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Question 1
Incorrect
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A 72-year-old male is admitted with central chest pain. He reports that the pain occurs during physical activity and subsides with rest. He has a medical history of hypertension.
ECG results:
ECG T wave inversion in V4-V6
Blood results:
Troponin I 0.02 ng/ml (normal <0.07)
What is the molecule that troponin I attaches to?Your Answer: Calcium ions
Correct Answer: Actin
Explanation:Troponin I functions by binding to actin and securing the troponin-tropomyosin complex in place.
The clinical presentation suggests stable angina, with further evidence of ischemic heart disease seen in the T wave inversion in the lateral leads. The absence of elevated troponin I levels rules out a myocardial infarction.
Cardiac myocytes lack a neuromuscular junction and instead communicate with each other through gap junctions.
Calcium ions bind to troponin C.
Myosin constitutes the thick filament in muscle fibers, while actin slides along myosin to generate muscle contraction.
The sarcoplasmic reticulum plays a crucial role in regulating the concentration of calcium ions in the cytoplasm of striated muscle cells.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 2
Incorrect
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A 2-year-old child presents with cyanosis shortly after birth. The child has no family history of paediatric problems and the pregnancy was uneventful. Upon examination, the child is cyanotic, has a respiratory rate of 60 breaths per minute, and nasal flaring. An urgent echocardiogram reveals Ebstein's anomaly. Which valvular defect is commonly associated with this condition?
Your Answer: Aortic regurgitation
Correct Answer: Tricuspid regurgitation
Explanation:Ebstein’s anomaly is a congenital heart defect that results in the right ventricle being smaller than normal and the right atrium being larger than normal, a condition known as ‘atrialisation’. Tricuspid regurgitation is often present as well.
While aortic regurgitation is commonly associated with infective endocarditis, ascending aortic dissection, or connective tissue disorders like Marfan’s or Ehlers-Danlos, it is not typically seen in Ebstein’s anomaly. Similarly, aortic stenosis is usually caused by senile calcification rather than congenital heart disease.
The mitral valve is located on the left side of the heart and is not affected by Ebstein’s anomaly. Mitral regurgitation, on the other hand, can be caused by conditions such as rheumatic heart disease or left ventricular dilatation.
Pulmonary stenosis is typically associated with other congenital heart defects like Turner’s syndrome or Noonan’s syndrome, rather than Ebstein’s anomaly.
Understanding Ebstein’s Anomaly
Ebstein’s anomaly is a type of congenital heart defect that is characterized by the tricuspid valve being inserted too low, resulting in a large atrium and a small ventricle. This condition is also known as the atrialization of the right ventricle. It is believed that exposure to lithium during pregnancy may cause this condition.
Ebstein’s anomaly is often associated with other heart defects such as patent foramen ovale (PFO) or atrial septal defect (ASD), which can cause a shunt between the right and left atria. Additionally, patients with this condition may also have Wolff-Parkinson White syndrome.
Clinical features of Ebstein’s anomaly include cyanosis, a prominent a wave in the distended jugular venous pulse, hepatomegaly, tricuspid regurgitation, and a pansystolic murmur that worsens during inspiration. Patients may also exhibit right bundle branch block, which can lead to widely split S1 and S2 heart sounds.
In summary, Ebstein’s anomaly is a congenital heart defect that affects the tricuspid valve and can cause a range of symptoms and complications. Early diagnosis and treatment are essential for managing this condition and improving patient outcomes.
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This question is part of the following fields:
- Cardiovascular System
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Question 3
Incorrect
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A medical resident has been instructed by the geriatric consultant to review the medication chart of an elderly patient with a history of hypertension, heart failure, and biliary colic. The resident noticed a significant drop in systolic blood pressure upon standing and discontinued a medication that may have contributed to the postural hypotension. However, a few hours later, the patient's continuous cardiac monitoring showed tachycardia. Which medication cessation could have caused the tachycardia in this elderly patient?
Your Answer: Aspirin
Correct Answer: Atenolol
Explanation:Abruptly stopping atenolol, a beta blocker, can lead to ‘rebound tachycardia’. None of the other drugs listed have been associated with this condition. While ramipril, an ace-inhibitor, may have contributed to the patient’s postural hypotension, it is not known to cause tachycardia upon cessation. Furosemide, a loop diuretic, can worsen postural hypotension by causing volume depletion, but it is not known to cause tachycardia upon discontinuation. Aspirin and clopidogrel, both antiplatelet drugs, are unlikely to be stopped abruptly and are not associated with either ‘rebound tachycardia’ or postural hypotension.
Beta-blockers are a class of drugs that are primarily used to manage cardiovascular disorders. They have a wide range of indications, including angina, post-myocardial infarction, heart failure, arrhythmias, hypertension, thyrotoxicosis, migraine prophylaxis, and anxiety. Beta-blockers were previously avoided in heart failure, but recent evidence suggests that certain beta-blockers can improve both symptoms and mortality. They have also replaced digoxin as the rate-control drug of choice in atrial fibrillation. However, their role in reducing stroke and myocardial infarction has diminished in recent years due to a lack of evidence.
Examples of beta-blockers include atenolol and propranolol, which was one of the first beta-blockers to be developed. Propranolol is lipid-soluble, which means it can cross the blood-brain barrier.
Like all drugs, beta-blockers have side-effects. These can include bronchospasm, cold peripheries, fatigue, sleep disturbances (including nightmares), and erectile dysfunction. There are also some contraindications to using beta-blockers, such as uncontrolled heart failure, asthma, sick sinus syndrome, and concurrent use with verapamil, which can precipitate severe bradycardia.
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This question is part of the following fields:
- Cardiovascular System
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Question 4
Incorrect
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A 56-year-old man visits his GP complaining of congestive heart failure, angina, and exertional syncope. During the examination, the doctor observes a forceful apex beat and a systolic ejection murmur at the upper right sternal border.
What condition is most likely causing these symptoms?Your Answer: Aortic regurgitation
Correct Answer: Aortic stenosis
Explanation:Symptoms and Diagnosis of Heart Valve Disorders
Heart valve disorders can cause a range of symptoms depending on the type and severity of the condition. Aortic stenosis, for example, can lead to obstruction of left ventricular emptying, resulting in slow rising carotid pulse and a palpated murmur that may radiate to the neck. Aortic valve replacement is necessary for symptomatic patients to prevent death within three years or those with severe valve narrowing on ECHO. On the other hand, aortic regurgitation may not show any symptoms for many years until dyspnoea and fatigue set in. A blowing early diastolic murmur is typically found at the left sternal edge, and a mid-diastolic murmur may also be present over the apex of the heart.
Mitral regurgitation, whether acute or chronic, can cause pulmonary oedema, exertional dyspnoea, and lethargy. A pansystolic murmur is audible at the apex. Mitral stenosis, meanwhile, initially presents with exertional dyspnoea, but haemoptysis and a productive cough may also occur. A rumbling mid-diastolic murmur is indicative of mitral stenosis. Finally, a prolapsing mitral valve is common in young women and is usually asymptomatic, although atypical chest pain may be present. Overall, proper diagnosis and treatment of heart valve disorders are crucial to prevent complications and improve quality of life.
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This question is part of the following fields:
- Cardiovascular System
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Question 5
Correct
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An 80-year-old man is admitted to the acute medical ward after experiencing a myocardial infarction. During examination, it is discovered that his heart rate is 40 beats per minute. The consultant explains that this is due to damage to the conduction pathways between the sinoatrial and atrioventricular (AV) node, resulting in the AV node pacing his ventricles exclusively.
In most patients, what is the blood supply to the AV node?Your Answer: Right coronary artery
Explanation:The AV node is typically supplied by the right coronary artery in right-dominant hearts, while in left-dominant hearts it is supplied by the left circumflex artery. The left circumflex artery also supplies the left atrium and some of the left ventricle, while the right marginal artery supplies the right ventricle, the posterior descending artery supplies the posterior third of the interventricular septum, and 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.
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This question is part of the following fields:
- Cardiovascular System
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Question 6
Incorrect
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A 57-year-old man presents to the emergency department with a severe headache that started 3 weeks ago and is localised to the back of the head. He rates it 8/10 on a pain scale and reports that it has gradually become worse. The patient has a medical history of Ehlers-Danlos syndrome.
Unfortunately, the patient passes away after suffering a brainstem stroke.
During the autopsy, a vertebral artery dissection is discovered at the point of entry into the cranial cavity.
Where is this location?Your Answer: Supraorbital foramen
Correct Answer: Foramen magnum
Explanation:The vertebral arteries pass through the foramen magnum to enter the cranial cavity.
Other foramina and their corresponding arteries include the stylomastoid foramen for the posterior auricular artery (stylomastoid branch), the foramen ovale for the accessory meningeal artery, and the foramen spinosum for the middle meningeal artery.
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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This question is part of the following fields:
- Cardiovascular System
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Question 7
Incorrect
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Abnormal conduction in the heart can result in arrhythmias, which may be caused by reduced blood flow in the coronary arteries leading to hypoxia. This can slow depolarisation in phase 0, resulting in slower conduction speeds.
What ion movement is responsible for the rapid depolarisation observed in the cardiac action potential?Your Answer: Calcium influx
Correct Answer: Sodium influx
Explanation:Rapid depolarization is caused by a rapid influx of sodium.
During phase 2, the plateau period, calcium influx is responsible.
To maintain the electrical gradient, there is potassium influx in phase 4, which is facilitated by inward rectifying K+ channels and the Na+/K+ ion exchange pump.
Potassium efflux mainly occurs during phases 1 and 3.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 8
Incorrect
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A 67-year-old man presents to the emergency department with chest pain. He describes this as crushing central chest pain which is associated with nausea and sweating.
Blood results are as follows:
Hb 148 g/L Male: (135-180)
Female: (115 - 160)
Platelets 268 * 109/L (150 - 400)
WBC 14.6 * 109/L (4.0 - 11.0)
Na+ 136 mmol/L (135 - 145)
K+ 4.7 mmol/L (3.5 - 5.0)
Urea 6.2 mmol/L (2.0 - 7.0)
Creatinine 95 ยตmol/L (55 - 120)
Troponin 4058 ng/L (< 14 ng/L)
An ECG is performed which demonstrates:
Current ECG Sinus rhythm, QRS 168ms, dominant S wave in V1
Previous ECG 12 months ago No abnormality
Which part of the heart's conduction system is likely to be affected?Your Answer: SA node
Correct Answer: Purkinje fibres
Explanation:The Purkinje fibres have the highest conduction velocities in the heart, and a prolonged QRS (>120ms) with a dominant S wave in V1 may indicate left bundle branch block (LBBB). If a patient presents with chest pain, a raised troponin, and a previously normal ECG, LBBB should be considered as a possible cause and managed as an acute STEMI. LBBB is caused by damage to the left bundle branch and its associated 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.
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This question is part of the following fields:
- Cardiovascular System
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Question 9
Correct
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A patient in their 60s is diagnosed with first-degree heart block which is shown on their ECG by an elongated PR interval. The PR interval relates to a particular period in the electrical conductance of the heart.
What factors could lead to a decrease in the PR interval?Your Answer: Increased conduction velocity across the AV node
Explanation:An increase in sympathetic activation leads to a faster heart rate by enhancing the conduction velocity of the AV node. The PR interval represents the time between the onset of atrial depolarization (P wave) and the onset of ventricular depolarization (beginning of QRS complex). While atrial conduction occurs at a speed of 1m/s, the AV node only conducts at 0.05m/s. Consequently, the AV node is the limiting factor, and a reduction in the PR interval is determined by the conduction velocity across the AV node.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 10
Incorrect
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A 75-year-old man presents to the clinic with a chief complaint of dyspnea while in a supine position. Despite having a normal ejection fraction, what could be a potential cause for his symptoms?
Your Answer: He has systolic dysfunction
Correct Answer: He has diastolic dysfunction
Explanation:When there is systolic dysfunction, the ejection fraction decreases as the stroke volume decreases. However, in cases of diastolic dysfunction, ejection fraction is not a reliable indicator as both stroke volume and end-diastolic volume may be reduced. Diastolic dysfunction occurs when the heart’s compliance is reduced.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 11
Incorrect
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An ENT surgeon is performing a radical neck dissection. She wishes to fully expose the external carotid artery. To do so she inserts a self retaining retractor close to its origin. Which one of the following structures lies posterolaterally to the external carotid at this point?
Your Answer: Lingual artery
Correct Answer: Internal carotid artery
Explanation:At its origin from the common carotid, the internal carotid artery is located at the posterolateral position in relation to the external carotid artery. Its anterior surface gives rise to the superior thyroid, lingual, and facial arteries.
Anatomy of the External Carotid Artery
The external carotid artery begins on the side of the pharynx and runs in front of the internal carotid artery, behind the posterior belly of digastric and stylohyoid muscles. It is covered by sternocleidomastoid muscle and passed by hypoglossal nerves, lingual and facial veins. The artery then enters the parotid gland and divides into its terminal branches within the gland.
To locate the external carotid artery, an imaginary line can be drawn from the bifurcation of the common carotid artery behind the angle of the jaw to a point in front of the tragus of the ear.
The external carotid artery has six branches, with three in front, two behind, and one deep. The three branches in front are the superior thyroid, lingual, and facial arteries. The two branches behind are the occipital and posterior auricular arteries. The deep branch is the ascending pharyngeal artery. The external carotid artery terminates by dividing into the superficial temporal and maxillary arteries within the parotid gland.
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This question is part of the following fields:
- Cardiovascular System
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Question 12
Correct
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A 67-year-old man is admitted to the hospital with central crushing chest pain and undergoes a coronary angiogram. Arterial blockage can result from atherosclerosis, which can cause changes in the endothelium. What is an anticipated change in the endothelium?
Your Answer: Reduced nitric oxide bioavailability
Explanation:Fatty infiltration in the subendothelial space is associated with LDL particles, but the endothelium undergoes changes that include reduced nitric oxide bioavailability, proliferation, and pro-inflammatory and pro-oxidant effects.
Understanding Atherosclerosis and its Complications
Atherosclerosis is a complex process that occurs over several years. It begins with endothelial dysfunction triggered by factors such as smoking, hypertension, and hyperglycemia. This leads to changes in the endothelium, including inflammation, oxidation, proliferation, and reduced nitric oxide bioavailability. As a result, low-density lipoprotein (LDL) particles infiltrate the subendothelial space, and monocytes migrate from the blood and differentiate into macrophages. These macrophages that phagocytose oxidized LDL, slowly turning into large ‘foam cells’. Smooth muscle proliferation and migration from the tunica media into the intima result in the formation of a fibrous capsule covering the fatty plaque.
Once a plaque has formed, it can cause several complications. For example, it can form a physical blockage in the lumen of the coronary artery, leading to reduced blood flow and oxygen to the myocardium, resulting in angina. Alternatively, the plaque may rupture, potentially causing a complete occlusion of the coronary artery and resulting in a myocardial infarction. It is essential to understand the process of atherosclerosis and its complications to prevent and manage cardiovascular diseases effectively.
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This question is part of the following fields:
- Cardiovascular System
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Question 13
Incorrect
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A 72-year-old male is admitted post myocardial infarction.
Suddenly, on day seven, he collapses without warning. The physician observes the presence of Kussmaul's sign.
What is the most probable complication of MI in this case?Your Answer: Cardiac failure
Correct Answer: Ventricular rupture
Explanation:Complications of Myocardial Infarction: Cardiac Tamponade
Myocardial infarction can lead to a range of complications, including cardiac tamponade. This occurs when there is ventricular rupture, which can be life-threatening. One way to diagnose cardiac tamponade is through Kussmaul’s sign, which is the detection of a rising jugular venous pulse on inspiration. However, the classic diagnostic triad for cardiac tamponade is Beck’s triad, which includes hypotension, raised JVP, and muffled heart sounds.
It is important to note that Dressler’s syndrome, a type of pericarditis that can occur after a myocardial infarction, typically has a gradual onset and is associated with chest pain. Therefore, it is important to differentiate between these complications in order to provide appropriate treatment.
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This question is part of the following fields:
- Cardiovascular System
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Question 14
Incorrect
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A 75-year-old man presents to the emergency department with chest pain and shortness of breath while gardening. He reports that the pain has subsided and is able to provide a detailed medical history. He mentions feeling breathless while gardening and walking in the park, and occasionally feeling like he might faint. He has a history of hypertension, is a retired construction worker, and a non-smoker. On examination, the doctor detects a crescendo-decrescendo systolic ejection murmur. The ECG shows no ST changes and the troponin test is negative. What is the underlying pathology responsible for this man's condition?
Your Answer: Fibrous plaque formation in the coronary arteries
Correct Answer: Old-age related calcification of the aortic valves
Explanation:The patient’s symptoms suggest an ischemic episode of the myocardium, which could indicate an acute coronary syndrome (ACS). However, the troponin test and ECG results were negative, and there are no known risk factors for coronary artery disease. Instead, the presence of a crescendo-decrescendo systolic ejection murmur and the triad of breathlessness, chest pain, and syncope suggest a likely diagnosis of aortic stenosis, which is commonly caused by calcification of the aortic valves in older adults or abnormal valves in younger individuals.
Arteriolosclerosis in severe systemic hypertension leads to hyperplastic proliferation of smooth muscle cells in the arterial walls, resulting in an onion-skin appearance. This is distinct from hyaline arteriolosclerosis, which is associated with diabetes mellitus and hypertension. Atherosclerosis, characterized by fibrous plaque formation in the coronary arteries, can lead to cardiac ischemia and myocyte death if the plaque ruptures and forms a thrombus.
After a myocardial infarction, the rupture of the papillary muscle can cause mitral regurgitation, which is most likely to occur between days 2 and 7 as macrophages begin to digest necrotic myocardial tissue. The posteromedial papillary muscle is particularly at risk due to its single blood supply from the posterior descending artery.
Aortic stenosis is a condition characterized by the narrowing of the aortic valve, which can lead to various symptoms. These symptoms include chest pain, dyspnea, syncope or presyncope, and a distinct ejection systolic murmur that radiates to the carotids. Severe aortic stenosis can cause a narrow pulse pressure, slow rising pulse, delayed ESM, soft/absent S2, S4, thrill, duration of murmur, and left ventricular hypertrophy or failure. The condition can be caused by degenerative calcification, bicuspid aortic valve, William’s syndrome, post-rheumatic disease, or subvalvular HOCM.
Management of aortic stenosis depends on the severity of the condition and the presence of symptoms. Asymptomatic patients are usually observed, while symptomatic patients require valve replacement. Surgical AVR is the preferred treatment for young, low/medium operative risk patients, while TAVR is used for those with a high operative risk. Balloon valvuloplasty may be used in children without aortic valve calcification and in adults with critical aortic stenosis who are not fit for valve replacement. If the valvular gradient is greater than 40 mmHg and there are features such as left ventricular systolic dysfunction, surgery may be considered even if the patient is asymptomatic.
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This question is part of the following fields:
- Cardiovascular System
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Question 15
Correct
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A 87-year-old male with chronic untreated hypertension arrives at the emergency department complaining of chest pain. Upon examination of his ECG, it is observed that there are tall QRS complexes throughout the entire ECG with elevated R-waves in the left-sided leads. What condition does this suggest?
Your Answer: Left ventricular hypertrophy (LVF)
Explanation:ST elevation is expected in the leads corresponding to the affected part of the heart in an STEMI, while ST depression, T wave inversion, or no change is expected in an NSTEMI or angina. Dilated cardiomyopathy does not have any classical ECG changes, and it is not commonly associated with hypertension as LVF. LVF, on the other hand, causes left ventricular hypertrophy due to prolonged hypertension, resulting in an increase in R-wave amplitude in leads 1, aVL, and V4-6, as well as an increase in S wave depth in leads III, aVR, and V1-3 on the right side.
ECG Indicators of Atrial and Ventricular Hypertrophy
Left ventricular hypertrophy is indicated on an ECG when the sum of the S wave in V1 and the R wave in V5 or V6 exceeds 40 mm. Meanwhile, right ventricular hypertrophy is characterized by a dominant R wave in V1 and a deep S wave in V6. In terms of atrial hypertrophy, left atrial enlargement is indicated by a bifid P wave in lead II with a duration of more than 120 ms, as well as a negative terminal portion in the P wave in V1. On the other hand, right atrial enlargement is characterized by tall P waves in both II and V1 that exceed 0.25 mV. These ECG indicators can help diagnose and monitor patients with atrial and ventricular hypertrophy.
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This question is part of the following fields:
- Cardiovascular System
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Question 16
Correct
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A 50-year-old man comes to the clinic complaining of a painful left foot that he woke up with. Initially, he didn't want to bother the doctor, but now he's concerned because he can't feel his foot or move his toes. Upon examination, the left foot is cold to the touch and very pale. What is the probable diagnosis?
Your Answer: Acute limb ischaemia
Explanation:Acute Limb Ischaemia and Compartment Syndrome
Acute limb ischaemia is a condition that is characterized by six Ps: pain, pallor, pulselessness, perishingly cold, paresthesia, and paralysis. It is a medical emergency that requires immediate attention from a vascular surgeon. Delaying treatment for even a few hours can lead to amputation or death. On the other hand, acute compartment syndrome occurs when the pressure within a closed muscle compartment exceeds the perfusion pressure, resulting in muscle and nerve ischaemia. This condition usually follows a traumatic event, such as a fracture. However, in some cases, there may be no history of trauma.
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This question is part of the following fields:
- Cardiovascular System
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Question 17
Incorrect
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A 67-year-old woman has been prescribed amiodarone. She has been advised to take higher doses initially and then switch to a lower maintenance dose for long-term use.
What is the rationale behind this initial dosing regimen?Your Answer: Slow renal excretion of amiodarone
Correct Answer: Slow metabolism of amiodarone due to extensive lipid binding
Explanation:A loading dose is necessary for amiodarone to achieve therapeutic levels quickly before transitioning to a maintenance dose. This is because a 50mg once daily maintenance dose would take a long time to reach the required 1000mg for therapeutic effect. The fast metabolism of amiodarone due to extensive protein binding, extensive hepatic P450 breakdown, and slow absorption via the enteral route are not the reasons for a loading regime.
Amiodarone is a medication used to treat various types of abnormal heart rhythms. It works by blocking potassium channels, which prolongs the action potential and helps to regulate the heartbeat. However, it also has other effects, such as blocking sodium channels. Amiodarone has a very long half-life, which means that loading doses are often necessary. It should ideally be given into central veins to avoid thrombophlebitis. Amiodarone can cause proarrhythmic effects due to lengthening of the QT interval and can interact with other drugs commonly used at the same time. Long-term use of amiodarone can lead to various adverse effects, including thyroid dysfunction, corneal deposits, pulmonary fibrosis/pneumonitis, liver fibrosis/hepatitis, peripheral neuropathy, myopathy, photosensitivity, a ‘slate-grey’ appearance, thrombophlebitis, injection site reactions, and bradycardia. Patients taking amiodarone should be monitored regularly with tests such as TFT, LFT, U&E, and CXR.
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This question is part of the following fields:
- Cardiovascular System
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Question 18
Incorrect
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A 34-year-old woman visits her doctor after discovering she is pregnant. She is currently taking the following medications:
- Loratadine 10mg once daily
- Omeprazole 10mg once daily
- Metformin 500mg three times daily
- Warfarin 5 mg once daily
- Senna 15mg at night
Which medication(s) should she discontinue during her pregnancy?Your Answer: Omeprazole
Correct Answer: Warfarin
Explanation:Understanding Warfarin: Mechanism of Action, Indications, Monitoring, Factors, and Side-Effects
Warfarin is an oral anticoagulant that has been widely used for many years to manage venous thromboembolism and reduce stroke risk in patients with atrial fibrillation. However, it has been largely replaced by direct oral anticoagulants (DOACs) due to their ease of use and lack of need for monitoring. Warfarin works by inhibiting epoxide reductase, which prevents the reduction of vitamin K to its active hydroquinone form. This, in turn, affects the carboxylation of clotting factor II, VII, IX, and X, as well as protein C.
Warfarin is indicated for patients with mechanical heart valves, with the target INR depending on the valve type and location. Mitral valves generally require a higher INR than aortic valves. It is also used as a second-line treatment after DOACs for venous thromboembolism and atrial fibrillation, with target INRs of 2.5 and 3.5 for recurrent cases. Patients taking warfarin are monitored using the INR, which may take several days to achieve a stable level. Loading regimes and computer software are often used to adjust the dose.
Factors that may potentiate warfarin include liver disease, P450 enzyme inhibitors, cranberry juice, drugs that displace warfarin from plasma albumin, and NSAIDs that inhibit platelet function. Warfarin may cause side-effects such as haemorrhage, teratogenic effects, skin necrosis, temporary procoagulant state, thrombosis, and purple toes.
In summary, understanding the mechanism of action, indications, monitoring, factors, and side-effects of warfarin is crucial for its safe and effective use in patients. While it has been largely replaced by DOACs, warfarin remains an important treatment option for certain patients.
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This question is part of the following fields:
- Cardiovascular System
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Question 19
Incorrect
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A 68-year-old man arrives at the emergency department complaining of intense abdominal pain that spreads to his back. His medical history shows that he has an abdominal aortic aneurysm. During a FAST scan, it is discovered that the abdominal aorta is widely dilated, with the most significant expansion occurring at the point where it divides into the iliac arteries. What vertebral level corresponds to the location of the most prominent dilation observed in the FAST scan?
Your Answer: T12
Correct Answer: L4
Explanation:The abdominal aorta divides into two branches at the level of the fourth lumbar vertebrae. At the level of T12, the coeliac trunk arises, while at L1, the superior mesenteric artery branches off. The testicular artery and renal artery originate at L2, and at L3, the inferior mesenteric artery is formed.
The aorta is a major blood vessel that carries oxygenated blood from the heart to the rest of the body. At different levels along the aorta, there are branches that supply blood to specific organs and regions. These branches include the coeliac trunk at the level of T12, which supplies blood to the stomach, liver, and spleen. The left renal artery, at the level of L1, supplies blood to the left kidney. The testicular or ovarian arteries, at the level of L2, supply blood to the reproductive organs. The inferior mesenteric artery, at the level of L3, supplies blood to the lower part of the large intestine. Finally, at the level of L4, the abdominal aorta bifurcates, or splits into two branches, which supply blood to the legs and pelvis.
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This question is part of the following fields:
- Cardiovascular System
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Question 20
Incorrect
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A 28-year-old, gravida 2 para 1, presents to the emergency department with pelvic pain. She delivered a healthy baby at 37 weeks gestation 13 days ago.
During the examination, it was found that she has right lower quadrant pain and her temperature is 37.8ยบ C. Further tests revealed a left gonadal (ovarian) vein thrombosis. The patient was informed about the risk of the thrombus lodging in the venous system from the left gonadal vein.
What is the first structure that the thrombus will go through if lodged from the left gonadal vein?Your Answer: Portal vein
Correct Answer: Left renal vein
Explanation:The left gonadal veins empty into the left renal vein, meaning that any thrombus originating from the left gonadal veins would travel to the left renal vein. However, if the thrombus originated from the right gonadal vein, it would flow into the inferior vena cava (IVC) since the right gonadal vein directly drains into the IVC.
The portal vein is typically formed by the merging of the superior mesenteric and splenic veins, and it also receives blood from the inferior mesenteric, gastric, and cystic veins.
The superior vena cava collects venous drainage from the upper half of the body, specifically above the diaphragm.
Anatomy of the Inferior Vena Cava
The inferior vena cava (IVC) originates from the fifth lumbar vertebrae and is formed by the merging of the left and right common iliac veins. It passes to the right of the midline and receives drainage from paired segmental lumbar veins throughout its length. The right gonadal vein empties directly into the cava, while the left gonadal vein usually empties into the left renal vein. The renal veins and hepatic veins are the next major veins that drain into the IVC. The IVC pierces the central tendon of the diaphragm at the level of T8 and empties into the right atrium of the heart.
The IVC is related anteriorly to the small bowel, the first and third parts of the duodenum, the head of the pancreas, the liver and bile duct, the right common iliac artery, and the right gonadal artery. Posteriorly, it is related to the right renal artery, the right psoas muscle, the right sympathetic chain, and the coeliac ganglion.
The IVC is divided into different levels based on the veins that drain into it. At the level of T8, it receives drainage from the hepatic vein and inferior phrenic vein before piercing the diaphragm. At the level of L1, it receives drainage from the suprarenal veins and renal vein. At the level of L2, it receives drainage from the gonadal vein, and at the level of L1-5, it receives drainage from the lumbar veins. Finally, at the level of L5, the common iliac vein merges to form the IVC.
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This question is part of the following fields:
- Cardiovascular System
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