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Question 1
Correct
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A 50-year-old man is having a lymph node biopsy taken from the posterior triangle of his neck. What structure creates the posterior boundary of this area?
Your Answer: Trapezius muscle
Explanation: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.
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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 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 absorption of amiodarone via the enteral route
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 3
Incorrect
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A 56-year-old male comes to your clinic complaining of occasional chest pain that usually occurs after meals and typically subsides within a few hours. He has a medical history of bipolar disorder, osteoarthritis, gout, and hyperparathyroidism. Currently, he is undergoing a prolonged course of antibiotics for prostatitis.
During his visit, an ECG reveals a QT interval greater than 520 ms.
What is the most likely cause of the observed ECG changes?
- Lithium overdose
- Paracetamol use
- Hypercalcemia
- Erythromycin use
- Amoxicillin use
Explanation: The most probable cause of the prolonged QT interval is erythromycin use, which is commonly associated with this ECG finding. Given the patient's medical history, it is likely that he is taking erythromycin for his prostatitis. Amoxicillin is not known to cause QT prolongation. Lithium toxicity typically presents with symptoms such as vomiting, diarrhea, tremors, and agitation. Hypercalcemia is more commonly associated with a short QT interval, making it an unlikely cause. Paracetamol is not known to cause QT prolongation.Your Answer: Hypercalcaemia
Correct Answer: Erythromycin use
Explanation:The prolonged QT interval can be caused by erythromycin.
It is highly probable that the patient is taking erythromycin to treat his prostatitis, which is the reason for the prolonged QT interval.
Long QT syndrome (LQTS) is a genetic condition that causes a delay in the ventricles’ repolarization. This delay can lead to ventricular tachycardia/torsade de pointes, which can cause sudden death or collapse. The most common types of LQTS are LQT1 and LQT2, which are caused by defects in the alpha subunit of the slow delayed rectifier potassium channel. A normal corrected QT interval is less than 430 ms in males and 450 ms in females.
There are various causes of a prolonged QT interval, including congenital factors, drugs, and other conditions. Congenital factors include Jervell-Lange-Nielsen syndrome and Romano-Ward syndrome. Drugs that can cause a prolonged QT interval include amiodarone, sotalol, tricyclic antidepressants, and selective serotonin reuptake inhibitors. Other factors that can cause a prolonged QT interval include electrolyte imbalances, acute myocardial infarction, myocarditis, hypothermia, and subarachnoid hemorrhage.
LQTS may be detected on a routine ECG or through family screening. Long QT1 is usually associated with exertional syncope, while Long QT2 is often associated with syncope following emotional stress, exercise, or auditory stimuli. Long QT3 events often occur at night or at rest and can lead to sudden cardiac death.
Management of LQTS involves avoiding drugs that prolong the QT interval and other precipitants if appropriate. Beta-blockers are often used, and implantable cardioverter defibrillators may be necessary in high-risk cases. It is important to note that sotalol may exacerbate LQTS.
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This question is part of the following fields:
- Cardiovascular System
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Question 4
Correct
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A 57-year-old man needs long term parenteral nutrition and a PICC line is chosen for long term venous access. The insertion site is the elbow region of the basilic vein. During catheter advancement, which venous structure is the catheter tip most likely to pass into from the basilic vein?
Your Answer: Axillary vein
Explanation:The most common site for a PICC line to end up in is the axillary vein, which is where the basilic vein drains into. While PICC lines can be placed in various locations, the posterior circumflex humeral vein is typically encountered before the axillary vein. However, due to its angle of entry into the basilic vein, it is unlikely for a PICC line to enter this structure.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 5
Incorrect
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A 55-year-old Hispanic man visits his GP for a blood pressure check-up. As he experienced ankle swelling with amlodipine, the GP recommends trying bendroflumethiazide. Can you explain the mechanism of action of this diuretic?
Your Answer: Inhibits the sodium-potassium-chloride cotransporter
Correct Answer: Inhibits the sodium-chloride transporter
Explanation:Thiazides and thiazide-like drugs, such as indapamide, work by blocking the Na+-Cl− symporter at the beginning of the distal convoluted tubule, which inhibits sodium reabsorption. Bendroflumethiazide is a thiazide diuretic that prevents the absorption of sodium and chloride by inhibiting the sodium-chloride transporter, resulting in water remaining in the tubule through osmosis. Mannitol is an osmotic diuretic that is used to reduce intracranial pressure after a head injury. Spironolactone is an aldosterone antagonist, while furosemide acts on the thick ascending loop of Henle to prevent the reabsorption of potassium, sodium, and chloride. Acetazolamide is a carbonic anhydrase inhibitor that is used to treat acute angle closure glaucoma.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 6
Correct
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A 65-year-old man was effectively cardioverted for an unstable broad complex tachycardia. The physician opts to initiate oral amiodarone at 200 mg thrice daily, and gradually decrease at weekly intervals until a maintenance dose of 200 mg once daily.
What is the rationale behind this dosing plan?Your Answer: Amiodarone has a very long half-life
Explanation:Amiodarone’s long half-life is due to its high lipophilicity and extensive tissue absorption, resulting in reduced bioavailability in serum. To achieve stable therapeutic levels, a prolonged loading regimen is necessary.
To quickly achieve therapeutic levels, high doses of oral amiodarone are required due to poor absorption. Once achieved, a once-daily regimen can be continued. Amiodarone’s plasma half-life ranges from 20 to 100 days, meaning its effects persist long after discontinuation. Patients should be counseled on this and advised to recognize adverse effects and avoid drugs that interact with amiodarone even after stopping it.
The statement that amiodarone has a short half-life is incorrect; it has a long half-life.
Patients do not need to stay admitted for monitoring during the loading regimen. However, thyroid and liver function tests should be performed every 6 months for up to 12 months after discontinuation due to the long half-life.
Amiodarone is excreted via the liver and biliary system, not rapidly metabolized and eliminated by the kidneys. Therefore, patients with amiodarone overdose or toxicity are not suitable for dialysis.
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 7
Correct
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A 65-year-old man presents to the Emergency Department with a 60-minute history of central chest pain that extends to his jaw. An ECG reveals an inferior ST-segment elevation myocardial infarction (STEMI). The QRS is positive in leads I and aVL but negative in leads II and aVF. What type of axis deviation is indicated by this finding?
Your Answer: Left
Explanation:To estimate the heart’s axis, one method is the quadrant method, which involves analyzing leads I and aVF. If lead I is positive and lead aVF is negative, this suggests a possible left axis deviation. To confirm left axis deviation, a second method using lead II can be used. If lead II is also negative, then left axis deviation is confirmed. Other types of axis deviation can be determined by analyzing the polarity of leads I and aVF.
ECG Axis Deviation: Causes of Left and Right Deviation
Electrocardiogram (ECG) axis deviation refers to the direction of the electrical activity of the heart. A normal axis is between -30 and +90 degrees. Deviation from this range can indicate underlying cardiac or pulmonary conditions.
Left axis deviation (LAD) can be caused by left anterior hemiblock, left bundle branch block, inferior myocardial infarction, Wolff-Parkinson-White syndrome with a right-sided accessory pathway, hyperkalaemia, congenital heart defects such as ostium primum atrial septal defect (ASD) and tricuspid atresia, and minor LAD in obese individuals.
On the other hand, right axis deviation (RAD) can be caused by right ventricular hypertrophy, left posterior hemiblock, lateral myocardial infarction, chronic lung disease leading to cor pulmonale, pulmonary embolism, ostium secundum ASD, Wolff-Parkinson-White syndrome with a left-sided accessory pathway, and minor RAD in tall individuals. It is also normal in infants less than one year old.
It is important to note that Wolff-Parkinson-White syndrome is a common cause of both LAD and RAD, depending on the location of the accessory pathway. Understanding the causes of ECG axis deviation can aid in the diagnosis and management of underlying conditions.
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This question is part of the following fields:
- Cardiovascular System
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Question 8
Correct
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A man in his 50s arrives at the emergency department exhibiting signs of a stroke. After undergoing a CT angiogram, it is revealed that there is a constriction in the artery that provides blood to the right common carotid.
What is the name of the affected artery?Your Answer: Brachiocephalic artery
Explanation:The largest branch from the aortic arch is the brachiocephalic artery, which originates from it. This artery gives rise to both the right subclavian artery and the right common carotid arteries. The brachiocephalic artery is supplied by the aortic arch, while the coronary arteries are supplied by the ascending aorta. Additionally, the coeliac trunk is a branch that stems from the abdominal aorta.
The Brachiocephalic Artery: Anatomy and Relations
The brachiocephalic artery is the largest branch of the aortic arch, originating at the apex of the midline. It ascends superiorly and posteriorly to the right, lying initially anterior to the trachea and then on its right-hand side. At the level of the sternoclavicular joint, it divides into the right subclavian and right common carotid arteries.
In terms of its relations, the brachiocephalic artery is anterior to the sternohyoid, sterno-thyroid, thymic remnants, left brachiocephalic vein, and right inferior thyroid veins. Posteriorly, it is related to the trachea, right pleura, right lateral, right brachiocephalic vein, superior part of the SVC, left lateral, thymic remnants, origin of left common carotid, inferior thyroid veins, and trachea at a higher level.
The brachiocephalic artery typically has no branches, but it may have the thyroidea ima artery. Understanding the anatomy and relations of the brachiocephalic artery is important for medical professionals, as it is a crucial vessel in the human body.
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This question is part of the following fields:
- Cardiovascular System
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Question 9
Incorrect
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A man in his 50s arrives at the emergency department with bleeding following a car accident. Despite significant blood loss, his blood pressure has remained stable. What can be said about the receptors responsible for regulating his blood pressure?
Your Answer: Baroreceptor impulses travel via the sympathetic nervous system
Correct Answer: Baroreceptors are stimulated by arterial stretch
Explanation:Arterial stretch stimulates baroreceptors, which are located at the aortic arch and carotid sinus. The baroreceptor reflex acts on the medulla to regulate parasympathetic and sympathetic activity. When baroreceptors are more stimulated, there is an increase in parasympathetic discharge to the SA node and a decrease in sympathetic discharge. Conversely, reduced stimulation of baroreceptors leads to decreased parasympathetic discharge and increased sympathetic discharge. Baroreceptors are always active, and changes in arterial stretch can either increase or decrease their level of stimulation.
The heart has four chambers and generates pressures of 0-25 mmHg on the right side and 0-120 mmHg on the left. The cardiac output is the product of heart rate and stroke volume, typically 5-6L per minute. The cardiac impulse is generated in the sino atrial node and conveyed to the ventricles via the atrioventricular node. Parasympathetic and sympathetic fibers project to the heart via the vagus and release acetylcholine and noradrenaline, respectively. The cardiac cycle includes mid diastole, late diastole, early systole, late systole, and early diastole. Preload is the end diastolic volume and afterload is the aortic pressure. Laplace’s law explains the rise in ventricular pressure during the ejection phase and why a dilated diseased heart will have impaired systolic function. Starling’s law states that an increase in end-diastolic volume will produce a larger stroke volume up to a point beyond which stroke volume will fall. Baroreceptor reflexes and atrial stretch receptors are involved in regulating cardiac output.
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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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Which one of the following statements relating to the basilar artery and its branches is false?
Your Answer: The labyrinthine branch is accompanied by the facial nerve
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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This question is part of the following fields:
- Cardiovascular System
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Question 11
Incorrect
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Which segment of the ECG waveform corresponds to the shutting of the mitral valve?
Your Answer: T wave
Correct Answer: QRS complex
Explanation:A diagram depicting the various stages of the cardiac cycle can be accessed through the external link provided.
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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This question is part of the following fields:
- Cardiovascular System
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Question 12
Incorrect
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A patient with chronic heart failure with reduced ejection fraction has been prescribed a new medication as part of their drug regimen. This drug aims to improve myocardial contractility, but it is also associated with various side effects, such as arrhythmias. Its mechanism of action is blocking a protein with an important role in the resting potential of cardiac muscle cells.
What protein is the drug targeting?Your Answer: K+ channels
Correct Answer: Na+/K+ ATPases
Explanation: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 13
Incorrect
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You are attending a cardiology clinic one morning. A 54-year-old man presents for a medication review. He is currently taking a beta-blocker but is still frequently symptomatic. From his medication history, it is evident that he does not tolerate calcium channel blockers.
The consultant considers the option of starting him on a new drug called nicorandil. The patient is hesitant to try it out as he believes it is a calcium channel blocker. You have been asked to explain the mechanism of action of nicorandil to this patient.
What is the way in which the new drug exerts its effect?Your Answer:
Correct Answer: Causes vasodilation by activating guanylyl cyclase which causes an increase in cGMP
Explanation:Nicorandil induces vasodilation by activating guanylyl cyclase, leading to an increase in cyclic GMP. This results in the relaxation of vascular smooth muscles through the prevention of calcium ion influx and dephosphorylation of myosin light chains. Additionally, nicorandil activates ATP-sensitive potassium channels, causing hyperpolarization and preventing intracellular calcium overload, which plays a cardioprotective role.
Nicorandil is a medication that is commonly used to treat angina. It works by activating potassium channels, which leads to vasodilation. This process is achieved through the activation of guanylyl cyclase, which results in an increase in cGMP. However, there are some adverse effects associated with the use of nicorandil, including headaches, flushing, and the development of ulcers on the skin, mucous membranes, and eyes. Additionally, gastrointestinal ulcers, including anal ulceration, may also occur. It is important to note that nicorandil should not be used in patients with left ventricular failure.
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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 baby is born prematurely at 28 weeks, increasing the likelihood of delayed closure of the ductus venosus. What are the structures that the ductus venosus connects in the fetus?
Your Answer:
Correct Answer: IVC and umbilical vein
Explanation:During fetal development, the ductus venosus redirects blood flow from the left umbilical vein directly to the inferior vena cava, enabling oxygenated blood from the placenta to bypass the fetal liver. Typically, the ductus closes and becomes the ligamentum venosum between day 3 and 7. However, premature infants are more susceptible to delayed closure.
During cardiovascular embryology, the heart undergoes significant development and differentiation. At around 14 days gestation, the heart consists of primitive structures such as the truncus arteriosus, bulbus cordis, primitive atria, and primitive ventricle. These structures give rise to various parts of the heart, including the ascending aorta and pulmonary trunk, right ventricle, left and right atria, and majority of the left ventricle. The division of the truncus arteriosus is triggered by neural crest cell migration from the pharyngeal arches, and any issues with this migration can lead to congenital heart defects such as transposition of the great arteries or tetralogy of Fallot. Other structures derived from the primitive heart include the coronary sinus, superior vena cava, fossa ovalis, and various ligaments such as the ligamentum arteriosum and ligamentum venosum. The allantois gives rise to the urachus, while the umbilical artery becomes the medial umbilical ligaments and the umbilical vein becomes the ligamentum teres hepatis inside the falciform ligament. Overall, cardiovascular embryology is a complex process that involves the differentiation and development of various structures that ultimately form the mature heart.
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This question is part of the following fields:
- Cardiovascular System
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Question 15
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:
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 16
Incorrect
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An 80-year-old man arrives at the emergency department complaining of severe chest pain that spreads to his left arm. He also experiences nausea and excessive sweating. After conducting an ECG, you observe ST-segment elevation in leads II, III, and aVF, leading to a diagnosis of an inferior ST-elevation MI. Can you identify the primary coronary vessel that supplies blood to the base of the heart?
Your Answer:
Correct Answer: Right coronary artery
Explanation:The heart has several arteries that supply blood to different areas. The right coronary artery supplies the right side of the heart and can cause a heart attack in the lower part of the heart, which can lead to abnormal heart rhythms. The left anterior descending artery and left circumflex artery supply the left side of the heart and can cause heart attacks in different areas, which can be detected by changes in specific leads on an ECG. The left marginal artery branches off the left circumflex artery and supplies blood to the outer edge of the heart.
The following table displays the relationship between ECG changes and the affected coronary artery territories. Anteroseptal changes in V1-V4 indicate involvement of the left anterior descending artery, while inferior changes in II, III, and aVF suggest the right coronary artery is affected. Anterolateral changes in V4-6, I, and aVL may indicate involvement of either the left anterior descending or left circumflex artery, while lateral changes in I, aVL, and possibly V5-6 suggest the left circumflex artery is affected. Posterior changes in V1-3 may indicate a posterior infarction, which is typically caused by the left circumflex artery but can also be caused by the right coronary artery. Reciprocal changes of STEMI are often seen as horizontal ST depression, tall R waves, upright T waves, and a dominant R wave in V2. Posterior infarction is confirmed by ST elevation and Q waves in posterior leads (V7-9), usually caused by the left circumflex artery but also possibly the right coronary artery. It is important to note that a new LBBB may indicate acute coronary syndrome.
Diagram showing the correlation between ECG changes and coronary territories in acute coronary syndrome.
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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 14-year-old girl presents to the general practitioner with fever, malaise, involuntary movements of the neck and arms and erythema marginatum. She was previously unwell with tonsillitis six weeks ago. She is taken to the hospital and after a series of investigations is diagnosed with rheumatic fever.
What is the underlying pathology of this condition?Your Answer:
Correct Answer: Molecular mimicry of the bacterial M protein
Explanation:The development of rheumatic fever is caused by molecular mimicry of the bacterial M protein. This results in the patient experiencing constitutional symptoms such as fever and malaise, involuntary movements of the neck and arms known as Sydenham chorea, and a distinctive rash called erythema marginatum. The antibodies produced against the M protein cross-react with myosin and smooth muscle in arteries, leading to the characteristic features of rheumatic fever. Autoimmune demyelination of peripheral nerves, autoimmune demyelination of the central nervous system, and autoimmune destruction of postsynaptic acetylcholine receptors are all incorrect as they are the pathophysiology of other conditions such as Guillain Barre syndrome, multiple sclerosis, and myasthenia gravis, respectively.
Rheumatic fever is a condition that occurs as a result of an immune response to a recent Streptococcus pyogenes infection, typically occurring 2-4 weeks after the initial infection. The pathogenesis of rheumatic fever involves the activation of the innate immune system, leading to antigen presentation to T cells. B and T cells then produce IgG and IgM antibodies, and CD4+ T cells are activated. This immune response is thought to be cross-reactive, mediated by molecular mimicry, where antibodies against M protein cross-react with myosin and the smooth muscle of arteries. This response leads to the clinical features of rheumatic fever, including Aschoff bodies, which are granulomatous nodules found in rheumatic heart fever.
To diagnose rheumatic fever, evidence of recent streptococcal infection must be present, along with 2 major criteria or 1 major criterion and 2 minor criteria. Major criteria include erythema marginatum, Sydenham’s chorea, polyarthritis, carditis and valvulitis, and subcutaneous nodules. Minor criteria include raised ESR or CRP, pyrexia, arthralgia, and prolonged PR interval.
Management of rheumatic fever involves antibiotics, typically oral penicillin V, as well as anti-inflammatories such as NSAIDs as first-line treatment. Any complications that develop, such as heart failure, should also be treated. It is important to diagnose and treat rheumatic fever promptly to prevent long-term complications such as rheumatic heart disease.
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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 28-year-old male is being evaluated at the pre-operative assessment clinic. A murmur is detected in the 4th intercostal space adjacent to the left side of the sternum. What is the most probable source of the murmur?
Your Answer:
Correct Answer: Tricuspid valve
Explanation:The optimal location for auscultating the tricuspid valve is near the sternum, while the projected sound from the mitral area is most audible at the cardiac apex.
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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This question is part of the following fields:
- Cardiovascular System
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Question 19
Incorrect
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A 60-year-old male is referred to the medical assessment unit by his physician suspecting a UTI. He has a permanent catheter in place due to urinary retention caused by benign prostatic hypertrophy. His blood test results reveal hypercalcemia. An ultrasound Doppler scan of his neck displays a distinct sonolucent signal indicating hyperactive parathyroid tissue and noticeable vasculature, which is likely the parathyroid veins. What is the structure that the parathyroid veins empty into?
Your Answer:
Correct Answer: Thyroid plexus of veins
Explanation:The veins of the parathyroid gland drain into the thyroid plexus of veins, as opposed to other possible drainage routes.
The cavernous sinus is a dural venous sinus that creates a cavity called the lateral sellar compartment, which is bordered by the temporal and sphenoid bones.
The brachiocephalic vein is formed by the merging of the subclavian and internal jugular veins, and also receives drainage from the left and right internal thoracic vein.
The external vertebral venous plexuses, which are most prominent in the cervical region, consist of anterior and posterior plexuses that freely anastomose with each other. The anterior plexuses are located in front of the vertebrae bodies, communicate with the basivertebral and intervertebral veins, and receive tributaries from the vertebral bodies. The posterior plexuses are situated partly on the posterior surfaces of the vertebral arches and their processes, and partly between the deep dorsal muscles.
The suboccipital venous plexus is responsible for draining deoxygenated blood from the back of the head, and is connected to the external vertebral venous plexuses.
Anatomy and Development of the Parathyroid Glands
The parathyroid glands are four small glands located posterior to the thyroid gland within the pretracheal fascia. They develop from the third and fourth pharyngeal pouches, with those derived from the fourth pouch located more superiorly and associated with the thyroid gland, while those from the third pouch lie more inferiorly and may become associated with the thymus.
The blood supply to the parathyroid glands is derived from the inferior and superior thyroid arteries, with a rich anastomosis between the two vessels. Venous drainage is into the thyroid veins. The parathyroid glands are surrounded by various structures, with the common carotid laterally, the recurrent laryngeal nerve and trachea medially, and the thyroid anteriorly. Understanding the anatomy and development of the parathyroid glands is important for their proper identification and preservation during surgical procedures.
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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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Which of the structures listed below overlies the cephalic vein?
Your Answer:
Correct Answer: None of the above
Explanation:The cephalic vein is a superficial vein in the upper limb that runs over the fascial planes and terminates in the axillary vein after piercing the coracoid membrane. It is located anterolaterally to the biceps.
The Cephalic Vein: Path and Connections
The cephalic vein is a major blood vessel that runs along the lateral side of the arm. It begins at the dorsal venous arch, which drains blood from the hand and wrist, and travels up the arm, crossing the anatomical snuffbox. At the antecubital fossa, the cephalic vein is connected to the basilic vein by the median cubital vein. This connection is commonly used for blood draws and IV insertions.
After passing through the antecubital fossa, the cephalic vein continues up the arm and pierces the deep fascia of the deltopectoral groove to join the axillary vein. This junction is located near the shoulder and marks the end of the cephalic vein’s path.
Overall, the cephalic vein plays an important role in the circulation of blood in the upper limb. Its connections to other major veins in the arm make it a valuable site for medical procedures, while its path through the deltopectoral groove allows it to contribute to the larger network of veins that drain blood from the upper body.
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This question is part of the following fields:
- Cardiovascular System
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Question 21
Incorrect
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John, a 67-year-old male, is brought to the emergency department by ambulance. The ambulance crew explains that the patient has emesis, homonymous hemianopia, weakness of left upper and lower limb, and dysphasia. He makes the healthcare professionals aware he has a worsening headache.
He has a past medical history of atrial fibrillation for which he is taking warfarin. His INR IS 4.3 despite his target range of 2-3.
A CT is ordered and the report suggests the anterior cerebral artery is the affected vessel.
Which areas of the brain can be affected with a haemorrhage stemming of this artery?Your Answer:
Correct Answer: Frontal and parietal lobes
Explanation:The frontal and parietal lobes are partially supplied by the anterior cerebral artery, which is a branch of the internal carotid artery. Specifically, it mainly provides blood to the anteromedial region of these lobes.
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 22
Incorrect
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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:
Correct 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 23
Incorrect
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A 55-year-old female is referred to the cardiologist by her GP due to experiencing postural dyspnoea and leg oedema for a few months. The cardiologist conducts an echocardiogram and finds out that her left ventricular ejection fraction is 34%. Based on her clinical presentation, she is diagnosed with congestive cardiac failure.
To alleviate her symptoms and improve her long-term prognosis, the patient is prescribed several medications. However, she visits the GP after two weeks, complaining of a dry, tickling cough that she attributes to one of her new medications.
Which medication is most likely causing this new symptom in the patient?Your Answer:
Correct Answer: Ramipril (ACE inhibitor)
Explanation: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.
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This question is part of the following fields:
- Cardiovascular System
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Question 24
Incorrect
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An 80-year-old man is seen in the stroke clinic for a history of transient paralysis and paresthesia in his left arm that resolved after 2 hours. The stroke clinicians suspect a transient ischaemic attack and plan to initiate secondary prevention treatment as per national guidelines.
What is the mode of action of the prescribed medication?Your Answer:
Correct Answer: ADP receptor inhibitor
Explanation:Clopidogrel works by inhibiting the P2Y12 adenosine diphosphate (ADP) receptor, which prevents platelet activation and is therefore classified as an ADP receptor inhibitor. This drug is recommended as secondary prevention for patients who have experienced symptoms of a transient ischaemic attack (TIA). Other examples of ADP receptor inhibitors include ticagrelor and prasugrel. Aspirin, on the other hand, is a cyclooxygenase (COX) inhibitor that is used for pain control and management of ischaemic heart disease. Glycoprotein IIB/IIA inhibitors such as tirofiban and abciximab prevent platelet aggregation and thrombus formation by inhibiting the glycoprotein IIB/IIIA receptors. Picotamide is a thromboxane synthase inhibitor that is indicated for the management of acute coronary syndrome, as it inhibits the synthesis of thromboxane, a potent vasoconstrictor and facilitator of platelet aggregation.
Clopidogrel: An Antiplatelet Agent for Cardiovascular Disease
Clopidogrel is a medication used to manage cardiovascular disease by preventing platelets from sticking together and forming clots. It is commonly used in patients with acute coronary syndrome and is now also recommended as a first-line treatment for patients following an ischaemic stroke or with peripheral arterial disease. Clopidogrel belongs to a class of drugs called thienopyridines, which work in a similar way. Other examples of thienopyridines include prasugrel, ticagrelor, and ticlopidine.
Clopidogrel works by blocking the P2Y12 adenosine diphosphate (ADP) receptor, which prevents platelets from becoming activated. However, concurrent use of proton pump inhibitors (PPIs) may make clopidogrel less effective. The Medicines and Healthcare products Regulatory Agency (MHRA) issued a warning in July 2009 about this interaction, and although evidence is inconsistent, omeprazole and esomeprazole are still cause for concern. Other PPIs, such as lansoprazole, are generally considered safe to use with clopidogrel. It is important to consult with a healthcare provider before taking any new medications or supplements.
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This question is part of the following fields:
- Cardiovascular System
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Question 25
Incorrect
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A 55-year-old man undergoes a regular health examination, including observation, ECG, and routine blood tests. The ECG reveals an extended corrected QT interval. Which abnormality detected in his blood test could explain the ECG results?
Your Answer:
Correct Answer: Hypokalaemia
Explanation:Long QT syndrome can be caused by hypokalaemia, among other electrolyte imbalances.
Electrolyte imbalances such as hypocalcaemia and hypomagnesaemia can also result in long QT syndrome.
However, hyperkalaemia, hypercalcaemia, and hypermagnesaemia are not linked to long QT syndrome.
Long QT syndrome (LQTS) is a genetic condition that causes a delay in the ventricles’ repolarization. This delay can lead to ventricular tachycardia/torsade de pointes, which can cause sudden death or collapse. The most common types of LQTS are LQT1 and LQT2, which are caused by defects in the alpha subunit of the slow delayed rectifier potassium channel. A normal corrected QT interval is less than 430 ms in males and 450 ms in females.
There are various causes of a prolonged QT interval, including congenital factors, drugs, and other conditions. Congenital factors include Jervell-Lange-Nielsen syndrome and Romano-Ward syndrome. Drugs that can cause a prolonged QT interval include amiodarone, sotalol, tricyclic antidepressants, and selective serotonin reuptake inhibitors. Other factors that can cause a prolonged QT interval include electrolyte imbalances, acute myocardial infarction, myocarditis, hypothermia, and subarachnoid hemorrhage.
LQTS may be detected on a routine ECG or through family screening. Long QT1 is usually associated with exertional syncope, while Long QT2 is often associated with syncope following emotional stress, exercise, or auditory stimuli. Long QT3 events often occur at night or at rest and can lead to sudden cardiac death.
Management of LQTS involves avoiding drugs that prolong the QT interval and other precipitants if appropriate. Beta-blockers are often used, and implantable cardioverter defibrillators may be necessary in high-risk cases. It is important to note that sotalol may exacerbate LQTS.
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This question is part of the following fields:
- Cardiovascular System
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Question 26
Incorrect
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You are caring for a woman who has heart failure with reduced ejection fraction due to a previous myocardial infarction.
Starling's Law of the Heart states that:Your Answer:
Correct Answer: As preload progressively increases, stroke volume increases gradually then decreases suddenly
Explanation:Starling’s Law of the Heart states that as preload increases, stroke volume also increases gradually, up to a certain point. However, beyond this point, stroke volume decreases due to overloading of the cardiac muscle fibers. Therefore, the higher the cardiac preload, the greater the stroke volume, but only up to a certain limit.
The heart has four chambers and generates pressures of 0-25 mmHg on the right side and 0-120 mmHg on the left. The cardiac output is the product of heart rate and stroke volume, typically 5-6L per minute. The cardiac impulse is generated in the sino atrial node and conveyed to the ventricles via the atrioventricular node. Parasympathetic and sympathetic fibers project to the heart via the vagus and release acetylcholine and noradrenaline, respectively. The cardiac cycle includes mid diastole, late diastole, early systole, late systole, and early diastole. Preload is the end diastolic volume and afterload is the aortic pressure. Laplace’s law explains the rise in ventricular pressure during the ejection phase and why a dilated diseased heart will have impaired systolic function. Starling’s law states that an increase in end-diastolic volume will produce a larger stroke volume up to a point beyond which stroke volume will fall. Baroreceptor reflexes and atrial stretch receptors are involved in regulating cardiac output.
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This question is part of the following fields:
- Cardiovascular System
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Question 27
Incorrect
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A 12-year-old male patient has been diagnosed with Friedreich's ataxia, an autosomal recessive genetic disease that causes difficulty walking, a loss of sensation in the arms and legs and impaired speech that worsens over time. What condition should this patient be screened for as a result of having this disease?
Your Answer:
Correct Answer: Hypertrophic obstructive cardiomyopathy
Explanation:Friedreich’s ataxia is a genetic disorder caused by a deficiency of the frataxin protein, which can lead to cardiac neuropathy and hypertrophic obstructive cardiomyopathy. This condition is not associated with haemophilia, coarctation of the aorta, streptococcal pharyngitis, Kawasaki disease, or coronary artery aneurysm. However, Group A streptococcal infections can cause acute rheumatic fever and chronic rheumatic heart disease, which are autoimmune diseases that affect the heart.
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.
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This question is part of the following fields:
- Cardiovascular System
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Question 28
Incorrect
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A 87-year-old man is currently admitted to the medical ward and experiences an abnormal heart rhythm. The doctor on call is consulted and finds that the patient is feeling light-headed but denies any chest pain, sweating, nausea, or palpitations. The patient's vital signs are as follows: pulse rate of 165 beats per minute, respiratory rate of 16 breaths per minute, blood pressure of 165/92 mmHg, body temperature of 37.8 º C, and oxygen saturation of 97% on air.
Upon reviewing the patient's electrocardiogram (ECG), the doctor on call identifies a polymorphic pattern and recommends treatment with magnesium sulfate to prevent the patient from going into ventricular fibrillation. The doctor also notes that the patient's previous ECG showed QT prolongation, which was missed by the intern doctor. The patient has a medical history of type 2 diabetes mellitus, hypertension, heart failure, and chronic kidney disease.
What electrolyte abnormality is most likely responsible for this patient's abnormal heart rhythm?Your Answer:
Correct Answer: Hypocalcemia
Explanation:Torsades to pointes, a type of polymorphic ventricular tachycardia, can be a fatal arrhythmia that is often characterized by a shifting sinusoidal waveform on an ECG. This condition is associated with hypocalcemia, which can lead to QT interval prolongation. On the other hand, hypercalcemia is associated with QT interval shortening and may also cause a prolonged QRS interval.
Hyponatremia and hypernatremia typically do not result in ECG changes, but can cause various symptoms such as confusion, weakness, and seizures. Hyperkalemia, another life-threatening electrolyte imbalance, often causes tall tented T waves, small p waves, and a wide QRS interval on an ECG. Hypokalemia, on the other hand, can lead to QT interval prolongation and increase the risk of Torsades to pointes.
Physicians should be aware that hypercalcemia may indicate the presence of primary hyperparathyroidism or malignancy, and should investigate further for any signs of cancer in affected patients.
Long QT syndrome (LQTS) is a genetic condition that causes a delay in the ventricles’ repolarization. This delay can lead to ventricular tachycardia/torsade de pointes, which can cause sudden death or collapse. The most common types of LQTS are LQT1 and LQT2, which are caused by defects in the alpha subunit of the slow delayed rectifier potassium channel. A normal corrected QT interval is less than 430 ms in males and 450 ms in females.
There are various causes of a prolonged QT interval, including congenital factors, drugs, and other conditions. Congenital factors include Jervell-Lange-Nielsen syndrome and Romano-Ward syndrome. Drugs that can cause a prolonged QT interval include amiodarone, sotalol, tricyclic antidepressants, and selective serotonin reuptake inhibitors. Other factors that can cause a prolonged QT interval include electrolyte imbalances, acute myocardial infarction, myocarditis, hypothermia, and subarachnoid hemorrhage.
LQTS may be detected on a routine ECG or through family screening. Long QT1 is usually associated with exertional syncope, while Long QT2 is often associated with syncope following emotional stress, exercise, or auditory stimuli. Long QT3 events often occur at night or at rest and can lead to sudden cardiac death.
Management of LQTS involves avoiding drugs that prolong the QT interval and other precipitants if appropriate. Beta-blockers are often used, and implantable cardioverter defibrillators may be necessary in high-risk cases. It is important to note that sotalol may exacerbate LQTS.
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This question is part of the following fields:
- Cardiovascular System
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Question 29
Incorrect
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A 72-year-old male with a history of severe aortic stenosis undergoes valve replacement surgery. Following the procedure, he is prescribed dipyridamole. What is the mechanism of action of this medication?
Your Answer:
Correct Answer: Non-specific phosphodiesterase antagonist
Explanation:Dipyridamole is a non-specific phosphodiesterase antagonist that inhibits platelet aggregation and thrombus formation by elevating platelet cAMP levels. It also reduces cellular uptake of adenosine and inhibits thromboxane synthase.
Understanding the Mechanism of Action of Dipyridamole
Dipyridamole is a medication that is commonly used in combination with aspirin to prevent the formation of blood clots after a stroke or transient ischemic attack. The drug works by inhibiting phosphodiesterase, which leads to an increase in the levels of cyclic adenosine monophosphate (cAMP) in platelets. This, in turn, reduces the levels of intracellular calcium, which is necessary for platelet activation and aggregation.
Apart from its antiplatelet effects, dipyridamole also reduces the cellular uptake of adenosine, a molecule that plays a crucial role in regulating blood flow and oxygen delivery to tissues. By inhibiting the uptake of adenosine, dipyridamole can increase its levels in the bloodstream, leading to vasodilation and improved blood flow.
Another mechanism of action of dipyridamole is the inhibition of thromboxane synthase, an enzyme that is involved in the production of thromboxane A2, a potent platelet activator. By blocking this enzyme, dipyridamole can further reduce platelet activation and aggregation, thereby preventing the formation of blood clots.
In summary, dipyridamole exerts its antiplatelet effects through multiple mechanisms, including the inhibition of phosphodiesterase, the reduction of intracellular calcium levels, the inhibition of thromboxane synthase, and the modulation of adenosine uptake. These actions make it a valuable medication for preventing thrombotic events in patients with a history of stroke or transient ischemic attack.
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This question is part of the following fields:
- Cardiovascular System
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Question 30
Incorrect
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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.
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This question is part of the following fields:
- Cardiovascular System
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