essential revision notes for rcp in cardiology
TRANSCRIPT
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Essential Revision Notes For MRCP
In Cardiology
Gehad Gamal, MRCP (UK), MD cardiologyFormer ambassador of European association of cardiovascular
Imaging in Egypt (EACVI)Member in Irish Medical Council (IMC)
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Arrhythmia
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A 50 year man presents with lightheadness. He has frequent nonsustained ventricular tachycardia on the ECG and cardiac monitor. His bloods show a Hb 13.0 g/dl, WCC 7 x 109/L, platelets 230 x 109/L, urea 11mol/l, creatinine 80μmol/l, sodium 134 mmol/l, potassium 3.2 mmol/l, serum magnesium of 0.6 mmol/l (0.75).
Which one of the following is likely to be responsible for his arrhythmias?
1- Poor diet 2- Alcoholism 3- Frusemide 4- Diarrhoea 5- Hyperphosphataemia
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Answer: 3- Frusemide
The likely cause of the arrhythmias is hypomagnesaemia and hypokalaemia, which is most commonly associated with diuretic use.
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A 32 year old lady complains of periodic episodes of palpitations and light-headedness for about 20-30 minutes. It occurred once a week for the last few weeks. An ECG showed normal sinus rhythm.
What is the investigation of choice? 1- 24 hr holter monitoring 2- Echo 3- Exercise tests 4- Patient controlled Loop recorder 5- Electrophysiological study
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Answer: 4- Patient controlled Loop recorder
The frequency of the symptoms is low , hence a 24 hour tape may not capture an arrhythmia.
A patient controlled loop recorder allows recording of rhythms around the time of the event, hence a much higher likelihood of recording an abnormal rhythm.
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You are reviewing a patient who has recently 'passed out'. Which one of the following is a cause of orthostatic syncope?
A. Carotid sinus hypersensitivity
B. Pulmonary embolism
C. Micturition
D. Sinus node dysfunction
E. Diabetic neuropathy
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Syncope
Syncope may be defined as a transient loss of consciousness due to global cerebral hypoperfusion with rapid onset, short duration and spontaneous complete recovery.
Note how this definition excludes other causes of collapse such as epilepsy.
The European Society of Cardiology published guidelines in 2009 on the investigation and management of syncope.
They suggested the following classification:
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Reflex syncope (neurally mediated) vasovagal: triggered by emotion, pain or stress. situational: cough, micturition, gastrointestinal carotid sinus syncope Trigemina l neuralgiaOrthostatic syncope primary autonomic failure: Parkinson's disease, Lewy body
dementia, MSA secondary autonomic failure: e.g. Diabetic neuropathy,
amyloidosis, uraemia, Vasculitis, Leprosy drug-induced: diuretics, alcohol, vasodilators volume depletion: haemorrhage, diarrhoeaArrythmogenic syncope arrhythmias: bradycardias (sinus node dysfunction, AV
conduction disorders) or tachycardias (supraventricular, ventricular)
Cardiac syncope Non obstructive : valvular, myocardial infarction, Obstructive :pulmonary embolism, HOCM,, valvular
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Reflex syncope is the most common cause in all age groups although orthostatic and cardiac causes become progressively more common in older patients.
Evaluation cardiovascular examination 24 hour ECG ECG
postural blood pressure readings: a symptomatic fall in systolic BP > 20 mmHg or diastolic BP > 10 mmHg or decrease in systolic BP < 90 mmHg is considered diagnostic
carotid sinus massage Head up tilt table test (HUT)
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You are evaluating a patient with suspected orthostatic syncope. What change in blood pressure upon standing for 3 minutes would be considered diagnostic for postural hypotension?
A. Symptomatic or asymptomatic fall in systolic BP > 30 mmHg or diastolic BP > 20 mmHg
B. Symptomatic fall in systolic BP > 30 mmHg or diastolic BP > 20 mmHg
C. Symptomatic or asymptomatic fall in systolic BP > 30 mmHg or diastolic BP > 10 mmHg
D. Symptomatic fall in systolic BP > 20 mmHg or diastolic BP > 10 mmHg
E. Symptomatic or asymptomatic fall in systolic BP > 20 mmHg or diastolic BP > 10 mmHg
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D-Symptomatic fall in systolic BP > 20 mmHg or diastolic BP > 10 mmHg
Orthostatic syncope primary autonomic failure: Parkinson's
disease, Lewy body dementia secondary autonomic failure: e.g. Diabetic
neuropathy, amyloidosis, uraemia drug-induced: diuretics, alcohol,
vasodilators volume depletion: haemorrhage, diarrhoea
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A 13 year boy had a syncopal episode followed by generalised jerking of all his limbs, whilst having dental filling.
He was particularly nervous about the procedure. When he was assessed in asualty, his BP was 145/80, O2 sats were 99% and ECG showed normal sinus rhythm.
What is the likely diagnosis?
1- Generalised tonic clonic seizures
2- Vasovagal syncope
3- Carotid sinus hypersensitivity
4- VF arrest
5- Meningitis
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Answer: 2- Vasovagal syncope
Vasovagal syncope is not uncommon during a procedure which a patient is frightened of.
There may be transient brain hypoxia which may caused generalised seizure like activity.
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Unstable arrhythmia
Following basic ABC assessment, patients are classified as being stable or unstable according to the presence of any adverse signs:
Systolic BP < 90 mmHg Reduced conscious level Chest pain Heart failure
If any of the above adverse signs are present then synchronised DC shocks should be given
Treatment following this is given according to whether the QRS complex is narrow or broad and whether the rhythm is regular or irregular.
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BradycardiaTachycardia
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Broad-complex tachycardiaRegular
Ventricular tachycardia
Irregular 1. AF with bundle branch block - treat as for narrow
complex tachycardia 2. Polymorphic VT (e.g. torsade de pointes) - IV
magnesium
Narrow-complex tachycardiaRegularAssume Supraventricular tachycardia AVNRT re-entry tachycardia AVRT…. Wolf Parkinson White Multifocal atrial tachycardia
Irregular Atrial fibrillation
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Normal sinus rhythm
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Sinus bradycardia
1- Physiology2- Pathology 3- Pharmacology
"
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SINUS BRADICARDIA" (sinus bradycardia)
Sleep Infections (myocarditis) Neap thyroid (hypothyroid) Unconsciousness (vasovagal syncope) Subnormal temperatures (hypothermia) Biliary obstruction Raised CO2 (hypercapnia) Acidosis Deficient blood sugar (hypoglycemia) Imbalance of electrolytes Cushing's reflex (raised ICP) Aging Rx (drugs, such as high-dose atropine) Deep anaesthesia Ischemic heart disease Athletes
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Sinus tachycardia
1- Physiology
2- Pathology
3- Pharmacology
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Atria fibrillationA fib
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Anticoagulation
Rate Vs rhythm control
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A 54-year-old male with no past medical history is found to be in atrial fibrillation during a consultation regarding a sprained ankle. He reports no history of palpitations or dyspnoea. After discussing treatment options he elects not to be cardioverted. According to the latest European Society of Cardiology guidelines, if the patient remains in chronic atrial fibrillation what is the most suitable treatment to offer?
A. No treatment B. Warfarin C. Dabigatran D. Aspirin + dipyridamole E. Aspirin
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A. No treatment Young man with AF, no TIA or risk factors, no
treatment is now preferred to aspirin The European Society of Cardiology
guidelines suggest that 'no treatment is recommended for low risk patients such as this man.
Atrial fibrillation: ESC published updated guidelines on the management of atrial fibrillation in 2012 then 2015.
They suggest using the CHA2DS2-VAScscore to determine the most appropriate anticoagulation strategy.
This scoring system superseded the CHADS2 score.
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CHA2DS2-VASc
scoring system
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C Congestive heart failure 1
H Hypertension (or treated HTN) 1
A Age 65-74 years 1
D Diabetes 1
S2 Prior Stroke or TIA 2
V Vascular disease (CAD, PVD) 1
A2 Age >= 75 years 2
S Sex (female) 1
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Score 0 No treatment
Score 1
Males: Consider anticoagulation Females: No treatment
2 or more Offer anticoagulation
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A 71-year-old man who is known to have atrial fibrillation comes for review. He had a transient ischaemic attack two weeks ago and takes bendroflumethiazide for hypertension but is otherwise well. His latest blood pressure is 124/76 mmHg. You are discussing management options to try and reduce his future risk of having a stroke. What is his CHA2DS2-VASc score?
A. 1 B. 2 C. 3 D. 4 E. 5
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D. 4
One point for hypertension, one point for being over the age of 65 years (but under the age of 75 years) and two points ('S2') for the recent TIA.
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HAS-BLED
scoring system
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H Hypertension, uncontrolled, systolic BP > 160 mmHg 1
A Abnormal renal function (dialysis or creatinine> 200) Or Abnormal liver function (cirrhosis, bilirubin >
2 times normal, ALT/AST/ALP > 3 times normal 1 for any renal abnormalities 1 for any liver abnormalities
S Stroke 1 B Bleeding, history of bleeding or tendency to
bleed 1 L Labile INRs (unstable/high INRs, time in
therapeutic range < 60%)1 E Elderly (> 65 years) 1 D Drugs Predisposing to Bleeding (Antiplatelet
agents, NSAIDs) 1 for drugsOr Alcohol Use (>8 drinks/week) 1 for alcohol
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A 62-year-old female with no past medical history is admitted to hospital with a left-sided hemiparesis. Examination reveals that she is in atrial fibrillation. CT scan of her brain shows a cerebral infarction. What is the most appropriate anticoagulation strategy for this patient?
A. Life-long warfarin, started immediately B. Aspirin started immediately switching to
life-long warfarin after 2 weeks C. Life-long aspirin, started immediately D. Life-long aspirin started after 2 weeks E. 6 months of warfarin, started immediately
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B. Aspirin started immediately switching to life-long warfarin after 2 weeks
NICE issued guidelines on atrial fibrillation (AF) in post stroke in 2006.
They included advice on the management of patients with AF who develop a stroke or transient-ischaemic attack (TIA).
Following a stroke or TIA warfarin should be given as the anticoagulant of choice.
Aspirin/dipyridamole should only be given if needed for the treatment of other comorbidities
In acute stroke patients, in the absence of haemorrhage, anticoagulation therapy should be commenced after 2 weeks.
If imaging shows a very large cerebral infarction then the initiation of anticoagulation should be delayed
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A 51-year-old female presents to her GP following an episode of transient right sided weakness lasting 10-15 minutes. Examination reveals the patient to be in atrial fibrillation. If the patient remains in chronic atrial fibrillation what is the most suitable form of anticoagulation?
A. Aspirin B. Warfarin, target INR 2-3 C. No anticoagulation D. Warfarin, target INR 3-4 E. Warfarin, target INR 2-3 for six months
then aspirin
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B. Warfarin, target INR 2-3
The CHA2DS2-VASc for this patient is 3
( 2 for the transient ischaemic attack and 1 for being female)
She should therefore be offered anticoagulation with warfarin.
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A 76-year-old man is reviewed. He was recently admitted after being found to be in atrial fibrillation. This was his second episode of atrial fibrillation. He also takes ramipril for hypertension but has no other history of note. During admission he was warfarinised and discharged with planned follow-up in the cardiology clinic. However, on review today he is found to be in sinus rhythm. What should happen regarding anticoagulation?
A. Stop warfarin B. Continue warfarin for 1 month C. Stop warfarin + start aspirin D. Continue lifelong warfarin E. Continue warfarin for 6 months
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D. Continue lifelong warfarin
Warfarin should be continued indefinitely as this is his second episode of atrial fibrillation and he has risk factors for stroke (age, hypertension)
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A 72-year-old man presents with lethargy and palpitations for the past four or five days. On examination his pulse is 123 bpm irregularly irregular, blood pressure is 128/78 mmHg and his chest is clear. An ECG confirms atrial fibrillation. What is the appropriate drug to control his heart rate?
A. Amiodarone B. Atenolol C. Digoxin D. Amlodipine E. Flecainide
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B - Atenolol Atrial fibrillation: rate control - beta blockers
preferable to digoxin A number of factors including age and symptoms would favour a rate control strategy.
The NICE guidelines suggest either a beta-blocker or a rate limiting calcium channel blocker (i.e. Not amlodipine) in this situation. Some clinicians would prefer to use a more cardio-selective beta-blocker such as bisoprolol, although this is not stipulated in current guidelines
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Factors favoring rate control…. History of ischaemic heart disease, Older than 65 years
Factors favoring rhythm control…. Younger than 65 years, Symptomatic, First presentation Lone AF or AF secondary to a corrected precipitant (e.g. Alcohol), Congestive heart failure
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The Royal College of Physicians and NICE published guidelines on the management of atrial fibrillation (AF) in 2006. The following is also based on the joint American Heart Association (AHA), American College of Cardiology (ACC) and European Society of Cardiology (ESC) 2012 guidelines
Agents used to control rate in patients with atrial fibrillation beta-blockers calcium channel blockers digoxin (not considered first-line anymore as they are less effective at controlling the heart rate during exercise. However, they are the preferred choice if the patient has coexistent heart failure)
Agents used to maintain sinus rhythm in patients with a history of atrial fibrillation sotalol amiodarone flecainide others (less commonly used in UK): disopyramide, dofetilide, procainamide, propafenone, quinidine
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A 71-year-old woman presents with palpitations and 'lightheadedness'. An ECG shows that she is in atrial fibrillation with a rate of 130 / min. Her blood pressure is normal and examination of her cardiorespiratory system is otherwise unremarkable. Her past medical history includes well controlled asthma (salbutamol & beclomethasone) and depression (citalopram). Her symptoms have been present for around three days. What is the most appropriate medication to use for rate control?
A. Diltiazem B. Sotalol C. Digoxin D. Atenolol E. Amiodarone
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A. Diltiazem Her history of asthma is a contraindication to
the prescription of a beta-blocker. NICE therefore recommend a rate-limiting calcium channel blocker.
Consideration should also be given to antithrombotic therapy.
Agents used to control rate in patients with atrial fibrillation beta-blockers calcium channel blockers
digoxin (not considered first-line anymore as they are less effective at controlling the heart rate during exercise. However, they are the preferred choice if the patient has coexistent heart failure)
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Which one of the following agents is most useful in the maintenance of sinus rhythm in patients with atrial fibrillation?
A. Verapamil
B. Diltiazem
C. Ibutilide
D. Amiodarone
E. Digoxin
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D
Agents used to maintain sinus rhythm in patients with a history of atrial fibrillation
sotalol amiodarone flecainide, propafenone
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You review a 75-year-old man who complains of palpitations. He was diagnosed with atrial fibrillation around four months ago and started on digoxin 125 mcg od and warfarin. Despite this treatment he still feels his 'heart race' regularly. On examination his pulse is 96 / min irregularly irregular and respiratory examination is unremarkable. What is the most appropriate next step in management?
A. Switch digoxin for verapamil B. Refer for electrical cardioversion C. Add amiodarone D. Add bisoprolol E. Make no change to his regular medication but
prescribe flecainide as a 'pill in the pocket'
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D. Add bisoprolol
Adding a beta-blocker would be the best option here.
It will help control the heart rate and may have cardioprotective properties in certain patients (e.g. Those with heart failure, ischaemic heart disease or hypertension).
Factors favoring rate control …. Older than 65 years
History of ischaemic heart disease
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A 78-year-old woman with no past medical history of note presents with palpitations and shortness of breath, having been unwell for the past three days. Examination reveals an irregularly irregular pulse of 130 bpm, blood pressure of 108/70 mmHg, oxygen saturations of 94% on air and bilateral lung crepitations in the lower and midzones. She refuses admission to hospital. What is the most appropriate therapy to control her heart rate?
A. Amiodarone B. Flecainide C. Verapamil D. Digoxin E. Bisoprolol
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D. Digoxin Digoxin is strongly indicated for coexistent
atrial fibrillation and heart failure. Beta-blockers should not be introduced until
any heart failure has been stabilised - the BNF states:'beta-blockers should also be avoided in patients with worsening unstable heart failure; care is required when initiating a beta-blocker in those with stable heart failure.'
Electrical cardioversion is a less attractive option here as the patient has been unwell for three days (hence risk of stroke), although it should always be considered in haemodynamically unstable patients
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A 57-year-old man presents to surgery with palpitations for the past 24 hours. He has no past history of note. There is no associated chest pain or shortness of breath. Clinical examination is unremarkable other than an irregular tachycardia. An ECG shows atrial fibrillation at a rate of 126 bpm with no other changes. What is the most appropriate management?
A. Beta-blocker + aspirin B. Beta-blocker + warfarin C. Digoxin + warfarin D. Digoxin + aspirin E. Admit patient
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E. Admit patient
This patient is suitable for electrical cardioversion and hence should be admitted to hospital.
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Atrial fibrillation: cardioversionOnset < 48 hours
If the atrial fibrillation (AF) is definitely of less than 48 hours onset patients should be heparinized.
Otherwise, patients may be cardioverted using either: 1- electrical - 'DC cardioversion' 2- pharmacology - amiodarone if structural heart disease,
flecainide in those without structural heart disease
Following electrical cardioversion if AF is confirmed as being less than 48 hours duration then further anticoagulation is unnecessary
Patients who have risk factors for ischaemic stroke should be put on lifelong oral anticoagulation.
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If the patient has been in AF for more
than 48 hours A- anticoagulation should be given for at least 3 weeks prior to
cardioversion.
B- An alternative strategy is to perform a transoesophageal echo
(TOE) to exclude a left atrial appendage (LAA) thrombus. If
excluded patients may be heparinised and cardioverted
immediately.
If there is a high risk of cardioversion failure (e.g. Previous failure or
AF recurrence) then it is recommend to have at least 4 weeks
amiodarone or sotalol prior to electrical cardioversion
Following electrical cardioversion patients should be anticoagulated
for at least 4 weeks.
After this time decisions about anticoagulation should be taken on
an individual basis depending on the risk of recurrence
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A 62-year-old man is reviewed the day after a successful elective DC cardioversion for atrial fibrillation. Six weeks ago he presented in fast atrial fibrillation. A decision was made at the time to warfarinise him for six weeks after which he was to be cardioverted. During this time he had a normal transthoracic echocardiogram. He has no past medical history of note other than treatment for a basal cell carcinoma. What is the most appropriate plan regarding anticoagulation?
A. Can stop immediately B. Continue warfarinisation for 1 week then review
following C. Lifelong warfarin D. Lifelong aspirin E. Continue warfarinisation for 4 weeks then review
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E. Continue warfare for 4 weeks
Onset > 48 hours
If the patient has been in AF for more than 48 hours then anticoagulation should be given for at least 3 weeks prior to DC
An alternative strategy is to perform a (TOE) to exclude a left (LAA) thrombus. If excluded patients may be heparinised and cardioverted immediately.
If there is a high risk of cardioversion failure (e.g. Previous failure or AF recurrence) then it is recommend to have at least 4 weeks amiodarone or sotalol prior to electrical cardioversion
Following DC patients should be anticoagulated for at least 4 weeks. After this time decisions about anticoagulation should be taken on an individual basis depending on the risk of recurrence
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A 67-year-old woman presents with palpitations. Her pulse rate is around 150/min. An ECG is immediately ordered:
What does the ECG show?
A. Junctional tachycardia
B. Atrial flutter
C. Atrial fibrillation
D. Broad-complex tachycardia
E. Wolff-Parkinson White syndrome
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Atrial flutter
AFlut
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Atrial flutter is a form of supraventricular tachycardia characterised by a succession of rapid atrial depolarisation waves.
ECG findings 'sawtooth' appearance as the underlying atrial rate is often around 300/min the ventricular or heart rate is dependent on the degree of AV block.
For example if there is 2:1 block the ventricular rate will be 150/min
flutter waves may be visible following carotid sinus massage or adenosine
Management is similar to that of atrial fibrillation although
mediction may be less effective atrial flutter is more sensitive to cardioversion
however so lower energy levels may be used radiofrequency ablation of the tricuspid valve
isthmus is curative
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The ECG below is taken from a 78-year-old woman who had been experiencing palpitations for the past two days. On review in surgery she is tachycardic but her blood pressure is 124/80 mmHg and there are no signs of hypertension.
What is the shown on the ECG? A. Sick sinus syndrome B. Atrial flutter with variable block C. Polymorphic ventricular tachycardia D. Supraventricular tachycardia E. Monomorphic ventricular tachycardia
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B. Atrial flutter with variable block
Whilst 'sawtooth' waves are seen the rhythm is irregular suggesting a diagnosis of atrial flutter with variable block.
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SVT
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A 19-year-old man presents with a history of palpitations. These typically occur after exercise. During these episodes his heart beat feels fast and regular. On one occasion he describes feeling light-headed like he may pass out. You arrange a 12 lead ECG:
What is the most likely diagnosis? A. Wolff-Parkinson White B. Hypertrophic obstructive cardiomyopathy C. Arrhythmogenic right ventricular
cardiomyopathy D. Brugada syndrome E. Pulmonary embolism
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A. Wolff-Parkinson White
The ECG shows a short PR interval associated with a slurred upstroke (delta wave).
Note the non-specific ST-T changes which are common in Wolff-Parkinson White and may be mistaken for ischaemia.
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(WPW) syndrome is caused by a congenital accessory conducting pathway between the atria and ventricles leading to a atrioventricular re-entry tachycardia (AVRT). As the accessory pathway does not slow conduction AF can degenerate rapidly to VF Possible
ECG features short PR interval wide QRS complexes with a slurred upstroke -
'delta wave' left axis deviation if right-sided accessory
pathway (Type B…uncommon) no dominant R wave in V1
right axis deviation if left-sided accessory pathway (Type A….common) dominant R wave in V1
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Associations of WPW HOCM mitral valve prolapse Ebstein's
anomaly thyrotoxicosis secundum ASD
Management definitive treatment: radiofrequency ablation
of the accessory pathway medical therapy: sotalol, amiodarone,
flecainide Sotalol should be avoided if there is coexistent
atrial fibrillation as prolonging the refractory period at the AV node may increase the rate of transmission through the accessory pathway, increasing the ventricular rate and potentially deteriorating into ventricular fibrillation
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A 20 year old man attends A+E because of palpitations. Before they could do an ECG his palpitations self terminated. The ECG which was done showed sinus rhythm with a PR interval of 70 ms.
What is the mechanism of the patient's tachycardia?
1- Atrial flutter 2- Atrioventricular reentry tachycardia 3- Atrioventricular nodal reentry tachycardia 4- Ventricular tachycardia 5- Atrial tachycardia
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Answer: 2- Atrioventricular reentry tachycardia
The PR interval is short (<3 small squares or <120 ms) suggesting wolff parkinsonwhite syndrome.
There may be an accessory pathway which predisposes to AVRT rather than AVNRT.
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A 34-year-old male presents with palpitations. The ECG shows a slurred upstroke in the QRS complexes in the chest leads.
What is the treatment of choice?
Amiodarone
Aspirin
Diltiazem
Radiofrequency ablation
Warfarin
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D
This patient has Wolff-Parkinson-White syndrome as suggested by the delta wave
Anticoagulation is not indicated.
Risk of arrhythmia after ablation is of the order of 7% over five years.
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A 25-year-old female who is 20 weeks pregnant with her first child is admitted
with palpitations. The ECG reveals a supraventricular
tachycardia (SVT) and this self terminates 20 minutes after admission. Subsequently she has further runs of symptomatic SVT.
What would be the most appropriate treatment for this patient's paroxysmal supraventricular tachycardia?
Amiodarone Disopyramide Flecainide Metoprolol Verapamil
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D Tachyarrhythmias may increase during
pregnancy although the causes are not entirely clear.
Regarding the termination of acute SVT, adenosine appears to be safe in pregnancy.
In the case of the prevention of recurrent SVT then verapamil or beta-blockers have data supporting their use.
Current AHA/EHRA criteria for the treatment of SVTs in pregnancy do suggest using metoprolol (level of evidence B) rather than verapamil (C), although they recommend avoiding the former in the first trimester.
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Ventricular arrhythmia
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A 50 year old man presents with broad complex tachycardia. He has a BP of 100/70 and a pulse rate of 170. The duty medical registrar is considering administration of antiarrhythmics.
Which one of the following medications is contraindicated in this patient?
1- Magnesium
2- Amiodarone
3- Verapamil
4- Procainamide
5- Lignocaine
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Answer: 3- Verapamil The patient is likely to have ventricular
tachycardia in view of the very fast rate and broad complexes.
All are useful agents which can be used in conjunction cautiously for VT except for Verapamil.
Verapamil is contraindicated in VT because it can cause the blood pressure to drop drastically due to negative ionotropic action.
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A 65 year old man has palpitations. He has a broad complex tachycardia on the ECG. In a broad complex tachycardia.
Which of the following would be the strongest indication towards a diagnosis of VT?
1- Discordant QRS complexes in the chest leads
2- Extreme right axis deviation 3- Hemodynamic instability 4- Trifascicular block on ECG 5- Cannon a waves
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Answer: 5- Cannon a waves
Any evidence of AV dissociation such as cannon a waves effectively rules out a supraventricular tachycardia.
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Features suggestive of VT, rather than SVT with bundle branch block are:
AV dissociation cannon a waves on JVP fusion and/or capture beats
QRS axis deviation
QRS duration (> 140 msec/ > 160msec)
concordance of the QRS complexes in the chest leads
history of ischaemic heart disease
Morphology in LBBB or RBBB pattern
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Features which favor of SVT:
Long-short cycle sequence
Slowing or termination by increasing vagal tone or with adenosine
Triphasic QRS in V1
RP interval < 100 msec
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1- Long QT Syndrome
2- Short QT syndrome
3- Catecholamine polymorphic VT
4- Brugada
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You are considering prescribing an antibiotic to a 28-year-old man who tells you he has Long QT syndrome. Which antibiotic is it most important to avoid?
A. Doxycycline
B. Trimethoprim
C. Erythromycin
D. Rifampicin
E. Co-amoxiclav
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Erythromycin Long QT syndrome Long QT syndrome
(LQTS) is an inherited condition associated with delayed repolarization of the ventricles. It is important to recognise as it may lead to ventricular tachycardia and can therefore cause collapse/sudden death.
The most common variants of LQTS (LQT1 & LQT2) are caused by defects in the alpha subunit of the slow delayed rectifier potassium channel
LQTS 3 Na chennel defect A LQTS is more than 480 If less than 340 msec its SQTS
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Congenital Jervell-Lange-Nielsen syndrome (includes deafness and is
due to an abnormal potassium channel) Romano-Ward syndrome (no deafness)
Drugs amiodarone, sotalol class 1a antiarrhythmic drugs tricyclic antidepressants, selective serotonin reuptake
inhibitors (especially citalopram) methadone chloroquine haloperidol terfenadine erythromycin…. a non-sedating antihistamine
and classic cause of prolonged QT in a patient, especially if also taking P450 enzyme inhibitor, e.g. Patient with a cold takes terfenadine and erythromycin
Other electrolyte: hypocalcaemia, hypokalaemia, hypomagnesaemia acute myocardial infarction myocarditis hypothermia subarachnoid haemorrhage
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Features
may be picked up on routine ECG or following family screening
Long QT1 - usually associated with exertional syncope, often swimming
Long QT2 - often associated with syncope occurring following emotional stress, post partum or auditory stimuli
Long QT3 - events often occur at night or at rest
sudden cardiac death
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Management
avoid drugs which prolong the QT interval and other precipitants if appropriate (e.g. Strenuous exercise)
beta-blockers….. note sotalol may exacerbate long QT syndrome
implantable cardioverter defibrillators in high risk cases
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Bundle Branch Block
(BBB)
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A 55-year-old man complains of palpitations. Examination of his cardiorespiratory system is unremarkable. A resting ECG is therefore ordered prior to arranging a 24-hour tape. What is type of ECG ?
A. Normal ECG
B. Wolff-Parkinson White syndrome
C. Right bundle branch block
D. Left bundle branch block
E. Recent myocardial infarction
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C. Right bundle branch block
The following features can be seen on this ECG:
broad QRS > 120 ms
rSR' pattern in V1-3 ('M' shaped QRS complex)
wide, slurred S wave in the lateral leads (aVL, V5-6) It is therefore diagnostic of right bundle branch block.
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One of the most common ways to remember the difference between LBBB and RBBB is WiLLiaM MaRRoW
in LBBB there is a 'W' in V1 (and a 'M' in V6 )in RBBB there is a 'M' in V1 (and a 'W' in V6)
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Causes of RBBB
normal variant - more common with increasing age
right ventricular hypertrophy
chronically increased right ventricular pressure - e.g. cor pulmonale
pulmonary embolism
myocardial infarction
atrial septal defect
cardiomyopathy or myocarditis
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A 74-year-old woman has an ECG as part of a hypertension work-up after being found to have a reading of 162/102 mmHg. There is no past medical history of note other than having a thyroid cancer successfully operated on 20 years ago. She is currently asymptomatic and clinical examination (apart from the raised blood pressure) is unremarkable. The ECG is shown below:
You plan to start her on amlodipine 5mg od. What is the most appropriate further management given the ECG?
A. No further action required B. Arrange a B-type natriuretic peptide (BNP) test C. Arrange an echocardiogram D. Refer for an exercise tolerance test E. Arrange a 24 hour tape
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A- No action
Right bundle branch blocker may be a normal variant, especially in older patients. Given the absence of other symptoms or signs no further investigation is warranted.
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A 72-year-old woman presents with palpitations. Her past medical history includes ischaemic heart disease and chronic obstructive pulmonary disease. Her pulse is 120/min, blood pressure 110/76 mmHg and the chest is clear on auscultation. The ECG is shown below:
What is shown on the ECG? A. Left bundle branch block B. Anterior ST elevation myocardial infarction C. Right bundle branch block D. Narrow complex tachycardia E. Atrial flutter
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Causes of LBBB: Coronary and Hypertensive Heart Disease Aortic Stenosis Idiopathic degenerative disease Congestive Heart Failure, cardiomyopathy Pericarditis or Myocarditis Cardiomyopathy and Myocarditis Cardiac Surgery Anteroseptal MI Syphilitic, Rheumatic and congenital disease HTN Rare: idiopathic fibrosis, digoxin toxicity,
hyperkalaemia
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Which one of the following would not be considered a normal variant on the ECG of an athletic 28-year-old man?
A. Wenckebach phenomenon
B. Sinus bradycardia
C. Junctional rhythm
D. First degree heart block
E. Left bundle branch block
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E. LBBB
The following ECG changes are considered normal variants in an athlete:
sinus bradycardia junctional rhythm first degree heart block Wenckebach phenomenon
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Heart block
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Types of heart block
First degree heart block PR interval > 0.2 seconds
Second degree heart block type 1 (Mobitz I, Wenckebach): progressive prolongation of the PR interval until a dropped beat occurs type 2 (Mobitz II): PR interval is constant but the P wave is often not followed by a QRS complex
Third degree (complete) heart block there is no association between the P waves and QRS complexes
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1st degree heart (AV) block: The wife is waiting at home. The husband comes home late every
night, but he always comes home and it’s at the same time every night.
2nd degree heart (AV) block Type I (Mobitz I/Weinkebach): The wife is waiting at home. The husband comes home later and
later every night until one night he doesn’t come home at all.2nd degree heart block Type II (Mobitz II): The wife is waiting at home. Sometimes the husband comes
home, sometimes he doesn’t. When he does come home though, it’s always at the same time.
Note: this is usually more serious than Type I and will sometimes require counselling.
3rd degree AV block: The wife is no longer waiting at home. She and her husband are
now both on separate schedules and have no relationship and are no longer talking to each other. Each spouse has a regular, individual schedule.
Note: This frequently requires counselling in the form of a temporary or permanent pacer.
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A 72-year-old presents to the surgery complaining of dizziness. An ECG is taken and shows the following:
What is the diagnosis? A. Ventricular tachycardia B. Second degree heart block - Mobitz
type 2 C. First degree heart block D. Second degree heart block - Mobitz
type 1 E. Third degree heart block
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E. Third degree heart block Note how the P waves are not related to
the QRS complexes in the ECG - this is the hallmark of third degree (complete) heart block.
The QRS complexes represent a ventricular escape rhythm which characteristically has a rate of 35 - 40 bpm.
Features syncope heart failure regular bradycardia (30-50 bpm) wide pulse pressure JVP: cannon waves in neck variable intensity of S1
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You are asked to review an ECG by one of the Nurse Practitioners at the surgery. An 84-year-old woman has been brought to the surgery by her daughter following a fall. The ECG is shown below…What is shown on the ECG?
A. Anterior ST elevation myocardial infarction
B. Right bundle branch block
C. Broad complex tachycardia
D. Inferior ST elevation myocardial infarction
E. Paced rhythm
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E. Paced rhythm
Pacing spikes can be seen before the widened QRS complex, most clearly in V3-V6.
The widened QRS complex means that ventricles are paced rather than the atria. Ventricular pacing tends to be on the right side giving the left bundle branch block like waveform seen here.
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Pacemaker
Indications for permanent pacemaker (PPM) insertion
persistent symptomatic bradycardiae.g. sick sinus syndome
complete heart block Mobitz type II AV block persistent AV block after myocardial
infarction
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Indications for a temporary pacemaker
Symptomatic / haemodynamicallyunstable bradycardia, not responding to atropine
Post-ANTERIOR MI: type 2 or complete heart block*
Trifascicular block prior to surgery Post-INFERIOR MI complete heart block is
common and can be managed conservatively if asymptomatic and haemodynamically stable
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An elderly gentleman is brought to the Emergency department after suffering a witnessed collapse in a supermarket. A passerby came to his aid immediately and he regained consciousness quickly. His usual state of health is good and he is
independent. On arrival his GCS is 15/15. Blood pressure is 101/72 mmHg.
Pulse is 40 regular. Cardiovascular, respiratory and neurological examination is
normal. A 12 lead ECG demonstrates a bradycardia with no obvious
association between the QRS complexes and P waves. You call the cardiology registrar for help. You talk to the patient about his problem and when pacemakers are needed.
With regard to this, from the list below, which is an absolute indication for a permanent pacemaker?
Acquired third degree heart block without symptoms Bifascicular block First degree heart block without symptoms Mobitz Type I with symptoms Trifascicular block
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Indications for permanent pacemakers are a common cardiology topic in examinations.
Complete heart block (whether symptomatic or not) is a indication for a permanent pacemaker as there is an inherent risk of asystole.
Mobitz Type I with symptoms is a relative indication (Mobitz type I) with symptoms.
Generally, permanent pacing can be justified for any degree of heart block associated with symptoms of bradycardia.
Bifascicular block and trifascicular block are only absolute indications if they are associated with heart block.
[A]
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A 67-year-old woman is admitted with blackouts.
Her electrocardiogram shows ventricular escape with complete heart block. As you
are standing there she blacks out once more. Her rhythm strip shows P wave asystole.
Which of the following would be the initial immediate treatment here after airway and breathing?
Adenosine 6 mg Adrenaline 1 mg Atropine 0.6 mg Transcutaneous pacing Transvenous pacing
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D Occasionally, atrial electrical activity continues in the
absence of ventricular impulses. This is referred to as P-wave asystole and
may respond to electrical pacing. This can be achieved by transvenous,
transcutaneous or manual techniques. Transvenous pacing takes longer to instigate, and
transcutaneous pacing is therefore the initial choice here. Manual pacing is an effective holding measure
before more definitive pacing is instituted. Atropine can also be used, as can adrenaline, for
sustained P wave asystole but pacing is the initial treatment of choice. All crash trollies within UK hospitals contain
the equipment required to externally pace patients. Adenosine can induce asystole, and is only indicated
in the treatment of supraventricular tachycardias
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Regarding the normal pregnancy, which from the list below is an expected physiological change?
Bradycardia
Elevated JVP
Hypertension
Reduced stroke volume
Tachycardia
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The heart rate increases by 10-20 bpm, stroke volume and cardiac output
increase but venous pressure should remain the same due to a 25% reduction in systemic and pulmonary vascular resistance.
Blood pressure should drop in the first and second trimester and then climb to pre-pregnancy levels by the third trimester.
[E]