-
Question 1
Correct
-
A 70-year-old diabetic smoker presents with central chest pain that radiates to his left shoulder and jaw. He is given 300 mg aspirin and morphine, and his pain subsides. The pain lasted approximately 90 minutes in total. His ECG shows normal sinus rhythm. He is referred to the on-call medical team for admission, and a troponin test is scheduled at the appropriate time. His blood tests today reveal a creatinine level of 298 micromoles per litre.
Which of the following medications should you also consider administering to this patient?Your Answer: Unfractionated heparin
Explanation:This patient’s medical history suggests a diagnosis of acute coronary syndrome. It is important to provide pain relief as soon as possible. This can be achieved by administering GTN (sublingual or buccal), but if there is suspicion of an acute myocardial infarction (MI), intravenous opioids such as morphine should be offered.
Aspirin should be given to all patients with unstable angina or NSTEMI as soon as possible and should be continued indefinitely, unless there are contraindications such as a high risk of bleeding or aspirin hypersensitivity. A single loading dose of 300 mg should be given immediately after presentation.
For patients without a high risk of bleeding and no planned coronary angiography within 24 hours of admission, fondaparinux should be administered. However, if coronary angiography is planned within 24 hours, unfractionated heparin can be offered as an alternative to fondaparinux. For patients with significant renal impairment (creatinine above 265 micromoles per litre), unfractionated heparin should be considered, with dose adjustment based on clotting function monitoring.
Routine administration of oxygen is no longer recommended, but oxygen saturation should be monitored using pulse oximetry as soon as possible, preferably before hospital admission. Supplemental oxygen should only be given to individuals with an oxygen saturation (SpO2) below 94% who are not at risk of hypercapnic respiratory failure, aiming for an SpO2 of 94-98%. For individuals with chronic obstructive pulmonary disease at risk of hypercapnic respiratory failure, a target SpO2 of 88-92% should be achieved until blood gas analysis is available.
Bivalirudin, a specific and reversible direct thrombin inhibitor (DTI), is recommended by NICE as a potential treatment for adults with STEMI undergoing percutaneous coronary intervention.
For more information, refer to the NICE guidelines on the assessment and diagnosis of chest pain of recent onset.
-
This question is part of the following fields:
- Cardiology
-
-
Question 2
Incorrect
-
A 32-year-old woman is brought to the Emergency Department by ambulance due to 'severe palpitations.' Her heart rate is 180 bpm, and her rhythm strip is suggestive of supraventricular tachycardia. You plan to administer adenosine.
Which of the following is NOT a contraindication to the use of adenosine?Your Answer: 2nd degree heart block
Correct Answer: History of heart transplant
Explanation:Adenosine is a type of purine nucleoside that is primarily utilized in the diagnosis and treatment of paroxysmal supraventricular tachycardia. Its main mechanism of action involves stimulating A1-adenosine receptors and opening acetylcholine-sensitive potassium channels. This leads to hyperpolarization of the cell membrane in the atrioventricular (AV) node and slows down conduction in the AV node by inhibiting calcium channels.
When administering adenosine, it is given rapidly through an intravenous bolus, followed by a saline flush. The initial dose for adults is 6 mg, and if necessary, additional doses of 12 mg or 18 mg can be given at 1-2 minute intervals until the desired effect is observed. It is important to note that the latest ALS guidelines recommend 18 mg for the third dose, while the BNF/NICE guidelines suggest 12 mg.
One of the advantages of adenosine is its very short half-life, which is less than 10 seconds. This means that its effects are rapid, typically occurring within 10 seconds. However, the duration of action is also short, lasting only 10-20 seconds. Due to its short half-life, any side effects experienced are usually brief. These side effects may include a sense of impending doom, facial flushing, dyspnea, chest discomfort, and a metallic taste.
There are certain contraindications to the use of adenosine. These include 2nd or 3rd degree AV block, sick sinus syndrome, long QT syndrome, severe hypotension, decompensated heart failure, chronic obstructive lung disease, and asthma. It is important to exercise caution when administering adenosine to patients with a heart transplant, as they are particularly sensitive to its effects. In these cases, a reduced initial dose of 3 mg is recommended, followed by 6 mg and then 12 mg.
It is worth noting that the effects of adenosine can be potentiated by dipyridamole, a medication commonly used in combination with adenosine. Therefore, the dose of adenosine should be adjusted and reduced in patients who are also taking dipyridamole.
-
This question is part of the following fields:
- Cardiology
-
-
Question 3
Incorrect
-
Your hospital’s pediatrics department is currently evaluating the utility of a triple marker test for use in risk stratification of patients with a suspected heart condition. The test will use troponin I, myoglobin, and heart-type fatty acid-binding protein (HFABP).
How long after a heart event do troponin I levels reach their highest point?Your Answer: 12 hours
Correct Answer: 24 hours
Explanation:The timing of the initial rise, peak, and return to normality of various cardiac enzymes can serve as a helpful guide. Creatine kinase, the main cardiac isoenzyme, typically experiences an initial rise within 4-8 hours, reaches its peak at 18 hours, and returns to normal within 2-3 days. Myoglobin, which lacks specificity due to its association with skeletal muscle damage, shows an initial rise within 1-4 hours, peaks at 6-7 hours, and returns to normal within 24 hours. Troponin I, known for its sensitivity and specificity, exhibits an initial rise within 3-12 hours, reaches its peak at 24 hours, and returns to normal within 3-10 days. HFABP, or heart fatty acid binding protein, experiences an initial rise within 1.5 hours, peaks at 5-10 hours, and returns to normal within 24 hours. Lastly, LDH, predominantly found in cardiac muscle, shows an initial rise at 10 hours, peaks at 24-48 hours, and returns to normal within 14 days.
-
This question is part of the following fields:
- Cardiology
-
-
Question 4
Incorrect
-
A 35-year-old woman with a history of paroxysmal supraventricular tachycardia is found to have a diagnosis of Lown-Ganong-Levine (LGL) syndrome.
Which of the following statements about LGL syndrome is NOT true?Your Answer: The QRS duration is typically normal
Correct Answer: It is caused by an accessory pathway for conduction
Explanation:Lown-Ganong-Levine (LGL) syndrome is a condition that affects the electrical conducting system of the heart. It is classified as a pre-excitation syndrome, similar to the more well-known Wolff-Parkinson-White (WPW) syndrome. However, unlike WPW syndrome, LGL syndrome does not involve an accessory pathway for conduction. Instead, it is believed that there may be accessory fibers present that bypass all or part of the atrioventricular node.
When looking at an electrocardiogram (ECG) of a patient with LGL syndrome in sinus rhythm, there are several characteristic features to observe. The PR interval, which represents the time it takes for the electrical signal to travel from the atria to the ventricles, is typically shortened and measures less than 120 milliseconds. The QRS duration, which represents the time it takes for the ventricles to contract, is normal. The P wave, which represents the electrical activity of the atria, may be normal or inverted. However, what distinguishes LGL syndrome from other pre-excitation syndromes is the absence of a delta wave, which is a slurring of the initial rise in the QRS complex.
It is important to note that LGL syndrome predisposes individuals to paroxysmal supraventricular tachycardia (SVT), a rapid heart rhythm that originates above the ventricles. However, it does not increase the risk of developing atrial fibrillation or flutter, which are other types of abnormal heart rhythms.
-
This question is part of the following fields:
- Cardiology
-
-
Question 5
Incorrect
-
A 72-year-old woman presents with severe central chest pain. An ECG is performed, which shows ST elevation in the anterolateral leads. She was given aspirin and morphine upon arrival. Her observations are as follows: SaO2 99% on air, HR 89 bpm, and BP 149/87 mmHg. Upon discussion with the cardiology team, a decision is made to perform an urgent percutaneous coronary intervention (PCI).
Which of the following medications could you also consider administering to this patient?Your Answer: Fondaparinux
Correct Answer: Bivalirudin
Explanation:This patient is displaying symptoms consistent with a diagnosis of an acute myocardial infarction. It is important to provide pain relief as soon as possible. One option for pain relief is GTN, which can be taken sublingually or buccally. However, if there is suspicion of an acute myocardial infarction, it is recommended to offer intravenous opioids such as morphine.
Aspirin should be offered to all patients with unstable angina or NSTEMI as soon as possible and should be continued indefinitely, unless there are contraindications such as a bleeding risk or aspirin hypersensitivity. A loading dose of 300 mg should be administered promptly after presentation.
For patients without a high bleeding risk who do not have coronary angiography planned within 24 hours of admission, fondaparinux should be administered. However, for patients who are likely to undergo coronary angiography within 24 hours, unfractionated heparin can be offered as an alternative to fondaparinux. In cases of significant renal impairment (creatinine above 265 micromoles per litre), unfractionated heparin with dose adjustment guided by clotting function monitoring can also be considered as an alternative to fondaparinux.
Routine administration of oxygen is no longer recommended, but it is important to monitor oxygen saturation using pulse oximetry as soon as possible, preferably before hospital admission. Supplemental oxygen should only be offered to individuals with an oxygen saturation (SpO2) of less than 94% who are not at risk of hypercapnic respiratory failure, with a target SpO2 range of 94-98%. For individuals with chronic obstructive pulmonary disease who are at risk of hypercapnic respiratory failure, a target SpO2 range of 88-92% should be aimed for until blood gas analysis is available.
Bivalirudin, a specific and reversible direct thrombin inhibitor (DTI), is recommended by NICE as a possible treatment for adults with STEMI who are undergoing percutaneous coronary intervention.
For more information, please refer to the NICE guidelines on the assessment and diagnosis of chest pain of recent onset.
-
This question is part of the following fields:
- Cardiology
-
-
Question 6
Correct
-
A 68 year old male presents to the emergency department complaining of dizziness and palpitations that have been occurring for the past 2 hours. An ECG confirms the presence of atrial fibrillation. The patient has no previous history of atrial fibrillation but was diagnosed with mild aortic valve stenosis 8 months ago during an echocardiogram ordered by his primary care physician. The patient reports that the echocardiogram was done because he was experiencing shortness of breath, which resolved after 2-3 months and was attributed to a recent bout of pneumonia. The decision is made to attempt pharmacological cardioversion. What is the most appropriate medication to use for this purpose in this patient?
Your Answer: Amiodarone
Explanation:According to NICE guidelines, amiodarone is recommended as the initial choice for pharmacological cardioversion of atrial fibrillation (AF) in individuals who have evidence of structural heart disease.
Further Reading:
Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia, affecting around 5% of patients over the age of 70-75 years and 10% of patients aged 80-85 years. While AF can cause palpitations and inefficient cardiac function, the most important aspect of managing patients with AF is reducing the increased risk of stroke.
AF can be classified as first detected episode, paroxysmal, persistent, or permanent. First detected episode refers to the initial occurrence of AF, regardless of symptoms or duration. Paroxysmal AF occurs when a patient has 2 or more self-terminating episodes lasting less than 7 days. Persistent AF refers to episodes lasting more than 7 days that do not self-terminate. Permanent AF is continuous atrial fibrillation that cannot be cardioverted or if attempts to do so are deemed inappropriate. The treatment goals for permanent AF are rate control and anticoagulation if appropriate.
Symptoms of AF include palpitations, dyspnea, and chest pain. The most common sign is an irregularly irregular pulse. An electrocardiogram (ECG) is essential for diagnosing AF, as other conditions can also cause an irregular pulse.
Managing patients with AF involves two key parts: rate/rhythm control and reducing stroke risk. Rate control involves slowing down the irregular pulse to avoid negative effects on cardiac function. This is typically achieved using beta-blockers or rate-limiting calcium channel blockers. If one drug is not effective, combination therapy may be used. Rhythm control aims to restore and maintain normal sinus rhythm through pharmacological or electrical cardioversion. However, the majority of patients are managed with a rate control strategy.
Reducing stroke risk in patients with AF is crucial. Risk stratifying tools, such as the CHA2DS2-VASc score, are used to determine the most appropriate anticoagulation strategy. Anticoagulation is recommended for patients with a score of 2 or more. Clinicians can choose between warfarin and novel oral anticoagulants (NOACs) for anticoagulation.
Before starting anticoagulation, the patient’s bleeding risk should be assessed using tools like the HAS-BLED score or the ORBIT tool. These tools evaluate factors such as hypertension, abnormal renal or liver function, history of bleeding, age, and use of drugs that predispose to bleeding.
-
This question is part of the following fields:
- Cardiology
-
-
Question 7
Correct
-
Your hospital’s neurology department is currently evaluating the utility of a triple marker test for use in diagnosing patients with suspected stroke. The test will use brain natriuretic peptide (BNP), neuron-specific enolase (NSE), and S100B protein.
How long after a stroke do levels of glial fibrillary acidic protein (GFAP) start to increase?Your Answer: 4-8 hours
Explanation:The timing of the initial rise, peak, and return to normality of various cardiac enzymes can serve as a helpful guide. Creatine kinase, the main cardiac isoenzyme, typically experiences an initial rise within 4-8 hours, reaches its peak at 18 hours, and returns to normal within 2-3 days. Myoglobin, which lacks specificity due to its association with skeletal muscle damage, shows an initial rise within 1-4 hours, peaks at 6-7 hours, and returns to normal within 24 hours. Troponin I, known for its sensitivity and specificity, exhibits an initial rise within 3-12 hours, reaches its peak at 24 hours, and returns to normal within 3-10 days. HFABP, or heart fatty acid binding protein, experiences an initial rise within 1.5 hours, peaks at 5-10 hours, and returns to normal within 24 hours. Lastly, LDH, predominantly found in cardiac muscle, shows an initial rise at 10 hours, peaks at 24-48 hours, and returns to normal within 14 days.
-
This question is part of the following fields:
- Cardiology
-
-
Question 8
Incorrect
-
A 70-year-old woman comes in complaining of a rapid heartbeat and difficulty breathing. She has a past medical history of a kidney transplant. Her rhythm strip reveals supraventricular tachycardia.
What is the most suitable initial dosage of adenosine to administer to her?Your Answer: Adenosine 12 mg IV
Correct Answer: Adenosine 3 mg IV
Explanation:Adenosine is given through a rapid IV bolus, followed by a flush of saline solution. In adults, the starting dose is 6 mg, and if needed, an additional dose of 12 mg is given. If necessary, another dose of either 12 mg or 18 mg can be administered at intervals of 1-2 minutes until the desired effect is observed.
It is important to note that the latest ALS guidelines recommend an 18 mg dose for the third administration, while the BNF/NICE guidelines suggest a 12 mg dose.
However, patients who have undergone a heart transplant are particularly sensitive to the effects of adenosine. Therefore, their initial dose should be reduced to 3 mg, followed by 6 mg, and then 12 mg.
-
This question is part of the following fields:
- Cardiology
-
-
Question 9
Incorrect
-
A 30-year-old woman presents with a severe 'tearing' abdominal pain that radiates to her lower back. A diagnosis of aortic dissection is suspected.
Which of the following would be the LEAST likely risk factor for aortic dissection?Your Answer: Marfan syndrome
Correct Answer: Cannabis usage
Explanation:There is no known connection between the use of cannabis and aortic dissection. Some factors that are recognized as increasing the risk of aortic dissection include hypertension, atherosclerosis, aortic coarctation, the use of sympathomimetic drugs like cocaine, Marfan syndrome, Ehlers-Danlos syndrome, Turner’s syndrome, tertiary syphilis, and pre-existing aortic aneurysm.
-
This question is part of the following fields:
- Cardiology
-
-
Question 10
Incorrect
-
You are overseeing the care of a 68-year-old man who has presented to the ER after experiencing a sudden onset of dizziness and difficulty breathing. Upon examination, the patient's heart rate is found to be 44 beats per minute, indicating bradycardia. Which of the following factors increases the risk of developing asystole?
Your Answer: Ventricular pauses of 2s duration
Correct Answer: Mobitz II AV block
Explanation:Having Mobitz II AV block increases the risk of developing asystole. Other risk factors for asystole include recent asystole, third degree AV block (complete heart block) with a broad QRS complex, and a ventricular pause lasting longer than 3 seconds.
Further Reading:
Causes of Bradycardia:
– Physiological: Athletes, sleeping
– Cardiac conduction dysfunction: Atrioventricular block, sinus node disease
– Vasovagal & autonomic mediated: Vasovagal episodes, carotid sinus hypersensitivity
– Hypothermia
– Metabolic & electrolyte disturbances: Hypothyroidism, hyperkalaemia, hypermagnesemia
– Drugs: Beta-blockers, calcium channel blockers, digoxin, amiodarone
– Head injury: Cushing’s response
– Infections: Endocarditis
– Other: Sarcoidosis, amyloidosisPresenting symptoms of Bradycardia:
– Presyncope (dizziness, lightheadedness)
– Syncope
– Breathlessness
– Weakness
– Chest pain
– NauseaManagement of Bradycardia:
– Assess and monitor for adverse features (shock, syncope, myocardial ischaemia, heart failure)
– Treat reversible causes of bradycardia
– Pharmacological treatment: Atropine is first-line, adrenaline and isoprenaline are second-line
– Transcutaneous pacing if atropine is ineffective
– Other drugs that may be used: Aminophylline, dopamine, glucagon, glycopyrrolateBradycardia Algorithm:
– Follow the algorithm for management of bradycardia, which includes assessing and monitoring for adverse features, treating reversible causes, and using appropriate medications or pacing as needed.
https://acls-algorithms.com/wp-content/uploads/2020/12/Website-Bradycardia-Algorithm-Diagram.pdf -
This question is part of the following fields:
- Cardiology
-
-
Question 11
Incorrect
-
You conduct a cardiovascular examination on a 72-year-old man who complains of difficulty breathing. He informs you that he has a known heart valve issue. During the examination, you observe a faint first heart sound (S1).
What is the most probable cause of this finding?Your Answer: Mitral stenosis
Correct Answer: Tricuspid regurgitation
Explanation:The first heart sound (S1) is created by vibrations produced when the mitral and tricuspid valves close. It occurs at the end of diastole and the start of ventricular systole, coming before the upstroke of the carotid pulsation.
A sample of the normal heart sounds can be listened to here (courtesy of Littman stethoscopes).
A loud S1 can be associated with the following conditions:
– Increased transvalvular gradient (e.g. mitral stenosis, tricuspid stenosis)
– Increased force of ventricular contraction (e.g. tachycardia, hyperdynamic states like fever and thyrotoxicosis)
– Shortened PR interval (e.g. Wolff-Parkinson-White syndrome)
– Mitral valve prolapse
– Thin individualsA soft S1 can be associated with the following conditions:
– Inappropriate apposition of the AV valves (e.g. mitral regurgitation, tricuspid regurgitation)
– Prolonged PR interval (e.g. heart block, digoxin toxicity)
– Decreased force of ventricular contraction (e.g. myocarditis, myocardial infarction)
– Increased distance from the heart (e.g. obesity, emphysema, pericardial effusion)A split S1 can be associated with the following conditions:
– Right bundle branch block
– LV pacing
– Ebstein anomaly -
This question is part of the following fields:
- Cardiology
-
-
Question 12
Incorrect
-
A 70-year-old female smoker presents with intense chest discomfort. Her ECG indicates an acute myocardial infarction and she is immediately taken to the cath lab. Angiography reveals a blockage in the left anterior descending artery.
Which area of the heart is most likely affected in this scenario?Your Answer: Anterior
Correct Answer: Right ventricle
Explanation:A summary of the vessels involved in different types of myocardial infarction, along with the corresponding ECG leads and the location of the infarction.
For instance, an anteroseptal infarction involving the left anterior descending artery is indicated by ECG leads V1-V3. Similarly, an anterior infarction involving the left anterior descending artery is indicated by leads V3-V4.
In cases of anterolateral infarctions, both the left anterior descending artery and the left circumflex artery are involved, and this is reflected in ECG leads V5-V6. An extensive anterior infarction involving the left anterior descending artery is indicated by leads V1-V6.
Lateral infarcts involving the left circumflex artery are indicated by leads I, II, aVL, and V6. Inferior infarctions, on the other hand, involve either the right coronary artery (in 80% of cases) or the left circumflex artery (in 20% of cases), and this is shown by leads II, III, and aVF.
In the case of a right ventricular infarction, the right coronary artery is involved, and this is indicated by leads V1 and V4R. Lastly, a posterior infarction involving the right coronary artery is shown by leads V7-V9.
-
This question is part of the following fields:
- Cardiology
-
-
Question 13
Incorrect
-
A 72 year old male comes to the emergency department complaining of sudden difficulty breathing, heart palpitations, and a cough that produces pink frothy sputum. During the examination, you observe an irregular heart rhythm, crackling sounds in the lower parts of the lungs, a loud first heart sound, and a mid-late diastolic murmur. What is the probable diagnosis?
Your Answer: Tricuspid regurgitation
Correct Answer: Mitral stenosis
Explanation:Mitral stenosis is a condition characterized by a narrowing of the mitral valve, which can lead to various symptoms. One common symptom is a mid-late diastolic murmur, which can be heard during a physical examination. This murmur may also be described as mid-diastolic, late-diastolic, or mid-late diastolic. Additionally, patients with chronic mitral stenosis may not experience any symptoms, and the murmur may only be detected incidentally.
A significant risk associated with mitral stenosis is the development of atrial fibrillation (AF). When AF occurs in patients with mitral stenosis, it can trigger acute pulmonary edema. This happens because the left atrium, which is responsible for pumping blood across the narrowed mitral valve into the left ventricle, needs to generate higher pressure. However, when AF occurs, the atrial contraction becomes inefficient, leading to impaired emptying of the left atrium. This, in turn, causes increased back pressure in the pulmonary circulation.
The elevated pressure in the left atrium and pulmonary circulation can result in the rupture of bronchial veins, leading to the production of pink frothy sputum. This symptom is often observed in patients with mitral stenosis who develop acute pulmonary edema.
Further Reading:
Mitral Stenosis:
– Causes: Rheumatic fever, Mucopolysaccharidoses, Carcinoid, Endocardial fibroelastosis
– Features: Mid-late diastolic murmur, loud S1, opening snap, low volume pulse, malar flush, atrial fibrillation, signs of pulmonary edema, tapping apex beat
– Features of severe mitral stenosis: Length of murmur increases, opening snap becomes closer to S2
– Investigation findings: CXR may show left atrial enlargement, echocardiography may show reduced cross-sectional area of the mitral valveMitral Regurgitation:
– Causes: Mitral valve prolapse, Myxomatous degeneration, Ischemic heart disease, Rheumatic fever, Connective tissue disorders, Endocarditis, Dilated cardiomyopathy
– Features: pansystolic murmur radiating to left axilla, soft S1, S3, laterally displaced apex beat with heave
– Signs of acute MR: Decompensated congestive heart failure symptoms
– Signs of chronic MR: Leg edema, fatigue, arrhythmia (atrial fibrillation)
– Investigation findings: Doppler echocardiography to detect regurgitant flow and pulmonary hypertension, ECG may show signs of LA enlargement and LV hypertrophy, CXR may show LA and LV enlargement in chronic MR and pulmonary edema in acute MR. -
This question is part of the following fields:
- Cardiology
-
-
Question 14
Correct
-
You conduct a cardiovascular examination on a 62-year-old man who complains of shortness of breath. He informs you that he has a known heart valve issue. During auscultation, you observe a significantly split second heart sound (S2).
What is the most probable cause of this finding?Your Answer: Mitral regurgitation
Explanation:The second heart sound (S2) is created by vibrations produced when the aortic and pulmonary valves close. It marks the end of systole. It is normal to hear a split in the sound during inspiration.
A loud S2 can be associated with certain conditions such as systemic hypertension (resulting in a loud A2), pulmonary hypertension (resulting in a loud P2), hyperdynamic states (like tachycardia, fever, or thyrotoxicosis), and atrial septal defect (which causes a loud P2).
On the other hand, a soft S2 can be linked to decreased aortic diastolic pressure (as seen in aortic regurgitation), poorly mobile cusps (such as calcification of the aortic valve), aortic root dilatation, and pulmonary stenosis (which causes a soft P2).
A widely split S2 can occur during deep inspiration, right bundle branch block, prolonged right ventricular systole (seen in conditions like pulmonary stenosis or pulmonary embolism), and severe mitral regurgitation. However, in the case of atrial septal defect, the splitting is fixed and does not vary with respiration.
Reversed splitting of S2, where P2 occurs before A2 (paradoxical splitting), can occur during deep expiration, left bundle branch block, prolonged left ventricular systole (as seen in hypertrophic cardiomyopathy), severe aortic stenosis, and right ventricular pacing.
-
This question is part of the following fields:
- Cardiology
-
-
Question 15
Correct
-
A 32-year-old woman comes to the Emergency Department complaining of dizziness and palpitations. She informs you that she was recently diagnosed with Wolff-Parkinson-White syndrome. You proceed to perform an ECG.
Which ONE statement about the ECG findings in Wolff-Parkinson-White (WPW) syndrome is accurate?Your Answer: Type A WPW can resemble right bundle branch block
Explanation:Wolff-Parkinson-White (WPW) syndrome is a condition that affects the electrical system of the heart. It occurs when there is an abnormal pathway, known as the bundle of Kent, between the atria and the ventricles. This pathway can cause premature contractions of the ventricles, leading to a type of rapid heartbeat called atrioventricular re-entrant tachycardia (AVRT).
In a normal heart rhythm, the electrical signals travel through the bundle of Kent and stimulate the ventricles. However, in WPW syndrome, these signals can cause the ventricles to contract prematurely. This can be seen on an electrocardiogram (ECG) as a shortened PR interval, a slurring of the initial rise in the QRS complex (known as a delta wave), and a widening of the QRS complex.
There are two distinct types of WPW syndrome that can be identified on an ECG. Type A is characterized by predominantly positive delta waves and QRS complexes in the praecordial leads, with a dominant R wave in V1. This can sometimes be mistaken for right bundle branch block (RBBB). Type B, on the other hand, shows predominantly negative delta waves and QRS complexes in leads V1 and V2, and positive in the other praecordial leads, resembling left bundle branch block (LBBB).
Overall, WPW syndrome is a condition that affects the electrical conduction system of the heart, leading to abnormal heart rhythms. It can be identified on an ECG by specific features such as shortened PR interval, delta waves, and widened QRS complex.
-
This question is part of the following fields:
- Cardiology
-
-
Question 16
Correct
-
You are managing a 62-year-old male patient presenting with symptomatic bradycardia. Despite multiple administrations of atropine, there has been no improvement in the patient's condition. Which two medications would be the most suitable options to consider next for treating this rhythm?
Your Answer: Adrenaline/Isoprenaline
Explanation:Adrenaline and isoprenaline are considered as second-line medications for the treatment of bradycardia. If atropine fails to improve the condition, transcutaneous pacing is recommended. However, if pacing is not available, the administration of second-line drugs becomes necessary. Adrenaline is typically given intravenously at a dosage of 2-10 mcg/minute, while isoprenaline is given at a dosage of 5 mcg/minute. It is important to note that glucagon is not mentioned as a treatment option for this patient’s bradycardia, as the cause of the condition is not specified as a beta-blocker overdose.
Further Reading:
Causes of Bradycardia:
– Physiological: Athletes, sleeping
– Cardiac conduction dysfunction: Atrioventricular block, sinus node disease
– Vasovagal & autonomic mediated: Vasovagal episodes, carotid sinus hypersensitivity
– Hypothermia
– Metabolic & electrolyte disturbances: Hypothyroidism, hyperkalaemia, hypermagnesemia
– Drugs: Beta-blockers, calcium channel blockers, digoxin, amiodarone
– Head injury: Cushing’s response
– Infections: Endocarditis
– Other: Sarcoidosis, amyloidosisPresenting symptoms of Bradycardia:
– Presyncope (dizziness, lightheadedness)
– Syncope
– Breathlessness
– Weakness
– Chest pain
– NauseaManagement of Bradycardia:
– Assess and monitor for adverse features (shock, syncope, myocardial ischaemia, heart failure)
– Treat reversible causes of bradycardia
– Pharmacological treatment: Atropine is first-line, adrenaline and isoprenaline are second-line
– Transcutaneous pacing if atropine is ineffective
– Other drugs that may be used: Aminophylline, dopamine, glucagon, glycopyrrolateBradycardia Algorithm:
– Follow the algorithm for management of bradycardia, which includes assessing and monitoring for adverse features, treating reversible causes, and using appropriate medications or pacing as needed.
https://acls-algorithms.com/wp-content/uploads/2020/12/Website-Bradycardia-Algorithm-Diagram.pdf -
This question is part of the following fields:
- Cardiology
-
-
Question 17
Correct
-
A 70-year-old male smoker presents with intense chest discomfort. His electrocardiogram (ECG) indicates an acute myocardial infarction, and he is immediately taken to the catheterization laboratory. Angiography reveals a blockage in the left anterior descending artery.
Which area of the heart is most likely affected in this scenario?Your Answer: Anteroseptal
Explanation:A summary of the vessels involved in different types of myocardial infarction, along with the corresponding ECG leads and the location of the infarction.
For instance, an anteroseptal infarction involving the left anterior descending artery is indicated by ECG leads V1-V3. Similarly, an anterior infarction involving the left anterior descending artery is indicated by leads V3-V4.
In cases of anterolateral infarctions, both the left anterior descending artery and the left circumflex artery are involved, and this is reflected in ECG leads V5-V6. An extensive anterior infarction involving the left anterior descending artery is indicated by leads V1-V6.
Lateral infarcts involving the left circumflex artery are indicated by leads I, II, aVL, and V6. Inferior infarctions, on the other hand, involve either the right coronary artery (in 80% of cases) or the left circumflex artery (in 20% of cases), and this is shown by leads II, III, and aVF.
In the case of a right ventricular infarction, the right coronary artery is involved, and this is indicated by leads V1 and V4R. Lastly, a posterior infarction involving the right coronary artery is shown by leads V7-V9.
-
This question is part of the following fields:
- Cardiology
-
-
Question 18
Correct
-
You assess a 60-year-old individual who has arrived at the emergency department with a progressive increase in difficulty breathing. Upon reviewing the patient's medical history, you discover that they underwent an echocardiogram a year ago, which revealed moderate tricuspid regurgitation. Which of the following physical indications is linked to tricuspid regurgitation?
Your Answer: Positive Carvallo's sign
Explanation:Carvallo’s sign is a term used to describe the phenomenon where the systolic murmur of tricuspid regurgitation becomes louder when taking a deep breath in. Tricuspid regurgitation is characterized by a continuous murmur that starts in systole and continues throughout the entire cardiac cycle. This murmur is best heard at the lower left sternal edge and has a low frequency. In addition to Carvallo’s sign, other features of tricuspid regurgitation include the presence of an S3 heart sound, the possibility of atrial arrhythmias such as flutter or fibrillation, the presence of giant C-V waves in the jugular pulse, hepatomegaly (often with a pulsatile nature), and the development of edema, which may be accompanied by lung crepitations or pleural effusions.
Further Reading:
Tricuspid regurgitation (TR) is a condition where blood flows backwards through the tricuspid valve in the heart. It is classified as either primary or secondary, with primary TR being caused by abnormalities in the tricuspid valve itself and secondary TR being the result of other conditions outside of the valve. Mild TR is common, especially in young adults, and often does not cause symptoms. However, severe TR can lead to right-sided heart failure and the development of symptoms such as ascites, peripheral edema, and hepatomegaly.
The causes of TR can vary. Primary TR can be caused by conditions such as rheumatic heart disease, myxomatous valve disease, or Ebstein anomaly. Secondary TR is often the result of right ventricular dilatation due to left heart failure or pulmonary hypertension. Other causes include endocarditis, traumatic chest injury, left ventricular systolic dysfunction, chronic lung disease, pulmonary thromboembolism, myocardial disease, left to right shunts, and carcinoid heart disease. In some cases, TR can occur as a result of infective endocarditis in IV drug abusers.
Clinical features of TR can include a pansystolic murmur that is best heard at the lower left sternal edge, Carvallo’s sign (murmur increases with inspiration and decreases with expiration), an S3 heart sound, and the presence of atrial arrhythmias such as flutter or fibrillation. Other signs can include giant C-V waves in the jugular pulse, hepatomegaly (often pulsatile), and edema with lung crepitations or pleural effusions.
The management of TR depends on the underlying cause and the severity of the condition. In severe cases, valve repair or replacement surgery may be necessary. Treatment may also involve addressing the underlying conditions contributing to TR, such as managing left heart failure or pulmonary hypertension.
-
This question is part of the following fields:
- Cardiology
-
-
Question 19
Incorrect
-
A 45-year-old man presents with palpitations and is found to have atrial fibrillation. You are requested to evaluate his ECG.
Which of the following statements is NOT true regarding the ECG in atrial fibrillation?Your Answer: P waves are characteristically absent
Correct Answer: Ashman beats have a poor prognosis
Explanation:The classic ECG features of atrial fibrillation include an irregularly irregular rhythm, the absence of p-waves, an irregular ventricular rate, and the presence of fibrillation waves. This irregular rhythm occurs because the atrial impulses are filtered out by the AV node.
In addition, Ashman beats may be observed in atrial fibrillation. These beats are characterized by wide complex QRS complexes, often with a morphology resembling right bundle branch block. They occur after a short R-R interval that is preceded by a prolonged R-R interval. Fortunately, Ashman beats are generally considered harmless.
The disorganized electrical activity in atrial fibrillation typically originates at the root of the pulmonary veins.
-
This question is part of the following fields:
- Cardiology
-
-
Question 20
Correct
-
A 72 year old male attends the emergency department complaining of feeling lightheaded, experiencing shortness of breath, and having irregular heartbeats. He states that these symptoms started six hours ago. Upon listening to his chest, clear lung fields are detected but an irregularly irregular pulse is observed. The patient has type 2 diabetes, which is currently controlled through diet. The only medications he takes are:
- Lisinopril 2.5 mg once daily
- Simvastatin 20 mg once daily
There is no history of heart disease, vascular disease, or stroke. The recorded observations are as follows:
- Blood pressure: 148/92 mmHg
- Pulse rate: 86 bpm
- Respiration rate: 15 bpm
- Oxygen saturation: 97% on room air
An ECG is performed, confirming atrial fibrillation. As part of the management, you need to calculate the patient's CHA2DS2-VASc score.
What is this patient's score?Your Answer: 4
Explanation:The patient is currently taking 20 mg of Atorvastatin once daily. They do not have a history of heart disease, vascular disease, or stroke. Their blood pressure is 148/92 mmHg, pulse rate is 86 bpm, and respiration rate is 1.
Further Reading:
Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia, affecting around 5% of patients over the age of 70-75 years and 10% of patients aged 80-85 years. While AF can cause palpitations and inefficient cardiac function, the most important aspect of managing patients with AF is reducing the increased risk of stroke.
AF can be classified as first detected episode, paroxysmal, persistent, or permanent. First detected episode refers to the initial occurrence of AF, regardless of symptoms or duration. Paroxysmal AF occurs when a patient has 2 or more self-terminating episodes lasting less than 7 days. Persistent AF refers to episodes lasting more than 7 days that do not self-terminate. Permanent AF is continuous atrial fibrillation that cannot be cardioverted or if attempts to do so are deemed inappropriate. The treatment goals for permanent AF are rate control and anticoagulation if appropriate.
Symptoms of AF include palpitations, dyspnea, and chest pain. The most common sign is an irregularly irregular pulse. An electrocardiogram (ECG) is essential for diagnosing AF, as other conditions can also cause an irregular pulse.
Managing patients with AF involves two key parts: rate/rhythm control and reducing stroke risk. Rate control involves slowing down the irregular pulse to avoid negative effects on cardiac function. This is typically achieved using beta-blockers or rate-limiting calcium channel blockers. If one drug is not effective, combination therapy may be used. Rhythm control aims to restore and maintain normal sinus rhythm through pharmacological or electrical cardioversion. However, the majority of patients are managed with a rate control strategy.
Reducing stroke risk in patients with AF is crucial. Risk stratifying tools, such as the CHA2DS2-VASc score, are used to determine the most appropriate anticoagulation strategy. Anticoagulation is recommended for patients with a score of 2 or more. Clinicians can choose between warfarin and novel oral anticoagulants (NOACs) for anticoagulation.
Before starting anticoagulation, the patient’s bleeding risk should be assessed using tools like the HAS-BLED score or the ORBIT tool. These tools evaluate factors such as hypertension, abnormal renal or liver function, history of bleeding, age, and use of drugs that predispose to bleeding.
-
This question is part of the following fields:
- Cardiology
-
-
Question 21
Incorrect
-
A 72 year old male is brought to the emergency department by his daughter due to sudden confusion, severe headache, and problems with coordination. Upon initial assessment at triage, the patient's blood pressure is found to be significantly elevated at 224/126 mmHg. You suspect the presence of hypertensive encephalopathy. What is the primary treatment option for this condition?
Your Answer: Phentolamine
Correct Answer: Labetalol
Explanation:The primary treatment option for hypertensive encephalopathy, a condition characterized by sudden confusion, severe headache, and coordination problems due to significantly elevated blood pressure, is labetalol.
Further Reading:
A hypertensive emergency is characterized by a significant increase in blood pressure accompanied by acute or progressive damage to organs. While there is no specific blood pressure value that defines a hypertensive emergency, systolic blood pressure is typically above 180 mmHg and/or diastolic blood pressure is above 120 mmHg. The most common presentations of hypertensive emergencies include cerebral infarction, pulmonary edema, encephalopathy, and congestive cardiac failure. Less common presentations include intracranial hemorrhage, aortic dissection, and pre-eclampsia/eclampsia.
The signs and symptoms of hypertensive emergencies can vary widely due to the potential dysfunction of every physiological system. Some common signs and symptoms include headache, nausea and/or vomiting, chest pain, arrhythmia, proteinuria, signs of acute kidney failure, epistaxis, dyspnea, dizziness, anxiety, confusion, paraesthesia or anesthesia, and blurred vision. Clinical assessment focuses on detecting acute or progressive damage to the cardiovascular, renal, and central nervous systems.
Investigations that are essential in evaluating hypertensive emergencies include U&Es (electrolyte levels), urinalysis, ECG, and CXR. Additional investigations may be considered depending on the suspected underlying cause, such as a CT head for encephalopathy or new onset confusion, CT thorax for suspected aortic dissection, and CT abdomen for suspected phaeochromocytoma. Plasma free metanephrines, urine total catecholamines, vanillylmandelic acid (VMA), and metanephrine may be tested if phaeochromocytoma is suspected. Urine screening for cocaine and/or amphetamines may be appropriate in certain cases, as well as an endocrine screen for Cushing’s syndrome.
The management of hypertensive emergencies involves cautious reduction of blood pressure to avoid precipitating renal, cerebral, or coronary ischemia. Staged blood pressure reduction is typically the goal, with an initial reduction in mean arterial pressure (MAP) by no more than 25% in the first hour. Further gradual reduction to a systolic blood pressure of 160 mmHg and diastolic blood pressure of 100 mmHg over the next 2 to 6 hours is recommended. Initial management involves treatment with intravenous antihypertensive agents in an intensive care setting with appropriate monitoring.
-
This question is part of the following fields:
- Cardiology
-
-
Question 22
Incorrect
-
A 25-year-old is brought into the emergency department after being discovered unresponsive in a neighbor's backyard. It is suspected that the patient had consumed alcohol at a nearby bar and opted to walk home in the snowy conditions. The patient's temperature is documented as 27.8ÂşC. The nurse connects leads to conduct a 12-lead ECG. Which of the subsequent ECG alterations is most closely linked to hypothermia?
Your Answer: Supraventricular tachycardia
Correct Answer: Osborne Waves (J waves)
Explanation:Hypothermia can cause various changes in an electrocardiogram (ECG). These changes include a slower heart rate (bradycardia), the presence of Osborn waves (also known as J waves), a prolonged PR interval, a widened QRS complex, and a prolonged QT interval. Additionally, shivering artifact, ventricular ectopics (abnormal heartbeats originating from the ventricles), and even cardiac arrest (ventricular tachycardia, ventricular fibrillation, or asystole) may occur.
Further Reading:
Hypothermic cardiac arrest is a rare situation that requires a tailored approach. Resuscitation is typically prolonged, but the prognosis for young, previously healthy individuals can be good. Hypothermic cardiac arrest may be associated with drowning. Hypothermia is defined as a core temperature below 35ÂşC and can be graded as mild, moderate, severe, or profound based on the core temperature. When the core temperature drops, basal metabolic rate falls and cell signaling between neurons decreases, leading to reduced tissue perfusion. Signs and symptoms of hypothermia progress as the core temperature drops, initially presenting as compensatory increases in heart rate and shivering, but eventually ceasing as the temperature drops into moderate hypothermia territory.
ECG changes associated with hypothermia include bradyarrhythmias, Osborn waves, prolonged PR, QRS, and QT intervals, shivering artifact, ventricular ectopics, and cardiac arrest. When managing hypothermic cardiac arrest, ALS should be initiated as per the standard ALS algorithm, but with modifications. It is important to check for signs of life, re-warm the patient, consider mechanical ventilation due to chest wall stiffness, adjust dosing or withhold drugs due to slowed drug metabolism, and correct electrolyte disturbances. The resuscitation of hypothermic patients is often prolonged and may continue for a number of hours.
Pulse checks during CPR may be difficult due to low blood pressure, and the pulse check is prolonged to 1 minute for this reason. Drug metabolism is slowed in hypothermic patients, leading to a build-up of potentially toxic plasma concentrations of administered drugs. Current guidance advises withholding drugs if the core temperature is below 30ÂşC and doubling the drug interval at core temperatures between 30 and 35ÂşC. Electrolyte disturbances are common in hypothermic patients, and it is important to interpret results keeping the setting in mind. Hypoglycemia should be treated, hypokalemia will often correct as the patient re-warms, ABG analyzers may not reflect the reality of the hypothermic patient, and severe hyperkalemia is a poor prognostic indicator.
Different warming measures can be used to increase the core body temperature, including external passive measures such as removal of wet clothes and insulation with blankets, external active measures such as forced heated air or hot-water immersion, and internal active measures such as inhalation of warm air, warmed intravenous fluids, gastric, bladder, peritoneal and/or pleural lavage and high volume renal haemofilter.
-
This question is part of the following fields:
- Cardiology
-
-
Question 23
Incorrect
-
A 72 year old male patient has arrived at the emergency department after injuring himself in a fall. Upon reviewing the patient's medical history, you discover that he was diagnosed with mitral stenosis last year. You advise the medical students to assess the patient for indications of this condition.
What is a typical symptom observed in individuals with mitral stenosis?Your Answer: Bounding pulse
Correct Answer: Malar flush
Explanation:One of the clinical features of mitral stenosis is malar flush, which refers to a reddening or flushing of the cheeks. Other clinical features include a mid-late diastolic murmur that is best heard during expiration, a loud S1 heart sound with an opening snap, a low volume pulse, atrial fibrillation, and signs of pulmonary edema such as crepitations or the presence of white or pink frothy sputum.
Further Reading:
Mitral Stenosis:
– Causes: Rheumatic fever, Mucopolysaccharidoses, Carcinoid, Endocardial fibroelastosis
– Features: Mid-late diastolic murmur, loud S1, opening snap, low volume pulse, malar flush, atrial fibrillation, signs of pulmonary edema, tapping apex beat
– Features of severe mitral stenosis: Length of murmur increases, opening snap becomes closer to S2
– Investigation findings: CXR may show left atrial enlargement, echocardiography may show reduced cross-sectional area of the mitral valveMitral Regurgitation:
– Causes: Mitral valve prolapse, Myxomatous degeneration, Ischemic heart disease, Rheumatic fever, Connective tissue disorders, Endocarditis, Dilated cardiomyopathy
– Features: pansystolic murmur radiating to left axilla, soft S1, S3, laterally displaced apex beat with heave
– Signs of acute MR: Decompensated congestive heart failure symptoms
– Signs of chronic MR: Leg edema, fatigue, arrhythmia (atrial fibrillation)
– Investigation findings: Doppler echocardiography to detect regurgitant flow and pulmonary hypertension, ECG may show signs of LA enlargement and LV hypertrophy, CXR may show LA and LV enlargement in chronic MR and pulmonary edema in acute MR. -
This question is part of the following fields:
- Cardiology
-
-
Question 24
Incorrect
-
A 60-year-old woman comes in with severe, crushing chest pain that spreads to her left shoulder and jaw. The pain has improved after receiving GTN spray under the tongue and intravenous morphine.
What other medication should be recommended at this point?Your Answer: Atenolol
Correct Answer: Aspirin
Explanation:This particular patient has a high risk of experiencing an acute coronary syndrome. Therefore, it is recommended to administer aspirin at a dosage of 300 mg and clopidogrel at a dosage ranging from 300-600 mg.
Further Reading:
Acute Coronary Syndromes (ACS) is a term used to describe a group of conditions that involve the sudden reduction or blockage of blood flow to the heart. This can lead to a heart attack or unstable angina. ACS includes ST segment elevation myocardial infarction (STEMI), non-ST segment elevation myocardial infarction (NSTEMI), and unstable angina (UA).
The development of ACS is usually seen in patients who already have underlying coronary heart disease. This disease is characterized by the buildup of fatty plaques in the walls of the coronary arteries, which can gradually narrow the arteries and reduce blood flow to the heart. This can cause chest pain, known as angina, during physical exertion. In some cases, the fatty plaques can rupture, leading to a complete blockage of the artery and a heart attack.
There are both non modifiable and modifiable risk factors for ACS. non modifiable risk factors include increasing age, male gender, and family history. Modifiable risk factors include smoking, diabetes mellitus, hypertension, hypercholesterolemia, and obesity.
The symptoms of ACS typically include chest pain, which is often described as a heavy or constricting sensation in the central or left side of the chest. The pain may also radiate to the jaw or left arm. Other symptoms can include shortness of breath, sweating, and nausea/vomiting. However, it’s important to note that some patients, especially diabetics or the elderly, may not experience chest pain.
The diagnosis of ACS is typically made based on the patient’s history, electrocardiogram (ECG), and blood tests for cardiac enzymes, specifically troponin. The ECG can show changes consistent with a heart attack, such as ST segment elevation or depression, T wave inversion, or the presence of a new left bundle branch block. Elevated troponin levels confirm the diagnosis of a heart attack.
The management of ACS depends on the specific condition and the patient’s risk factors. For STEMI, immediate coronary reperfusion therapy, either through primary percutaneous coronary intervention (PCI) or fibrinolysis, is recommended. In addition to aspirin, a second antiplatelet agent is usually given. For NSTEMI or unstable angina, the treatment approach may involve reperfusion therapy or medical management, depending on the patient’s risk of future cardiovascular events.
-
This question is part of the following fields:
- Cardiology
-
-
Question 25
Incorrect
-
Whilst assessing a patient in the Emergency Department, you observe a pansystolic murmur.
Which of the following is NOT a potential cause of a pansystolic murmur?Your Answer: Tricuspid regurgitation
Correct Answer: Aortic stenosis
Explanation:Aortic stenosis leads to the presence of a murmur during the ejection phase of the cardiac cycle. This murmur is most audible at the right second intercostal space and can be heard extending into the right neck.
Mitral regurgitation, on the other hand, produces a high-pitched murmur that occurs throughout the entire systolic phase of the cardiac cycle. This murmur is best heard at the apex of the heart and can be heard radiating into the axilla.
Tricuspid regurgitation is characterized by a blowing murmur that occurs throughout the entire systolic phase of the cardiac cycle. This murmur is most clearly heard at the lower left sternal edge.
Ventricular septal defect results in a harsh murmur that occurs throughout the entire systolic phase of the cardiac cycle. This murmur is best heard at the third or fourth left intercostal space and can be heard radiating throughout the praecordium.
Aortopulmonary shunts are an extremely rare cause of a murmur that occurs throughout the entire systolic phase of the cardiac cycle.
-
This question is part of the following fields:
- Cardiology
-
-
Question 26
Incorrect
-
You conduct a cardiovascular examination on a 72-year-old man who complains of difficulty breathing. He informs you that he has a known heart valve issue. During the examination, you observe a pronounced first heart sound (S1).
What is the most probable cause of this finding?Your Answer: Myocarditis
Correct Answer: Mitral stenosis
Explanation:The first heart sound (S1) is created by vibrations produced when the mitral and tricuspid valves close. It occurs at the end of diastole and the start of ventricular systole, coming before the upstroke of the carotid pulsation.
A sample of the normal heart sounds can be listened to here (courtesy of Littman stethoscopes).
A loud S1 can be associated with the following conditions:
– Increased transvalvular gradient (e.g. mitral stenosis, tricuspid stenosis)
– Increased force of ventricular contraction (e.g. tachycardia, hyperdynamic states like fever and thyrotoxicosis)
– Shortened PR interval (e.g. Wolff-Parkinson-White syndrome)
– Mitral valve prolapse
– Thin individualsA soft S1 can be associated with the following conditions:
– Inappropriate apposition of the AV valves (e.g. mitral regurgitation, tricuspid regurgitation)
– Prolonged PR interval (e.g. heart block, digoxin toxicity)
– Decreased force of ventricular contraction (e.g. myocarditis, myocardial infarction)
– Increased distance from the heart (e.g. obesity, emphysema, pericardial effusion)A split S1 can be associated with the following conditions:
– Right bundle branch block
– LV pacing
– Ebstein anomaly -
This question is part of the following fields:
- Cardiology
-
-
Question 27
Incorrect
-
A 72-year-old woman comes to the Emergency Department complaining of severe chest pain, difficulty breathing, and feeling nauseous for the past hour. The ECG reveals ST-segment elevation in the anterolateral leads. After starting treatment, her condition improves, and the ECG changes indicate signs of resolution.
Which medication is responsible for the rapid restoration of blood flow in this patient?Your Answer: GTN
Correct Answer: Tenecteplase
Explanation:Tenecteplase is a medication known as a tissue plasminogen activator (tPA). Its main mechanism of action involves binding specifically to fibrin and converting plasminogen into plasmin. This process leads to the breakdown of the fibrin matrix and promotes reperfusion at the affected site. Among the options provided, Tenecteplase is the sole drug that primarily acts by facilitating reperfusion.
-
This question is part of the following fields:
- Cardiology
-
-
Question 28
Incorrect
-
A 48 year old woman comes to the emergency department complaining of episodes of lightheadedness. She mentions that she is an avid jogger and noticed on her fitness tracker that her heart rate had dropped to 48 beats per minute. Which of the following characteristics would warrant drug intervention or transcutaneous pacing in a patient with bradycardia?
Your Answer: Presyncope
Correct Answer: Myocardial ischaemia
Explanation:Indications for drug treatment or pacing in patients with bradycardia include shock, syncope, myocardial ischemia, heart failure, and the presence of risk factors for asystole. If any of these adverse features are present, it is important to consider drug treatment or pacing. However, even if none of these adverse features are present, patients may still require drug treatment or pacing if they have risk factors for developing asystole, such as recent asystole, Mobitz II AV block, complete heart block with broad QRS, or a ventricular pause longer than 3 seconds.
Further Reading:
Causes of Bradycardia:
– Physiological: Athletes, sleeping
– Cardiac conduction dysfunction: Atrioventricular block, sinus node disease
– Vasovagal & autonomic mediated: Vasovagal episodes, carotid sinus hypersensitivity
– Hypothermia
– Metabolic & electrolyte disturbances: Hypothyroidism, hyperkalaemia, hypermagnesemia
– Drugs: Beta-blockers, calcium channel blockers, digoxin, amiodarone
– Head injury: Cushing’s response
– Infections: Endocarditis
– Other: Sarcoidosis, amyloidosisPresenting symptoms of Bradycardia:
– Presyncope (dizziness, lightheadedness)
– Syncope
– Breathlessness
– Weakness
– Chest pain
– NauseaManagement of Bradycardia:
– Assess and monitor for adverse features (shock, syncope, myocardial ischaemia, heart failure)
– Treat reversible causes of bradycardia
– Pharmacological treatment: Atropine is first-line, adrenaline and isoprenaline are second-line
– Transcutaneous pacing if atropine is ineffective
– Other drugs that may be used: Aminophylline, dopamine, glucagon, glycopyrrolateBradycardia Algorithm:
– Follow the algorithm for management of bradycardia, which includes assessing and monitoring for adverse features, treating reversible causes, and using appropriate medications or pacing as needed.
https://acls-algorithms.com/wp-content/uploads/2020/12/Website-Bradycardia-Algorithm-Diagram.pdf -
This question is part of the following fields:
- Cardiology
-
-
Question 29
Incorrect
-
A 42-year-old woman presents with central chest pain that has been intermittent for the past few weeks. She reports that it tends to occur when she is climbing stairs or walking uphill but subsides quickly when she rests. Her medical history includes type 2 diabetes mellitus, which is managed with metformin, and gastroesophageal reflux disease (GERD), for which she takes lansoprazole. On examination, her heart sounds are normal, and her chest is clear.
What is the SINGLE most probable diagnosis?Your Answer: Ludwig’s angina
Correct Answer: Stable angina
Explanation:Stable angina is characterized by chest pain in the center of the chest that is triggered by activities such as exercise and emotional stress. The pain may spread to the jaw or left arm and can be relieved by resting for a few minutes. Typically, the pain is brought on by a predictable amount of exertion.
On the other hand, unstable angina is defined by the presence of one or more of the following: angina of effort occurring over a few days with increasing frequency, episodes of angina occurring recurrently and predictably without specific provocation, or an unprovoked and prolonged episode of cardiac chest pain. In unstable angina, the ECG may appear normal or show T wave / ST segment changes, and cardiac enzymes are usually normal.
Prinzmetal angina is a rare form of angina that typically occurs at rest between midnight and early morning. These attacks can be severe and happen in clusters. It is caused by spasms in the coronary arteries, and patients with this condition often have normal coronary arteries.
It is important to note that gastro-esophageal reflux (GORD) is not relevant to this question and is included in the patient’s history to distract the candidate. Typical symptoms of GORD include heartburn and acid regurgitation, and it can also present with non-cardiac chest pain, dyspepsia, and difficulty swallowing.
Lastly, Ludwig’s angina is a serious and potentially life-threatening infection in the submandibular area. It most commonly occurs due to an infection in the floor of the mouth that spreads into the submandibular space.
-
This question is part of the following fields:
- Cardiology
-
-
Question 30
Correct
-
You are summoned to the resuscitation room to assess a 38-year-old female patient who became pale and restless while having a wound stitched by one of the nurse practitioners. The nurse practitioner informs you that the patient's blood pressure dropped to 92/66 mmHg and the ECG reveals bradycardia with a heart rate of 52 bpm. Concerned about potential local anesthetic toxicity, the nurse practitioner promptly transferred the patient to the resuscitation room. Upon reviewing the cardiac monitor, you observe ectopic beats. Which anti-arrhythmic medication should be avoided in this patient?
Your Answer: Lidocaine
Explanation:Lidocaine is commonly used as both an anti-arrhythmic medication and a local anesthetic. However, it is important to note that it should not be used as an anti-arrhythmic therapy in patients with Local Anesthetic Systemic Toxicity (LAST). This is because lidocaine can potentially worsen the toxicity symptoms in these patients.
Further Reading:
Local anaesthetics, such as lidocaine, bupivacaine, and prilocaine, are commonly used in the emergency department for topical or local infiltration to establish a field block. Lidocaine is often the first choice for field block prior to central line insertion. These anaesthetics work by blocking sodium channels, preventing the propagation of action potentials.
However, local anaesthetics can enter the systemic circulation and cause toxic side effects if administered in high doses. Clinicians must be aware of the signs and symptoms of local anaesthetic systemic toxicity (LAST) and know how to respond. Early signs of LAST include numbness around the mouth or tongue, metallic taste, dizziness, visual and auditory disturbances, disorientation, and drowsiness. If not addressed, LAST can progress to more severe symptoms such as seizures, coma, respiratory depression, and cardiovascular dysfunction.
The management of LAST is largely supportive. Immediate steps include stopping the administration of local anaesthetic, calling for help, providing 100% oxygen and securing the airway, establishing IV access, and controlling seizures with benzodiazepines or other medications. Cardiovascular status should be continuously assessed, and conventional therapies may be used to treat hypotension or arrhythmias. Intravenous lipid emulsion (intralipid) may also be considered as a treatment option.
If the patient goes into cardiac arrest, CPR should be initiated following ALS arrest algorithms, but lidocaine should not be used as an anti-arrhythmic therapy. Prolonged resuscitation may be necessary, and intravenous lipid emulsion should be administered. After the acute episode, the patient should be transferred to a clinical area with appropriate equipment and staff for further monitoring and care.
It is important to report cases of local anaesthetic toxicity to the appropriate authorities, such as the National Patient Safety Agency in the UK or the Irish Medicines Board in the Republic of Ireland. Additionally, regular clinical review should be conducted to exclude pancreatitis, as intravenous lipid emulsion can interfere with amylase or lipase assays.
-
This question is part of the following fields:
- Cardiology
-
00
Correct
00
Incorrect
00
:
00
:
0
00
Session Time
00
:
00
Average Question Time (
Secs)