6 on an ECG. It does not produce a sawtooth pattern on the ECG.

      Ventricular fibrillation is characterized by chaotic electrical conduction in the ventricles, resulting in a lack of normal ventricular contraction. It can cause cardiac arrest and requires advanced life support management.

      Wolff-Parkinson-White syndrome is caused by an accessory pathway between the atria and the ventricles and is identified by a slurred upstroke at the beginning of the QRS complex, known as a delta wave. It can present with symptoms such as palpitations, shortness of breath, and syncope.

      Atrial flutter is a type of supraventricular tachycardia that is characterized by a series of rapid atrial depolarization waves. This condition can be identified through ECG findings, which show a sawtooth appearance. The underlying atrial rate is typically around 300 beats per minute, which can affect the ventricular or heart rate depending on the degree of AV block. For instance, if there is a 2:1 block, the ventricular rate will be 150 beats per minute. Flutter waves may also be visible following carotid sinus massage or adenosine.

      Managing atrial flutter is similar to managing atrial fibrillation, although medication may be less effective. However, atrial flutter is more sensitive to cardioversion, so lower energy levels may be used. For most patients, radiofrequency ablation of the tricuspid valve isthmus is curative.

    • This question is part of the following fields:

      • Cardiovascular System
      4259.6
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  • Question 2 - A 50-year-old patient is admitted to the cardiology department with infective endocarditis. While...

    Incorrect

    • A 50-year-old patient is admitted to the cardiology department with infective endocarditis. While examining the patient's hands, the physician observes a collapsing pulse. What other findings can be expected during the examination?

      Your Answer: Diastolic murmur in the mitral area

      Correct Answer: Diastolic murmur in the aortic area

      Explanation:

      Aortic regurgitation is often associated with a collapsing pulse, which is a clinical sign. This condition occurs when the aortic valve allows blood to flow back into the left ventricle during diastole. As a result, a diastolic murmur can be heard in the aortic area. While infective endocarditis can cause aortic regurgitation, it can also affect other valves in the heart, leading to a diastolic murmur in the pulmonary area. However, this would not cause a collapsing pulse. A diastolic murmur in the mitral area is indicative of mitral stenosis, which is not associated with a collapsing pulse. Aortic stenosis, which is characterized by restricted blood flow between the left ventricle and aorta, is associated with an ejection systolic murmur in the aortic area, but not a collapsing pulse. Finally, mitral valve regurgitation, which affects blood flow between the left atrium and ventricle, is associated with a pansystolic murmur in the mitral area, but not a collapsing pulse.

      Aortic regurgitation is a condition where the aortic valve of the heart leaks, causing blood to flow in the opposite direction during ventricular diastole. This can be caused by disease of the aortic valve or by distortion or dilation of the aortic root and ascending aorta. The most common causes of AR due to valve disease include rheumatic fever, calcific valve disease, and infective endocarditis. On the other hand, AR due to aortic root disease can be caused by conditions such as aortic dissection, hypertension, and connective tissue diseases like Marfan’s and Ehler-Danlos syndrome.

      The features of AR include an early diastolic murmur, a collapsing pulse, wide pulse pressure, Quincke’s sign, and De Musset’s sign. In severe cases, a mid-diastolic Austin-Flint murmur may also be present. Suspected AR should be investigated with echocardiography.

      Management of AR involves medical management of any associated heart failure and surgery in symptomatic patients with severe AR or asymptomatic patients with severe AR who have LV systolic dysfunction.

    • This question is part of the following fields:

      • Cardiovascular System
      9.3
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  • Question 3 - An 68-year-old woman is presented to the vascular clinic with a painful ulcer...

    Incorrect

    • An 68-year-old woman is presented to the vascular clinic with a painful ulcer on the anterior aspect of her shin. She reports experiencing pain in the same leg at night and while sitting in a chair.

      The patient has a medical history of diabetes for 11 years, hypertension for 12 years, and has been a smoker for over 50 years.

      Upon examination, a pale ulcer with a 'punched out' appearance is observed. The patient declines further examination.

      Based on the given clinical scenario, what is the most probable type of ulcer?

      Your Answer:

      Correct Answer: Arterial ulcer

      Explanation:

      The correct answer is arterial ulcer. These types of leg ulcers are typically pale, painful, and have a punched-out appearance. They are often associated with peripheral vascular disease, which is likely in this patient given her cardiovascular risk factors and claudication pain. The fact that she experiences pain while sitting down suggests critical ischemia. Venous ulcers, on the other hand, appear red and oozing with irregular margins and are usually associated with varicose veins, edema, or lipodermatosclerosis. Marjolin ulcers are a malignant transformation of chronic ulcers into squamous cell carcinoma, while neuropathic ulcers typically occur over pressure areas such as the sole of the foot and are associated with a sensory neuropathy. Although this patient has diabetes, the history and appearance of the ulcer are more consistent with an arterial ulcer.

      Venous leg ulcers are caused by venous hypertension and can be managed with compression banding. Marjolin’s ulcers are a type of squamous cell carcinoma that occur at sites of chronic inflammation. Arterial ulcers are painful and occur on the toes and heel, while neuropathic ulcers commonly occur over the plantar surface of the metatarsal head and hallux. Pyoderma gangrenosum is associated with inflammatory bowel disease and can present as erythematous nodules or pustules that ulcerate.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 4 - Evelyn is a 92-year-old woman who arrives at the hospital with severe chest...

    Incorrect

    • Evelyn is a 92-year-old woman who arrives at the hospital with severe chest pain, shortness of breath, and palpitations. Given her medical history of angina and diabetes mellitus, doctors suspect acute coronary syndrome. They order several tests, including a troponin I blood test. What is the function of this biomarker in the body?

      Your Answer:

      Correct Answer: Binds to actin to hold the troponin-tropomyosin complex in place

      Explanation:

      Troponin I plays a crucial role in muscle contraction by binding to actin and holding the troponin-tropomyosin complex in place. This prevents the myosin-binding site on the actin from being exposed, thereby preventing muscle contraction. Troponin I is also used as a marker for myocardial muscle injury.

      Unlike troponin C, troponin I does not bind to calcium. Instead, troponin C has several calcium-binding sites that, when occupied, cause a conformational change in the troponin-tropomyosin complex. This change exposes the myosin-binding site on the actin filament, allowing myosin to bind and initiate muscle contraction.

      Although troponin I binds to actin, it does not perform the power stroke that shortens muscle fibers. This is the role of the myosin head, which uses energy from ATP.

      It is troponin T, not troponin I, that binds with tropomyosin to form the troponin-tropomyosin complex. This complex allows tropomyosin to move in response to the conformational change induced by calcium binding to troponin C.

      Finally, it is tropomyosin, not troponin I, that directly inhibits myosin-binding sites. Tropomyosin is a long fiber that runs along the side of actin filaments, blocking all myosin binding sites. When calcium concentrations within the cell increase, the conformational change in troponin moves tropomyosin, exposing these sites and allowing muscle contraction to occur.

      Understanding Troponin: The Proteins Involved in Muscle Contraction

      Troponin is a group of three proteins that play a crucial role in the contraction of skeletal and cardiac muscles. These proteins work together to regulate the interaction between actin and myosin, which is essential for muscle contraction. The three subunits of troponin are troponin C, troponin T, and troponin I.

      Troponin C is responsible for binding to calcium ions, which triggers the contraction of muscle fibers. Troponin T binds to tropomyosin, forming a complex that helps regulate the interaction between actin and myosin. Finally, troponin I binds to actin, holding the troponin-tropomyosin complex in place and preventing muscle contraction when it is not needed.

      Understanding the role of troponin is essential for understanding how muscles work and how they can be affected by various diseases and conditions. By regulating the interaction between actin and myosin, troponin plays a critical role in muscle contraction and is a key target for drugs used to treat conditions such as heart failure and skeletal muscle disorders.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 5 - A 50-year-old woman comes to you complaining of increased urinary frequency and lower...

    Incorrect

    • A 50-year-old woman comes to you complaining of increased urinary frequency and lower abdominal pain. She has a medical history of hypertension that is managed with a high dose of ramipril.

      Upon conducting a urine dipstick test, the results indicate a urinary tract infection. You prescribe a 5-day course of trimethoprim.

      What blood test will require monitoring in this patient?

      Your Answer:

      Correct Answer: Urea and electrolytes

      Explanation:

      Patients taking ACE-inhibitors should be cautious when using trimethoprim as it can lead to life-threatening hyperkalaemia, which may result in sudden death. Therefore, it is essential to monitor the potassium levels regularly by conducting urea and electrolyte tests.

      When using trimethoprim with methotrexate, it is crucial to monitor the complete blood count regularly due to the increased risk of myelosuppression. However, if the patient is only taking trimethoprim, there is no need to monitor troponins and creatine kinase.

      Angiotensin-converting enzyme (ACE) inhibitors are commonly used as the first-line treatment for hypertension and heart failure in younger patients. However, they may not be as effective in treating hypertensive Afro-Caribbean patients. ACE inhibitors are also used to treat diabetic nephropathy and prevent ischaemic heart disease. These drugs work by inhibiting the conversion of angiotensin I to angiotensin II and are metabolized in the liver.

      While ACE inhibitors are generally well-tolerated, they can cause side effects such as cough, angioedema, hyperkalaemia, and first-dose hypotension. Patients with certain conditions, such as renovascular disease, aortic stenosis, or hereditary or idiopathic angioedema, should use ACE inhibitors with caution or avoid them altogether. Pregnant and breastfeeding women should also avoid these drugs.

      Patients taking high-dose diuretics may be at increased risk of hypotension when using ACE inhibitors. Therefore, it is important to monitor urea and electrolyte levels before and after starting treatment, as well as any changes in creatinine and potassium levels. Acceptable changes include a 30% increase in serum creatinine from baseline and an increase in potassium up to 5.5 mmol/l. Patients with undiagnosed bilateral renal artery stenosis may experience significant renal impairment when using ACE inhibitors.

      The current NICE guidelines recommend using a flow chart to manage hypertension, with ACE inhibitors as the first-line treatment for patients under 55 years old. However, individual patient factors and comorbidities should be taken into account when deciding on the best treatment plan.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 6 - A 78-year-old woman has recently been diagnosed with heart failure following 10 months...

    Incorrect

    • A 78-year-old woman has recently been diagnosed with heart failure following 10 months of progressive ankle swelling and shortness of breath. She has been prescribed various medications, provided with lifestyle recommendations, and informed about her prognosis. Due to her new diagnosis, what are the two types of valve dysfunction that she is most susceptible to?

      Your Answer:

      Correct Answer: Mitral regurgitation and tricuspid regurgitation

      Explanation:

      Functional mitral and tricuspid regurgitations are the most frequent valve dysfunctions that occur as a result of heart failure. This is due to the fact that the enlarged ventricles prevent the valves from fully closing during diastole.

      Diagnosis of Chronic Heart Failure

      Chronic heart failure is a serious condition that requires prompt diagnosis and management. In 2018, the National Institute for Health and Care Excellence (NICE) updated its guidelines on the diagnosis and management of chronic heart failure. According to the new guidelines, all patients should undergo an N-terminal pro-B-type natriuretic peptide (NT‑proBNP) blood test as the first-line investigation, regardless of whether they have previously had a myocardial infarction or not.

      Interpreting the NT-proBNP test is crucial in determining the severity of the condition. If the levels are high, specialist assessment, including transthoracic echocardiography, should be arranged within two weeks. If the levels are raised, specialist assessment, including echocardiogram, should be arranged within six weeks.

      BNP is a hormone produced mainly by the left ventricular myocardium in response to strain. Very high levels of BNP are associated with a poor prognosis. The table above shows the different levels of BNP and NTproBNP and their corresponding interpretations.

      It is important to note that certain factors can alter the BNP level. For instance, left ventricular hypertrophy, ischaemia, tachycardia, and right ventricular overload can increase BNP levels, while diuretics, ACE inhibitors, beta-blockers, angiotensin 2 receptor blockers, and aldosterone antagonists can decrease BNP levels. Therefore, it is crucial to consider these factors when interpreting the NT-proBNP test.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 7 - A 63-year-old man visits his physician complaining of exertional dyspnea. To assess his...

    Incorrect

    • A 63-year-old man visits his physician complaining of exertional dyspnea. To assess his heart function, he undergoes a transthoracic echocardiogram.

      What is the method used to determine his cardiac output from the echocardiogram?

      Your Answer:

      Correct Answer: (end diastolic LV volume - end systolic LV volume) x heart rate

      Explanation:

      Cardiovascular physiology involves the study of the functions and processes of the heart and blood vessels. One important measure of heart function is the left ventricular ejection fraction, which is calculated by dividing the stroke volume (the amount of blood pumped out of the left ventricle with each heartbeat) by the end diastolic LV volume (the amount of blood in the left ventricle at the end of diastole) and multiplying by 100%. Another key measure is cardiac output, which is the amount of blood pumped by the heart per minute and is calculated by multiplying stroke volume by heart rate.

      Pulse pressure is another important measure of cardiovascular function, which is the difference between systolic pressure (the highest pressure in the arteries during a heartbeat) and diastolic pressure (the lowest pressure in the arteries between heartbeats). Factors that can increase pulse pressure include a less compliant aorta (which can occur with age) and increased stroke volume.

      Finally, systemic vascular resistance is a measure of the resistance to blood flow in the systemic circulation and is calculated by dividing mean arterial pressure (the average pressure in the arteries during a heartbeat) by cardiac output. Understanding these measures of cardiovascular function is important for diagnosing and treating cardiovascular diseases.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 8 - Following a minor heart attack, how does atorvastatin work to reduce the risk...

    Incorrect

    • Following a minor heart attack, how does atorvastatin work to reduce the risk of a subsequent MI in a 65-year-old patient?

      Your Answer:

      Correct Answer: Decreases LDLs in the blood by inhibiting HMG-CoA reductase in the liver

      Explanation:

      The primary goal of statins is to lower cholesterol levels in the bloodstream, which in turn reduces the risk of cardiovascular events. This is achieved by inhibiting HMG-CoA reductase in the liver, which prevents the synthesis of mevalonate, a precursor to LDLs. As a result, statins decrease the amount of cholesterol being transported to body tissues by LDLs. However, statins do not affect the levels of HDLs, which transport cholesterol from body tissues back to the liver.

      Statins are drugs that inhibit the action of HMG-CoA reductase, which is the enzyme responsible for cholesterol synthesis in the liver. However, they can cause adverse effects such as myopathy, liver impairment, and an increased risk of intracerebral hemorrhage in patients with a history of stroke. Statins should not be taken during pregnancy or in combination with macrolides. NICE recommends statins for patients with established cardiovascular disease, a 10-year cardiovascular risk of 10% or higher, type 2 diabetes mellitus, or type 1 diabetes mellitus with certain criteria. It is recommended to take statins at night, especially simvastatin, which has a shorter half-life than other statins. NICE recommends atorvastatin 20mg for primary prevention and atorvastatin 80 mg for secondary prevention.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 9 - A 15-year-old boy is brought to the emergency department by air ambulance following...

    Incorrect

    • A 15-year-old boy is brought to the emergency department by air ambulance following a fight. He presents with peripheral shutdown and an unrecordable blood pressure. The chest X-ray reveals a stab wound that has penetrated the left atrium and the artery that supplies it. Which artery is the most likely to have been affected?

      Your Answer:

      Correct Answer: Left coronary artery

      Explanation:

      The left coronary artery and its major branch, the left circumflex, supply the left atrium. However, the other arteries do not provide blood supply to the left atrium. The right coronary artery supplies the right ventricle and the atrioventricular node + sino atrial node in most patients. The left marginal artery supplies the left ventricle, while the posterior descending artery supplies the posterior third of the interventricular septum. Lastly, the left anterior descending artery supplies the left ventricle.

      The walls of each cardiac chamber are made up of the epicardium, myocardium, and endocardium. The heart and roots of the great vessels are related anteriorly to the sternum and the left ribs. The coronary sinus receives blood from the cardiac veins, and the aortic sinus gives rise to the right and left coronary arteries. The left ventricle has a thicker wall and more numerous trabeculae carnae than the right ventricle. The heart is innervated by autonomic nerve fibers from the cardiac plexus, and the parasympathetic supply comes from the vagus nerves. The heart has four valves: the mitral, aortic, pulmonary, and tricuspid valves.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 10 - An ECG is performed on a 60-year-old patient in the cardiology ward. On...

    Incorrect

    • An ECG is performed on a 60-year-old patient in the cardiology ward. On the ECG there are regular p waves present, and a QRS complex is associated with each p wave. The PR interval is 0.26 seconds. There are no missed p waves.

      What is the most probable diagnosis?

      Your Answer:

      Correct Answer: 1st degree heart block

      Explanation:

      Understanding Heart Blocks: Types and Features

      Heart blocks are a type of cardiac conduction disorder that can lead to serious complications such as syncope and heart failure. There are three types of heart blocks: first degree, second degree, and third degree (complete) heart block.

      First degree heart block is characterized by a prolonged PR interval of more than 0.2 seconds. Second degree heart block can be further divided into two types: type 1 (Mobitz I, Wenckebach) and type 2 (Mobitz II). Type 1 is characterized by a progressive prolongation of the PR interval until a dropped beat occurs, while type 2 has a constant PR interval but the P wave is often not followed by a QRS complex.

      Third degree (complete) heart block is the most severe type of heart block, where there is no association between the P waves and QRS complexes. This can lead to a regular bradycardia with a heart rate of 30-50 bpm, wide pulse pressure, and cannon waves in the neck JVP. Additionally, variable intensity of S1 can be observed.

      It is important to recognize the features of heart blocks and differentiate between the types in order to provide appropriate management and prevent complications. Regular monitoring and follow-up with a healthcare provider is recommended for individuals with heart blocks.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 11 - Which one of the following nerves is not found in the posterior triangle...

    Incorrect

    • Which one of the following nerves is not found in the posterior triangle of the neck?

      Your Answer:

      Correct Answer: Ansa cervicalis

      Explanation:

      The anterior triangle of the neck contains the ansa cervicalis.

      The posterior triangle of the neck is an area that is bound by the sternocleidomastoid and trapezius muscles, the occipital bone, and the middle third of the clavicle. Within this triangle, there are various nerves, vessels, muscles, and lymph nodes. The nerves present include the accessory nerve, phrenic nerve, and three trunks of the brachial plexus, as well as branches of the cervical plexus such as the supraclavicular nerve, transverse cervical nerve, great auricular nerve, and lesser occipital nerve. The vessels found in this area are the external jugular vein and subclavian artery. Additionally, there are muscles such as the inferior belly of omohyoid and scalene, as well as lymph nodes including the supraclavicular and occipital nodes.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 12 - Electrophysiology studies are being conducted in a young boy with suspected Wolff-Parkinson-White syndrome,...

    Incorrect

    • Electrophysiology studies are being conducted in a young boy with suspected Wolff-Parkinson-White syndrome, who has experienced recurrent episodes of sudden palpitations. The procedure involves catheterization within the heart to evaluate the electrical activity and determine the conduction velocity of various parts of the conduction pathway.

      Which segment of this pathway exhibits the highest conduction velocity?

      Your Answer:

      Correct Answer: Purkinje fibres

      Explanation:

      The Purkinje fibres have the fastest conduction velocities in the heart, at approximately 4m/sec, due to different connexins in their gap junctions. They allow depolarisation throughout the ventricular muscle. Atrial muscle conducts at around 0.5m/sec, the atrioventricular node conducts at a slow rate, and the Bundle of His conducts at 2m/sec, but not as rapidly as the Purkinje fibres.

      Understanding the Cardiac Action Potential and Conduction Velocity

      The cardiac action potential is a series of electrical events that occur in the heart during each heartbeat. It is responsible for the contraction of the heart muscle and the pumping of blood throughout the body. The action potential is divided into five phases, each with a specific mechanism. The first phase is rapid depolarization, which is caused by the influx of sodium ions. The second phase is early repolarization, which is caused by the efflux of potassium ions. The third phase is the plateau phase, which is caused by the slow influx of calcium ions. The fourth phase is final repolarization, which is caused by the efflux of potassium ions. The final phase is the restoration of ionic concentrations, which is achieved by the Na+/K+ ATPase pump.

      Conduction velocity is the speed at which the electrical signal travels through the heart. The speed varies depending on the location of the signal. Atrial conduction spreads along ordinary atrial myocardial fibers at a speed of 1 m/sec. AV node conduction is much slower, at 0.05 m/sec. Ventricular conduction is the fastest in the heart, achieved by the large diameter of the Purkinje fibers, which can achieve velocities of 2-4 m/sec. This allows for a rapid and coordinated contraction of the ventricles, which is essential for the proper functioning of the heart. Understanding the cardiac action potential and conduction velocity is crucial for diagnosing and treating heart conditions.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 13 - A 50-year-old UK born patient with end-stage kidney failure arrives at the emergency...

    Incorrect

    • A 50-year-old UK born patient with end-stage kidney failure arrives at the emergency department complaining of sharp chest pain that subsides when sitting forward. The patient has not undergone dialysis yet. Upon conducting an ECG, it is observed that there is a widespread 'saddle-shaped' ST elevation and PR depression, leading to a diagnosis of pericarditis. What could be the probable cause of this pericarditis?

      Your Answer:

      Correct Answer: Uraemia

      Explanation:

      There is no indication of trauma in patients with advanced renal failure prior to dialysis initiation.

      ECG results do not indicate a recent heart attack.

      The patient’s age decreases the likelihood of malignancy.

      Acute Pericarditis: Causes, Features, Investigations, and Management

      Acute pericarditis is a possible diagnosis for patients presenting with chest pain. The condition is characterized by chest pain, which may be pleuritic and relieved by sitting forwards. Other symptoms include non-productive cough, dyspnoea, and flu-like symptoms. Tachypnoea and tachycardia may also be present, along with a pericardial rub.

      The causes of acute pericarditis include viral infections, tuberculosis, uraemia, trauma, post-myocardial infarction, Dressler’s syndrome, connective tissue disease, hypothyroidism, and malignancy.

      Investigations for acute pericarditis include ECG changes, which are often global/widespread, as opposed to the ‘territories’ seen in ischaemic events. The ECG may show ‘saddle-shaped’ ST elevation and PR depression, which is the most specific ECG marker for pericarditis. All patients with suspected acute pericarditis should have transthoracic echocardiography.

      Management of acute pericarditis involves treating the underlying cause. A combination of NSAIDs and colchicine is now generally used as first-line treatment for patients with acute idiopathic or viral pericarditis.

      In summary, acute pericarditis is a possible diagnosis for patients presenting with chest pain. The condition is characterized by chest pain, which may be pleuritic and relieved by sitting forwards, along with other symptoms. The causes of acute pericarditis are varied, and investigations include ECG changes and transthoracic echocardiography. Management involves treating the underlying cause and using a combination of NSAIDs and colchicine as first-line treatment.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 14 - Oliver is an 80-year-old man with known left-sided heart failure. He has a...

    Incorrect

    • Oliver is an 80-year-old man with known left-sided heart failure. He has a left ventricular ejection fraction of 31%. He has recently been admitted to the cardiology ward as the doctors are concerned his condition is worsening. He is short of breath on exertion and has peripheral oedema.

      Upon reviewing his ECG, you note a right bundle branch block (RBBB) indicative of right ventricular hypertrophy. You also observe that this was present on an ECG of his on an emergency department admission last month.

      What is the most likely cause of the RBBB in Oliver?

      Your Answer:

      Correct Answer: Cor pulmonale

      Explanation:

      A frequent underlying cause of RBBB that persists over time is right ventricular hypertrophy, which may result from the spread of left-sided heart failure to the right side of the heart. Oliver’s shortness of breath is likely due to an accumulation of fluid in the lungs, which can increase pulmonary perfusion pressure and lead to right ventricular strain and hypertrophy. This type of right heart failure that arises from left heart failure is known as cor-pulmonale. While a pulmonary embolism or rheumatic heart disease can also cause right ventricular strain, they are less probable in this case. Myocardial infarction typically presents with chest pain, which is not mentioned in the question stem regarding Oliver’s symptoms.

      Right bundle branch block is a frequently observed abnormality on ECGs. It can be differentiated from left bundle branch block by remembering the phrase WiLLiaM MaRRoW. In RBBB, there is a ‘M’ in V1 and a ‘W’ in V6, while in LBBB, there is a ‘W’ in V1 and a ‘M’ in V6.

      There are several potential causes of RBBB, including normal variation which becomes more common with age, right ventricular hypertrophy, chronically increased right ventricular pressure (such as in cor pulmonale), pulmonary embolism, myocardial infarction, atrial septal defect (ostium secundum), and cardiomyopathy or myocarditis.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 15 - During surgery on her neck, a woman in her 50s suffers a vagus...

    Incorrect

    • During surgery on her neck, a woman in her 50s suffers a vagus nerve injury where the nerve is cut near the exit from the skull. She wakes up with a high heart rate and high blood pressure due to loss of parasympathetic tone.

      What other features would be expected with a vagus nerve injury?

      Your Answer:

      Correct Answer: Hoarse voice

      Explanation:

      The vagus (X) nerve is responsible for all innervation related to speech, meaning that any injuries to this nerve can lead to speech problems. It’s important to note that the vagus nerve has both autonomic and somatic effects, with the latter being the most crucial for speech. This involves the motor supply to the larynx through the recurrent laryngeal nerves, which are branches of the vagus. If one vagus nerve is damaged, it would have the same impact as damage to a single recurrent laryngeal nerve, resulting in a hoarse voice.

      However, it’s worth noting that anal tone, erections, and urination are controlled by the sacral parasympathetics and would not be affected by the loss of the vagus nerve. Similarly, pupillary constriction is controlled by parasympathetics on the oculomotor nerve and would not be impacted by the loss of the vagus nerve.

      The vagus nerve is responsible for a variety of functions and supplies structures from the fourth and sixth pharyngeal arches, as well as the fore and midgut sections of the embryonic gut tube. It carries afferent fibers from areas such as the pharynx, larynx, esophagus, stomach, lungs, heart, and great vessels. The efferent fibers of the vagus are of two main types: preganglionic parasympathetic fibers distributed to the parasympathetic ganglia that innervate smooth muscle of the innervated organs, and efferent fibers with direct skeletal muscle innervation, largely to the muscles of the larynx and pharynx.

      The vagus nerve arises from the lateral surface of the medulla oblongata and exits through the jugular foramen, closely related to the glossopharyngeal nerve cranially and the accessory nerve caudally. It descends vertically in the carotid sheath in the neck, closely related to the internal and common carotid arteries. In the mediastinum, both nerves pass posteroinferiorly and reach the posterior surface of the corresponding lung root, branching into both lungs. At the inferior end of the mediastinum, these plexuses reunite to form the formal vagal trunks that pass through the esophageal hiatus and into the abdomen. The anterior and posterior vagal trunks are formal nerve fibers that splay out once again, sending fibers over the stomach and posteriorly to the coeliac plexus. Branches pass to the liver, spleen, and kidney.

      The vagus nerve has various branches in the neck, including superior and inferior cervical cardiac branches, and the right recurrent laryngeal nerve, which arises from the vagus anterior to the first part of the subclavian artery and hooks under it to insert into the larynx. In the thorax, the left recurrent laryngeal nerve arises from the vagus on the aortic arch and hooks around the inferior surface of the arch, passing upwards through the superior mediastinum and lower part of the neck. In the abdomen, the nerves branch extensively, passing to the coeliac axis and alongside the vessels to supply the spleen, liver, and kidney.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 16 - A 50-year-old man is brought to the emergency department following a collapse on...

    Incorrect

    • A 50-year-old man is brought to the emergency department following a collapse on the street. Upon examination, he displays visual and oculomotor deficits, but his motor function remains intact. Digital subtraction angiography reveals a basilar artery occlusion at the point where the vertebral arteries merge to form the basilar artery. What anatomical feature corresponds to the location of the occlusion?

      Your Answer:

      Correct Answer: The base of the pons

      Explanation:

      The basilar artery is formed by the union of the vertebral arteries at the base of the pons.

      The Circle of Willis is an anastomosis formed by the internal carotid arteries and vertebral arteries on the bottom surface of the brain. It is divided into two halves and is made up of various arteries, including the anterior communicating artery, anterior cerebral artery, internal carotid artery, posterior communicating artery, and posterior cerebral arteries. The circle and its branches supply blood to important areas of the brain, such as the corpus striatum, internal capsule, diencephalon, and midbrain.

      The vertebral arteries enter the cranial cavity through the foramen magnum and lie in the subarachnoid space. They then ascend on the anterior surface of the medulla oblongata and unite to form the basilar artery at the base of the pons. The basilar artery has several branches, including the anterior inferior cerebellar artery, labyrinthine artery, pontine arteries, superior cerebellar artery, and posterior cerebral artery.

      The internal carotid arteries also have several branches, such as the posterior communicating artery, anterior cerebral artery, middle cerebral artery, and anterior choroid artery. These arteries supply blood to different parts of the brain, including the frontal, temporal, and parietal lobes. Overall, the Circle of Willis and its branches play a crucial role in providing oxygen and nutrients to the brain.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 17 - With respect to the basilic vein, which statement is not true? ...

    Incorrect

    • With respect to the basilic vein, which statement is not true?

      Your Answer:

      Correct Answer: Its deep anatomical location makes it unsuitable for use as an arteriovenous access site in fistula surgery

      Explanation:

      A basilic vein transposition is a surgical procedure that utilizes it during arteriovenous fistula surgery.

      The Basilic Vein: A Major Pathway of Venous Drainage for the Arm and Hand

      The basilic vein is one of the two main pathways of venous drainage for the arm and hand, alongside the cephalic vein. It begins on the medial side of the dorsal venous network of the hand and travels up the forearm and arm. Most of its course is superficial, but it passes deep under the muscles midway up the humerus. Near the region anterior to the cubital fossa, the basilic vein joins the cephalic vein.

      At the lower border of the teres major muscle, the anterior and posterior circumflex humeral veins feed into the basilic vein. It is often joined by the medial brachial vein before draining into the axillary vein. The basilic vein is continuous with the palmar venous arch distally and the axillary vein proximally. Understanding the path and function of the basilic vein is important for medical professionals in diagnosing and treating conditions related to venous drainage in the arm and hand.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 18 - An 80-year-old woman comes to the hospital complaining of chest pain, vomiting, and...

    Incorrect

    • An 80-year-old woman comes to the hospital complaining of chest pain, vomiting, and sweating for the past two hours. She has a medical history of hypertension and peripheral arterial disease. Despite using sublingual nitrate spray at home, the pain has not subsided. Upon admission, she is found to be tachycardic and tachypneic, but no other respiratory or cardiac abnormalities are detected. An ECG reveals ST segment elevation in leads II, III, and aVF, as well as ST segment depression in leads I and aVL. Which coronary artery is most likely affected?

      Your Answer:

      Correct Answer: Right coronary artery

      Explanation:

      The observed ECG alterations are indicative of an ischemic injury in the lower region of the heart. The ST depressions in leads I and aVL, which are located in the lateral wall, are common reciprocal changes that occur during an inferior myocardial infarction. Typically, the right coronary artery is the most probable site of damage in cases involving lesions in the lower wall.

      Understanding Acute Coronary Syndrome

      Acute coronary syndrome (ACS) is a term used to describe various acute presentations of ischaemic heart disease. It includes ST elevation myocardial infarction (STEMI), non-ST elevation myocardial infarction (NSTEMI), and unstable angina. ACS usually develops in patients with ischaemic heart disease, which is the gradual build-up of fatty plaques in the walls of the coronary arteries. This can lead to a gradual narrowing of the arteries, resulting in less blood and oxygen reaching the myocardium, causing angina. It can also lead to sudden plaque rupture, resulting in a complete occlusion of the artery and no blood or oxygen reaching the area of myocardium, causing a myocardial infarction.

      There are many factors that can increase the chance of a patient developing ischaemic heart disease, including unmodifiable risk factors such as increasing age, male gender, and family history, and modifiable risk factors such as smoking, diabetes mellitus, hypertension, hypercholesterolaemia, and obesity.

      The classic and most common symptom of ACS is chest pain, which is typically central or left-sided and may radiate to the jaw or left arm. Other symptoms include dyspnoea, sweating, and nausea and vomiting. Patients presenting with ACS often have very few physical signs, and the two most important investigations when assessing a patient with chest pain are an electrocardiogram (ECG) and cardiac markers such as troponin.

      Once a diagnosis of ACS has been made, treatment involves preventing worsening of the presentation, revascularising the vessel if occluded, and treating pain. For patients who’ve had a STEMI, the priority of management is to reopen the blocked vessel. For patients who’ve had an NSTEMI, a risk stratification tool is used to decide upon further management. Patients who’ve had an ACS require lifelong drug therapy to help reduce the risk of a further event, which includes aspirin, a second antiplatelet if appropriate, a beta-blocker, an ACE inhibitor, and a statin.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 19 - A 67-year-old woman visits her GP for a routine hypertension check-up. She has...

    Incorrect

    • A 67-year-old woman visits her GP for a routine hypertension check-up. She has been on amlodipine for a year and her blood pressure is under control, but she frequently experiences ankle swelling. The swelling is more pronounced towards the end of the day since she started taking amlodipine. The GP decides to switch her medication to a diuretic. Which diuretic targets the sodium-chloride transporter in the distal tubule?

      Your Answer:

      Correct Answer: Bendroflumethiazide (thiazide diuretic)

      Explanation:

      Thiazide diuretics are medications that work by blocking the thiazide-sensitive Na+-Cl− symporter, which inhibits sodium reabsorption at the beginning of the distal convoluted tubule (DCT). This results in the loss of potassium as more sodium reaches the collecting ducts. While thiazide diuretics are useful in treating mild heart failure, loop diuretics are more effective in reducing overload. Bendroflumethiazide was previously used to manage hypertension, but recent NICE guidelines recommend other thiazide-like diuretics such as indapamide and chlorthalidone.

      Common side effects of thiazide diuretics include dehydration, postural hypotension, and electrolyte imbalances such as hyponatremia, hypokalemia, and hypercalcemia. Other potential adverse effects include gout, impaired glucose tolerance, and impotence. Rare side effects may include thrombocytopenia, agranulocytosis, photosensitivity rash, and pancreatitis.

      It is worth noting that while thiazide diuretics may cause hypercalcemia, they can also reduce the incidence of renal stones by decreasing urinary calcium excretion. According to current NICE guidelines, the management of hypertension involves the use of thiazide-like diuretics, along with other medications and lifestyle changes, to achieve optimal blood pressure control and reduce the risk of cardiovascular disease.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 20 - A 78-year-old patient is having an upper gastrointestinal endoscopy to investigate gastro-oesophageal reflux...

    Incorrect

    • A 78-year-old patient is having an upper gastrointestinal endoscopy to investigate gastro-oesophageal reflux disease. While the procedure is ongoing, the patient experiences several coughing episodes.

      Which two cranial nerves are responsible for this reflex action?

      Your Answer:

      Correct Answer: Cranial nerves IX and X

      Explanation:

      The glossopharyngeal and vagus nerves, which are cranial nerves IX and X respectively, mediate the cough reflex. The facial nerve, or cranial nerve VII, is responsible for facial movements and taste in the anterior 2/3 of the tongue. The vestibulocochlear nerve, or cranial nerve VIII, is responsible for hearing and balance. Cranial nerve XI, also known as the spinal accessory nerve, innervates the sternocleidomastoid muscle and the trapezius muscle. The hypoglossal nerve, or cranial nerve XII, is responsible for the motor innervation of most of the tongue, and damage to this nerve can cause the tongue to deviate towards the side of the lesion when protruded.

      The vagus nerve is responsible for a variety of functions and supplies structures from the fourth and sixth pharyngeal arches, as well as the fore and midgut sections of the embryonic gut tube. It carries afferent fibers from areas such as the pharynx, larynx, esophagus, stomach, lungs, heart, and great vessels. The efferent fibers of the vagus are of two main types: preganglionic parasympathetic fibers distributed to the parasympathetic ganglia that innervate smooth muscle of the innervated organs, and efferent fibers with direct skeletal muscle innervation, largely to the muscles of the larynx and pharynx.

      The vagus nerve arises from the lateral surface of the medulla oblongata and exits through the jugular foramen, closely related to the glossopharyngeal nerve cranially and the accessory nerve caudally. It descends vertically in the carotid sheath in the neck, closely related to the internal and common carotid arteries. In the mediastinum, both nerves pass posteroinferiorly and reach the posterior surface of the corresponding lung root, branching into both lungs. At the inferior end of the mediastinum, these plexuses reunite to form the formal vagal trunks that pass through the esophageal hiatus and into the abdomen. The anterior and posterior vagal trunks are formal nerve fibers that splay out once again, sending fibers over the stomach and posteriorly to the coeliac plexus. Branches pass to the liver, spleen, and kidney.

      The vagus nerve has various branches in the neck, including superior and inferior cervical cardiac branches, and the right recurrent laryngeal nerve, which arises from the vagus anterior to the first part of the subclavian artery and hooks under it to insert into the larynx. In the thorax, the left recurrent laryngeal nerve arises from the vagus on the aortic arch and hooks around the inferior surface of the arch, passing upwards through the superior mediastinum and lower part of the neck. In the abdomen, the nerves branch extensively, passing to the coeliac axis and alongside the vessels to supply the spleen, liver, and kidney.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 21 - Which one of the following is not a branch of the subclavian artery?...

    Incorrect

    • Which one of the following is not a branch of the subclavian artery?

      Your Answer:

      Correct Answer: Superior thyroid artery

      Explanation:

      The branches of the subclavian artery can be remembered using the mnemonic VIT C & D, which stands for Vertebral artery, Internal thoracic, Thyrocervical trunk, Costalcervical trunk, and Dorsal scapular. It is important to note that the Superior thyroid artery is actually a branch of the external carotid artery.

      The Subclavian Artery: Origin, Path, and Branches

      The subclavian artery is a major blood vessel that supplies blood to the upper extremities, neck, and head. It has two branches, the left and right subclavian arteries, which arise from different sources. The left subclavian artery originates directly from the arch of the aorta, while the right subclavian artery arises from the brachiocephalic artery (trunk) when it bifurcates into the subclavian and the right common carotid artery.

      From its origin, the subclavian artery travels laterally, passing between the anterior and middle scalene muscles, deep to scalenus anterior and anterior to scalenus medius. As it crosses the lateral border of the first rib, it becomes the axillary artery and is superficial within the subclavian triangle.

      The subclavian artery has several branches that supply blood to different parts of the body. These branches include the vertebral artery, which supplies blood to the brain and spinal cord, the internal thoracic artery, which supplies blood to the chest wall and breast tissue, the thyrocervical trunk, which supplies blood to the thyroid gland and neck muscles, the costocervical trunk, which supplies blood to the neck and upper back muscles, and the dorsal scapular artery, which supplies blood to the muscles of the shoulder blade.

      In summary, the subclavian artery is an important blood vessel that plays a crucial role in supplying blood to the upper extremities, neck, and head. Its branches provide blood to various parts of the body, ensuring proper functioning and health.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 22 - A 54-year-old man visits the clinic with a complaint of experiencing shortness of...

    Incorrect

    • A 54-year-old man visits the clinic with a complaint of experiencing shortness of breath during physical activity. He denies any chest pain or coughing and has never smoked. During cardiac auscultation, an ejection systolic murmur is detected. Although a valvular defect is suspected as the cause of his symptoms, echocardiography reveals an atrial septal defect (ASD) instead. An ASD allows blood to flow between the left and right atria. During fetal development, what structure connects the left and right atria?

      Your Answer:

      Correct Answer: Foramen ovale

      Explanation:

      The foramen ovale is an opening in the wall between the two upper chambers of the heart that allows blood to flow from the right atrium to the left atrium. Normally, this opening closes shortly after birth. However, if it remains open, it can result in a condition called patent foramen ovale, which is an abnormal connection between the two atria. This can lead to an atrial septal defect, where blood flows from the left atrium to the right atrium. This condition may be detected early if there are symptoms or a heart murmur is heard, but it can also go unnoticed until later in life.

      During fetal development, the ductus venosus is a blood vessel that connects the umbilical vein to the inferior vena cava, allowing oxygenated blood to bypass the liver. After birth, this vessel usually closes and becomes the ligamentum venosum.

      The ductus arteriosus is another fetal blood vessel that connects the pulmonary artery to the aorta, allowing blood to bypass the non-functioning lungs. This vessel typically closes after birth and becomes the ligamentum arteriosum. If it remains open, it can result in a patent ductus arteriosus.

      The coronary sinus is a vein that receives blood from the heart’s coronary veins and drains into the right atrium.

      The mitral valve is a valve that separates the left atrium and the left ventricle of the heart.

      The umbilical vein carries oxygenated blood from the placenta to the fetus during development. After birth, it typically closes and becomes the round ligament of the liver.

      Understanding Patent Foramen Ovale

      Patent foramen ovale (PFO) is a condition that affects approximately 20% of the population. It is characterized by the presence of a small hole in the heart that may allow an embolus, such as one from deep vein thrombosis, to pass from the right side of the heart to the left side. This can lead to a stroke, which is known as a paradoxical embolus.

      Aside from its association with stroke, PFO has also been linked to migraine. Studies have shown that some patients experience an improvement in their migraine symptoms after undergoing PFO closure.

      The management of PFO in patients who have had a stroke is still a topic of debate. Treatment options include antiplatelet therapy, anticoagulant therapy, or PFO closure. It is important for patients with PFO to work closely with their healthcare provider to determine the best course of action for their individual needs.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 23 - A 25-year-old man comes to the clinic complaining of shortness of breath during...

    Incorrect

    • A 25-year-old man comes to the clinic complaining of shortness of breath during physical activity. He has no significant medical history but mentions that his mother passed away while playing netball at the age of 28. During the physical exam, the doctor detects an ejection systolic murmur when listening to his heart. The intensity of the murmur decreases when the patient squats. An echocardiogram is ordered to further investigate.

      What findings may be observed on the echocardiogram of this patient?

      Your Answer:

      Correct Answer: Systolic anterior motion (SAM)

      Explanation:

      The presence of asymmetric septal hypertrophy and systolic anterior movement (SAM) of the anterior leaflet of the mitral valve on echocardiogram or cMR strongly suggests the diagnosis of hypertrophic obstructive cardiomyopathy (HOCM) in this patient. This is further supported by his symptoms of exertional dyspnoea and family history of sudden cardiac death, possibly related to HOCM. The observation of SAM on echocardiogram is a common finding in patients with HOCM.

      Hypertrophic obstructive cardiomyopathy (HOCM) is a genetic disorder that affects muscle tissue and is inherited in an autosomal dominant manner. It is caused by mutations in genes that encode contractile proteins, with the most common defects involving the β-myosin heavy chain protein or myosin-binding protein C. HOCM is characterized by left ventricle hypertrophy, which leads to decreased compliance and cardiac output, resulting in predominantly diastolic dysfunction. Biopsy findings show myofibrillar hypertrophy with disorganized myocytes and fibrosis. HOCM is often asymptomatic, but exertional dyspnea, angina, syncope, and sudden death can occur. Jerky pulse, systolic murmurs, and double apex beat are also common features. HOCM is associated with Friedreich’s ataxia and Wolff-Parkinson White. ECG findings include left ventricular hypertrophy, non-specific ST segment and T-wave abnormalities, and deep Q waves. Atrial fibrillation may occasionally be seen.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 24 - What is the average stroke volume in a resting 75 Kg man? ...

    Incorrect

    • What is the average stroke volume in a resting 75 Kg man?

      Your Answer:

      Correct Answer: 70ml

      Explanation:

      The range of stroke volumes is between 55 and 100 milliliters.

      The stroke volume refers to the amount of blood that is pumped out of the ventricle during each cycle of cardiac contraction. This volume is usually the same for both ventricles and is approximately 70ml for a man weighing 70Kg. To calculate the stroke volume, the end systolic volume is subtracted from the end diastolic volume. Several factors can affect the stroke volume, including the size of the heart, its contractility, preload, and afterload.

    • This question is part of the following fields:

      • Cardiovascular System
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  • Question 25 - A 26-year-old man presents to the emergency department after experiencing a syncopal episode....

    Incorrect

    • A 26-year-old man presents to the emergency department after experiencing a syncopal episode. He is currently stable and reports no warning signs prior to the episode. He has had a few similar episodes in the past but did not seek medical attention. Upon further investigation, it is discovered that his father and uncle both died suddenly from heart attacks at ages 45 and 42, respectively. An ECG reveals coved ST segment elevation in V1 and V2 leads, followed by a negative T wave. What is the definitive treatment for this patient's condition?

      Your Answer:

      Correct Answer: Implantable cardioverter-defibrillator

      Explanation:

      The most effective management for Brugada syndrome is the implantation of a cardioverter-defibrillator, as per the NICE guidelines. This is the recommended treatment for patients with the condition, as evidenced by this man’s ECG findings, syncopal episodes, and family history of sudden cardiac deaths.

      While class I antiarrhythmic drugs like flecainide and procainamide may be used in clinical settings to diagnose Brugada syndrome, they should be avoided in patients with the condition as they can transiently induce the ECG features of the syndrome.

      Quinidine, another class I antiarrhythmic drug, has shown some benefits in preventing and treating tachyarrhythmias in small studies of patients with Brugada syndrome. However, it is not a definitive treatment and has not been shown to reduce the rate of sudden cardiac deaths in those with the condition.

      Amiodarone is typically used in life-threatening situations to stop ventricular tachyarrhythmias. However, due to its unfavorable side effect profile, it is not recommended for long-term use, especially in younger patients who may require it for decades.

      Understanding Brugada Syndrome

      Brugada syndrome is a type of inherited cardiovascular disease that can lead to sudden cardiac death. It is passed down in an autosomal dominant manner and is more prevalent in Asians, with an estimated occurrence of 1 in 5,000-10,000 individuals. The condition has a variety of genetic variants, but around 20-40% of cases are caused by a mutation in the SCN5A gene, which encodes the myocardial sodium ion channel protein.

      One of the key diagnostic features of Brugada syndrome is the presence of convex ST segment elevation greater than 2mm in more than one of the V1-V3 leads, followed by a negative T wave and partial right bundle branch block. These ECG changes may become more apparent after the administration of flecainide or ajmaline, which are the preferred diagnostic tests for suspected cases of Brugada syndrome.

      The management of Brugada syndrome typically involves the implantation of a cardioverter-defibrillator to prevent sudden cardiac death. It is important for individuals with Brugada syndrome to receive regular medical monitoring and genetic counseling to manage their condition effectively.

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      • Cardiovascular System
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  • Question 26 - During a routine visit, a 76-year-old man with a history of stable angina...

    Incorrect

    • During a routine visit, a 76-year-old man with a history of stable angina informs his GP about his recent hospitalization due to decompensated heart failure. The hospital staff had taken a brain natriuretic peptide (BNP) level which was found to be significantly elevated. He was treated with intravenous furosemide and responded positively. What are the cardiovascular impacts of BNP?

      Your Answer:

      Correct Answer: Decreases preload and afterload

      Explanation:

      Brain natriuretic peptide is a peptide that is secreted by the myocardium in response to excessive stretching, typically seen in cases of heart failure. Its primary physiological roles include reducing systemic vascular resistance, thereby decreasing afterload, and increasing natriuresis and diuresis. This increased diuresis results in a decrease in venous blood volume, leading to a reduction in preload. The BNP level can be a valuable diagnostic tool for heart failure and may also serve as a prognostic indicator.

      B-type natriuretic peptide (BNP) is a hormone that is primarily produced by the left ventricular myocardium in response to strain. Although heart failure is the most common cause of elevated BNP levels, any condition that causes left ventricular dysfunction, such as myocardial ischemia or valvular disease, may also raise levels. In patients with chronic kidney disease, reduced excretion may also lead to elevated BNP levels. Conversely, treatment with ACE inhibitors, angiotensin-2 receptor blockers, and diuretics can lower BNP levels.

      BNP has several effects, including vasodilation, diuresis, natriuresis, and suppression of both sympathetic tone and the renin-angiotensin-aldosterone system. Clinically, BNP is useful in diagnosing patients with acute dyspnea. A low concentration of BNP (<100 pg/mL) makes a diagnosis of heart failure unlikely, but elevated levels should prompt further investigation to confirm the diagnosis. Currently, NICE recommends BNP as a helpful test to rule out a diagnosis of heart failure. In patients with chronic heart failure, initial evidence suggests that BNP is an extremely useful marker of prognosis and can guide treatment. However, BNP is not currently recommended for population screening for cardiac dysfunction.

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      • Cardiovascular System
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  • Question 27 - Which one of the following statements relating to the basilar artery and its...

    Incorrect

    • Which one of the following statements relating to the basilar artery and its branches is false?

      Your Answer:

      Correct Answer: The posterior inferior cerebellar artery is the largest of the cerebellar arteries arising from the basilar artery

      Explanation:

      The largest of the cerebellar arteries that originates from the vertebral artery is the posterior inferior cerebellar artery. The labyrinthine artery, which is thin and lengthy, may emerge from the lower section of the basilar artery. It travels alongside the facial and vestibulocochlear nerves into the internal auditory meatus. The posterior cerebral artery is frequently bigger than the superior cerebellar artery and is separated from the vessel, close to its source, by the oculomotor nerve. Arterial decompression is a widely accepted treatment for trigeminal neuralgia.

      The Circle of Willis is an anastomosis formed by the internal carotid arteries and vertebral arteries on the bottom surface of the brain. It is divided into two halves and is made up of various arteries, including the anterior communicating artery, anterior cerebral artery, internal carotid artery, posterior communicating artery, and posterior cerebral arteries. The circle and its branches supply blood to important areas of the brain, such as the corpus striatum, internal capsule, diencephalon, and midbrain.

      The vertebral arteries enter the cranial cavity through the foramen magnum and lie in the subarachnoid space. They then ascend on the anterior surface of the medulla oblongata and unite to form the basilar artery at the base of the pons. The basilar artery has several branches, including the anterior inferior cerebellar artery, labyrinthine artery, pontine arteries, superior cerebellar artery, and posterior cerebral artery.

      The internal carotid arteries also have several branches, such as the posterior communicating artery, anterior cerebral artery, middle cerebral artery, and anterior choroid artery. These arteries supply blood to different parts of the brain, including the frontal, temporal, and parietal lobes. Overall, the Circle of Willis and its branches play a crucial role in providing oxygen and nutrients to the brain.

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      • Cardiovascular System
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  • Question 28 - A 42-year-old woman has undergone some routine blood tests and her cholesterol levels...

    Incorrect

    • A 42-year-old woman has undergone some routine blood tests and her cholesterol levels are elevated. You plan to prescribe atorvastatin, but she mentions that some of her acquaintances had to discontinue the medication due to intolerable side effects.

      What is a prevalent adverse reaction associated with atorvastatin?

      Your Answer:

      Correct Answer: Myalgia

      Explanation:

      While angio-oedema and rhabdomyolysis are rare side effects of statin therapy, myalgia is a commonly experienced one.

      Statins are drugs that inhibit the action of HMG-CoA reductase, which is the enzyme responsible for cholesterol synthesis in the liver. However, they can cause adverse effects such as myopathy, liver impairment, and an increased risk of intracerebral hemorrhage in patients with a history of stroke. Statins should not be taken during pregnancy or in combination with macrolides. NICE recommends statins for patients with established cardiovascular disease, a 10-year cardiovascular risk of 10% or higher, type 2 diabetes mellitus, or type 1 diabetes mellitus with certain criteria. It is recommended to take statins at night, especially simvastatin, which has a shorter half-life than other statins. NICE recommends atorvastatin 20mg for primary prevention and atorvastatin 80 mg for secondary prevention.

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      • Cardiovascular System
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  • Question 29 - A 45-year-old patient presents to the emergency department with increasing dyspnea on exertion...

    Incorrect

    • A 45-year-old patient presents to the emergency department with increasing dyspnea on exertion and swelling in both legs. A recent outpatient echocardiogram revealed a left ventricular ejection fraction of 31%. During chest examination, an extra heart sound is detected just prior to the first.

      What is the cause of this additional heart sound?

      Your Answer:

      Correct Answer: Atria contracting forcefully to overcome an abnormally stiff ventricle

      Explanation:

      The presence of S4, which sounds like a ‘gallop rhythm’, can be heard after S2 and in conjunction with a third heart sound. However, if the ventricles are contracting against a stiffened aorta, it would not produce a significant heart sound during this phase of the cardiac cycle. Any sound that may be heard in this scenario would occur between the first and second heart sounds during systole, and it would also cause a raised pulse pressure and be visible on chest X-ray as calcification. Delayed closure of the aortic valve could cause a split second heart sound, but it would appear around the time of S2, not before S1. On the other hand, retrograde flow of blood from the right ventricle into the right atrium, known as tricuspid regurgitation, would cause a systolic murmur instead of an additional isolated heart sound. This condition is often caused by infective endocarditis in intravenous drug users or a history of rheumatic fever.

      Heart sounds are the sounds produced by the heart during its normal functioning. The first heart sound (S1) is caused by the closure of the mitral and tricuspid valves, while the second heart sound (S2) is due to the closure of the aortic and pulmonary valves. The intensity of these sounds can vary depending on the condition of the valves and the heart. The third heart sound (S3) is caused by the diastolic filling of the ventricle and is considered normal in young individuals. However, it may indicate left ventricular failure, constrictive pericarditis, or mitral regurgitation in older individuals. The fourth heart sound (S4) may be heard in conditions such as aortic stenosis, HOCM, and hypertension, and is caused by atrial contraction against a stiff ventricle. The different valves can be best heard at specific sites on the chest wall, such as the left second intercostal space for the pulmonary valve and the right second intercostal space for the aortic valve.

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      • Cardiovascular System
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  • Question 30 - Which section of the ECG indicates atrial depolarization? ...

    Incorrect

    • Which section of the ECG indicates atrial depolarization?

      Your Answer:

      Correct Answer: P wave

      Explanation:

      The depolarization of the atria is represented by the P wave. It should be noted that the QRS complex makes it difficult to observe the repolarization of the atria.

      Understanding the Normal ECG

      The electrocardiogram (ECG) is a diagnostic tool used to assess the electrical activity of the heart. The normal ECG consists of several waves and intervals that represent different phases of the cardiac cycle. The P wave represents atrial depolarization, while the QRS complex represents ventricular depolarization. The ST segment represents the plateau phase of the ventricular action potential, and the T wave represents ventricular repolarization. The Q-T interval represents the time for both ventricular depolarization and repolarization to occur.

      The P-R interval represents the time between the onset of atrial depolarization and the onset of ventricular depolarization. The duration of the QRS complex is normally 0.06 to 0.1 seconds, while the duration of the P wave is 0.08 to 0.1 seconds. The Q-T interval ranges from 0.2 to 0.4 seconds depending upon heart rate. At high heart rates, the Q-T interval is expressed as a ‘corrected Q-T (QTc)’ by taking the Q-T interval and dividing it by the square root of the R-R interval.

      Understanding the normal ECG is important for healthcare professionals to accurately interpret ECG results and diagnose cardiac conditions. By analyzing the different waves and intervals, healthcare professionals can identify abnormalities in the electrical activity of the heart and provide appropriate treatment.

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      • Cardiovascular System
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