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Question 1
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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: 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 2
Incorrect
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A 47-year-old woman is recuperating in the ICU after undergoing a Whipples surgery. She has a central venous line inserted. What will cause the 'y' descent on the waveform trace?
Your Answer: Cardiac tamponade
Correct Answer: Emptying of the right atrium
Explanation:The JVP waveform consists of 3 upward deflections and 2 downward deflections. The upward deflections include the a wave, which represents atrial contraction, the c wave, which represents ventricular contraction, and the v wave, which represents atrial venous filling. The downward deflections include the x wave, which occurs when the atrium relaxes and the tricuspid valve moves down, and the y wave, which represents ventricular filling. The y descent in the waveform indicates the emptying of the atrium and the filling of the right ventricle.
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 3
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As a medical student observing a parathyroidectomy in the short-stay surgical theatre, you witness the ligation of blood vessels supplying the parathyroid glands. The ENT consultant requests you to identify the arteries responsible for supplying oxygenated blood to the parathyroid gland. Can you correctly name these arteries?
Your Answer: Superior and inferior thyroid arteries
Explanation:The superior and inferior thyroid arteries provide oxygenated blood supply to the parathyroid glands. The existence of inferior parathyroid arteries and superior parathyroid arteries is not supported by anatomical evidence. While a middle thyroid artery may exist in some individuals, it is a rare variation that is not relevant to the question at hand.
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 4
Incorrect
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A 35-year-old man visits his GP complaining of feeling increasingly unwell for the past few weeks. He reports experiencing heavy night sweats, fatigue, and shortness of breath. Upon further questioning, he reveals a history of intravenous drug use for many years and has been using methadone exclusively for the last 2 months. During the physical examination, the GP observes splinter haemorrhages. What is the probable causative organism?
Your Answer: Staphylococcus epidermidis
Correct Answer: Staphylococcus aureus
Explanation:The patient is exhibiting symptoms that are indicative of infective endocarditis and has a past of using intravenous drugs. Infective endocarditis can be caused by various factors, but in developed countries, S. aureus is the most prevalent cause. This is especially true for individuals who use intravenous drugs, as in this case.
Aetiology of Infective Endocarditis
Infective endocarditis is a condition that affects patients with previously normal valves, rheumatic valve disease, prosthetic valves, congenital heart defects, intravenous drug users, and those who have recently undergone piercings. The strongest risk factor for developing infective endocarditis is a previous episode of the condition. The mitral valve is the most commonly affected valve.
The most common cause of infective endocarditis is Staphylococcus aureus, particularly in acute presentations and intravenous drug users. Historically, Streptococcus viridans was the most common cause, but this is no longer the case except in developing countries. Coagulase-negative Staphylococci such as Staphylococcus epidermidis are commonly found in indwelling lines and are the most common cause of endocarditis in patients following prosthetic valve surgery. Streptococcus bovis is associated with colorectal cancer, with the subtype Streptococcus gallolyticus being most linked to the condition.
Culture negative causes of infective endocarditis include prior antibiotic therapy, Coxiella burnetii, Bartonella, Brucella, and HACEK organisms (Haemophilus, Actinobacillus, Cardiobacterium, Eikenella, Kingella). It is important to note that systemic lupus erythematosus and malignancy, specifically marantic endocarditis, can also cause non-infective endocarditis.
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This question is part of the following fields:
- Cardiovascular System
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Question 5
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A 75-year-old woman complains of increasing shortness of breath in the past few months, especially when lying down at night. She has a history of type 2 diabetes and high blood pressure, which is managed with ramipril. She smokes 15 cigarettes per day. Her heart rate is 76 bpm, blood pressure is 160/95 mmHg, and oxygen saturation is 94% on room air. An ECG reveals sinus rhythm and left ventricular hypertrophy. On physical examination, there are no heart murmurs, but there is wheezing throughout the chest and coarse crackles at both bases. She has pitting edema in both ankles. Her troponin T level is 0.01 (normal range <0.02). What is the diagnosis for this patient?
Your Answer: Biventricular failure
Explanation:Diagnosis and Assessment of Biventricular Failure
This patient is exhibiting symptoms of both peripheral and pulmonary edema, indicating biventricular failure. The ECG shows left ventricular hypertrophy, which is likely due to her long-standing hypertension. While she is at an increased risk for a myocardial infarction as a diabetic and smoker, her low troponin T levels suggest that this is not the immediate cause of her symptoms. However, it is important to rule out acute coronary syndromes in diabetics, as they may not experience pain.
Mitral stenosis, if present, would be accompanied by a diastolic murmur and left atrial hypertrophy. In severe cases, back-pressure can lead to pulmonary edema. Overall, a thorough assessment and diagnosis of biventricular failure is crucial in determining the appropriate treatment plan for this patient.
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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 70-year-old man presents to the cardiology clinic with complaints of worsening shortness of breath and leg swelling over the past 3 months. Upon examination, there is pitting edema to his thighs bilaterally with palpable sacral edema. Bibasal crackles are heard upon auscultation. What medication can be prescribed to improve the prognosis of the underlying condition?
Your Answer: Furosemide
Correct Answer: Ramipril
Explanation:Ramipril is the correct medication for this patient with likely chronic heart failure. It is one of the few drugs that has been shown to improve the overall prognosis of heart failure, along with beta-blockers and aldosterone antagonists. Aspirin, digoxin, and furosemide are commonly used in the management of heart failure but do not offer prognostic benefit.
Chronic heart failure can be managed through drug treatment, according to updated guidelines issued by NICE in 2018. While loop diuretics are useful in managing fluid overload, they do not reduce mortality in the long term. The first-line treatment for all patients is a combination of an ACE-inhibitor and a beta-blocker, with clinical judgement used to determine which one to start first. Aldosterone antagonists are recommended as second-line treatment, but potassium levels should be monitored as both ACE inhibitors and aldosterone antagonists can cause hyperkalaemia. Third-line treatment should be initiated by a specialist and may include ivabradine, sacubitril-valsartan, hydralazine in combination with nitrate, digoxin, and cardiac resynchronisation therapy. Other treatments include annual influenzae and one-off pneumococcal vaccines. Those with asplenia, splenic dysfunction, or chronic kidney disease may require a booster every 5 years.
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This question is part of the following fields:
- Cardiovascular System
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Question 7
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A 57-year-old patient is being evaluated on the ward 3 days after experiencing a transmural myocardial infarction (MI). The patient reports experiencing sharp, severe retrosternal chest pain that worsens with inspiration.
During the assessment, the patient's vital signs are heart rate 82 beats/min, BP 132/90 mmHg, temperature 37.8ÂșC, and oxygen saturation 97% on room air. Upon auscultation, a pericardial friction rub is audible.
What is the histological change in the myocardial tissue that is consistent with this presentation?Your Answer: Coagulative necrosis with neutrophil infiltration
Explanation:Myocardial infarction (MI) can lead to various complications, which can occur immediately, early, or late after the event. Cardiac arrest is the most common cause of death following MI, usually due to ventricular fibrillation. Cardiogenic shock may occur if a large part of the ventricular myocardium is damaged, and it is difficult to treat. Chronic heart failure may result from ventricular myocardium dysfunction, which can be managed with loop diuretics, ACE-inhibitors, and beta-blockers. Tachyarrhythmias, such as ventricular fibrillation and ventricular tachycardia, are common complications. Bradyarrhythmias, such as atrioventricular block, are more common following inferior MI. Pericarditis is common in the first 48 hours after a transmural MI, while Dressler’s syndrome may occur 2-6 weeks later. Left ventricular aneurysm and free wall rupture, ventricular septal defect, and acute mitral regurgitation are other complications that may require urgent medical attention.
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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 25-year-old is suffering from tonsillitis and experiencing significant pain. Which nerve is responsible for providing sensory innervation to the tonsillar fossa?
Your Answer: Glossopharyngeal nerve
Explanation:The tonsillar fossa is primarily innervated by the glossopharyngeal nerve, with a smaller contribution from the lesser palatine nerve. As a result, patients may experience ear pain (otalgia) after undergoing a tonsillectomy.
Tonsil Anatomy and Tonsillitis
The tonsils are located in the pharynx and have two surfaces, a medial and lateral surface. They vary in size and are usually supplied by the tonsillar artery and drained by the jugulodigastric and deep cervical nodes. Tonsillitis is a common condition that is usually caused by bacteria, with group A Streptococcus being the most common culprit. It can also be caused by viruses. In some cases, tonsillitis can lead to the development of an abscess, which can distort the uvula. Tonsillectomy is recommended for patients with recurrent acute tonsillitis, suspected malignancy, or enlargement causing sleep apnea. The preferred technique for tonsillectomy is dissection, but it can be complicated by hemorrhage, which is the most common complication. Delayed otalgia may also occur due to irritation of the glossopharyngeal nerve.
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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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Which of the following structures is in danger of direct harm after a femoral condyle fracture dislocation in an older adult?
Your Answer: Popliteal artery
Explanation:The fracture segment can be pulled backwards by the contraction of the gastrocnemius heads, which may result in damage or compression of the popliteal artery that runs adjacent to the bone.
Anatomy of the Popliteal Fossa
The popliteal fossa is a diamond-shaped space located at the back of the knee joint. It is bound by various muscles and ligaments, including the biceps femoris, semimembranosus, semitendinosus, and gastrocnemius. The floor of the popliteal fossa is formed by the popliteal surface of the femur, posterior ligament of the knee joint, and popliteus muscle, while the roof is made up of superficial and deep fascia.
The popliteal fossa contains several important structures, including the popliteal artery and vein, small saphenous vein, common peroneal nerve, tibial nerve, posterior cutaneous nerve of the thigh, genicular branch of the obturator nerve, and lymph nodes. These structures are crucial for the proper functioning of the lower leg and foot.
Understanding the anatomy of the popliteal fossa is important for healthcare professionals, as it can help in the diagnosis and treatment of various conditions affecting the knee joint and surrounding structures.
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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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You perform venepuncture on the basilic vein in the cubital fossa.
At which point does this vein pass deep under muscle?Your Answer: At the medial epicondyle
Correct Answer: Midway up the humerus
Explanation:When the basilic vein is located halfway up the humerus, it travels beneath muscle. At the cubital fossa, the basilic vein connects with the median cubital vein, which in turn interacts with the cephalic vein. Contrary to popular belief, the basilic vein does not pass through the medial epicondyle. Meanwhile, the cephalic vein can be found in the deltopectoral groove.
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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