Teaching Clinic - Three Cases with Syncope

Question 1

• Mr. YSM, M/54
• C/O: Sudden onset of palpitation associated with syncope
• Sudden onset of rapid palpitation for 1-2 minutes, associated with mild dyspnea and then LOC
• ? Mild twitching of all 4 limbs during the episode as noted by his wife
• Lasting for 30 seconds and patient spontaneous regain conscious
• No head injury or neurological abnormality after recovery

Answer 1

Hx:
- Head injury-related? Before or after passing out?
- Frequency (with previous recovery = better prognosis, means that patient has survived before vs. first episode may have worse prognosis)
- Previous heart attack
- Exertional angina / dyspnea ?
- Palpitatoins?
- Dizziness?
- LOC? Twitching/tongue-biting/post-ictal drowsiness? Up-rolling eyeballs? Cyanosis?
- Exercise capacity?
- Orthopnea? PND?
- Past history: heart disease? long-term medical therapy?
- Medication causing syncope? (ACEi S/E: first-dose hypotension, hyperkalemia, cough, angioedema, vascular leakage)
- Social history: Smoker? Drinker?
- Family history
- Drug history
- Age (young = vasovagal, inherited conditions [HOCM, Brugada) vs. middle age = structural heart disease)

Question 2

What does it mean if a patient is twitching but we cannot open their eyes?

Answer 2

This is malingering. Eyes should roll backwards in true syncope.

Eye opening muscles are voluntary muscles.

Question 3

What happens to blood pressure and breathing pattern during seizure?

Answer 3

• Blood pressure very high (sympathetic tone)
• Patient is not apneic (hypoxemic causing increased sympathetic tone)

Question 4

Where may cardioembolism lead to syncope?

Answer 4

Brainstem (vertebral circulation) = unusual

Question 5

When may Afib lead to syncope?

Answer 5

• Slow AF
• Poor ventricular function
• Brainstem stroke
• Sick sinus syndrome (long-pause)
• Wolff-Parkinson-White

Question 6

How much cardiac output is contributed by atrial contraction?

Answer 6

10%, unless there is problem during filling phase (i.e. HOCM, ventricular dysfunction)

Question 7

What are fatal conditions which must not be missed in a patient with syncope?
4 conditions that you cannot miss

Answer 7

• Myocardial infarction (1/8 will present with syncope) =60% get to hospital in time, 40% die at home
  – Ischaemic-related ventricular fibrillation (can be due to transient ischaemia due to occlusion of arteries)
• Pulmonary embolism (1/8 will present with syncope=saddle PE) = haemodynamic collapse. Increased pulmonary arterial pressure causes increased myocardial contraction which breaks up the clot. Syncope is a bad prognostic factor as it indicates a large clot.
• Aortic dissection
• Rhythem problem (slow heart beat or fatal arrhythmia: ventricular arrhythmia, TdP) = ventricular scar [re-entrant related tachycardia = 1-2 years after event]

Relative importance of diagnosis, frequency of disorder, presentation

4 highly fatal conditions that you cannot miss
Rhythm problem (heart block, bradycardia, ventricular rhythm issues), aortic dissection, pulmonary embolism, myocardial inafarction

Question 8

Patient with MI wakes up. How come?

Answer 8

Spontaneous reperfusion (blood clot resolves) = Regain consciousness (not the entire artery is occluded)

Aortic dissection = Transient dissection (compress on false lumen)

Question 9

What medication cannot be given with ACEi?

Answer 9

ACEi releases bradykinin
ARNI releases bradykinin (Sacubitril/valsartan)

High risk of angioedema

Question 10

What 4 drugs are in the heart failure treatment regimen?

Answer 10

ARNI, a beta-blocker, an MRA, and an SGLT2 inhibitor

Question 11

Drugs that prolong QT

Answer 11

Antibiotics (episodic drug):
- Macrolides
- Quinolones
- Septrin

Anti-psychotics:
Anti-emetic
Anti-depressant
Anti-arrhythmic
- class IA [quinidine]
- class IC [sodium channel blocker, i.e. flecainide]
- class III [i.e. amiodarone],

Drug abuse = methadone, analgesics (prolong QT = sudden death)

Anti-histamine
Anti-spasmodic drugs (GI upset)
TCM (acrolein)

Question 12

What drug shorten QT?

Answer 12

Class II (B) = propanolol (shorten QT)
class IB [i.e. shorten QT = lidocaine, mexlitine = shorten QT]

Question 13

Physical examination: conscious and alert
– BP: 110/65, pulse regular 70 bpm, all pulse equal and normal
– Heart sound normal with pansystolic murmur over apex, no carotid bruit
– Chest: mild bilateral basal crepitation
– Neurological examination: NAD

Answer 13

• Pansystolic murmur: malignant MVP syndrome [99% benign,1% malignant] = ventricular premature beat + ventricular arrhythmia

Question 14

Answer 14

Rate: 85 bpm
Axis: Normal
Rhythm: Regular
Interval: QT 2.2, not prolonged
Chamber enlargement: Left atrial enlargement (mitral regurgitation), no ventricular enlargement
QRS complex: amplitude change & progression, widening of QRS:, L or R bundle, Q wave [V5, V6] = anterolateral , [II, III, aVF] = inferior)

Dx: inferior and anterolateral MI

Question 15

Answer 15

Rate: 200 bpm
Axis: Extreme axis deviation
Rhyhtm:

Wide complex tachycardia: VT, SVT +/- WPW, BBB, pre-existing wide complex

Anterolateral myocardial infarction
RBBB, so it’s coming from the L-side

RBBB = left VT

Question 16

7 criteria for VT

Answer 16

1. Absence of typical RBBB or LBBB morphology
2. Extreme axis deviation (“northwest axis”): QRS positive in aVR and negative in I and aVF
3. Very broad complexes > 160ms
4. AV dissociation: P and QRS complexes at different rates. P waves are often superimposed on QRS complexes and may be difficult to discern
5. Capture beats: Occur when the sinoatrial node transiently “captures” the ventricles in the midst of AV dissociation, producing a QRS complex of normal duration (see 3)
6. Fusion beats: Occur when a sinus and ventricular beat coincide to produce a hybrid complex
7. Positive or negative concordance throughout the precordial leads, i.e. lead V1-6 show entirely positive (R) or entirely negative (QS) complexes, with no RS complexes seen

Question 17

Answer 17

Rhythm:
Axis: LAD

Fusion beat = VT

Where is VT = RBBB = left VT (septum!) [not lateral]

L-axis (through the spetum)

Question 18

Value of EP Study in Syncope

Answer 18

Question 19

Treatment of Previous Myocardial Infarction with Ventricular Tachycardia

Answer 19

1. Anti-heart failure
2. Anti-ischaemic
3. Implantable cardioverter defibrillator

(Give anti-arrhythmic drugs or cath ablation of accessory pathway)

Question 20

Answer 20

• Axis: RAD
• Chamber enlargement: V1 P wave is very small (monophasic) = R atrial enlargement
• RIght ventricular enlargement:
  – Big S wave in V5, V6
  – Big S wave in lead I

Q wave in lead III (inverted)

Pulmonary embolism
- Sympathetic activation: sinus tachycardia
- Right ventricular dilatation

Question 21

Answer 21

Rate:
Rhythm
Axis: RAD
QT: 0.6 (one big square in 0.2, small square is 0.04)

R Atrial Enlargement
R Ventricular Enlargement

S1Q3T3

Question 22

4 common causes of prolonged QT

Answer 22

• drug
• electrolytes
• ischaemia
• idiopathic

Question 23

Answer 23

Rate: <60
Axis: LAD
Prolonged PR interval
QRS complex is wide
No monophasic P wave (atrium looks normal)
Left ventricular normal
V2 through V3 (Pathological Q wave)
ST changes: ST elevation in leads V1-6, aVL

Anterolateral STEMI

Question 24

What could cause exercise-induced syncope?

Answer 24

L-sided obstruction
Atrial myxoma (obstruct L ventricle)
Turner syndrome

R-sided obstructoin
Pulmonary hype

Ventricular arrhythmia, SVT
CPVT

Marfan’s syndrome? Aortic dissection (basketball, super tall)

Question 25

What are the classes of pulmonary hypertension? (5)

Answer 25

Clinical groups:
1 = pulmonary arterial hypertension
2 = pulmonary hypertension (PH) caused by left heart disease
3 = PH caused by lung disease and/or hypoxia (cor pulmonale)
4 = PH caused by pulmonary artery obstruction
5 = PH with unclear and/or multifactorial mechanisms

Question 26

Answer 26

Think of inherited causes due to father’s abnormal ECG:
- Cardiomyopathy (could be inherited)
- Rhythm problem (long QT, CPVD)
- Pulmonary HT
- Marfan’s syndrome

Question 27

Answer 27

Rate: 100
Axis: left axis deviation
Rhythm: Irregularly irregular (DDx: AF, MAT, atrial flutter with variable condution)
This is MAT (P wave looks different, look at lead II)
Normal interval
Chamber enlargement: No atrial enlargement, LVH
Pathological Q waves in multiple leads = scarring of muscles (cardiomyopathy)

Question 28

What are the causes of MAT?

Answer 28

Excessive sympathetic tone:
◦ Thyroid toxicosis
‣ Medications: Salbutamol (Asthma), Theophylline [beta-agonist]
‣ Stress: Ischaemia, Hypoxemia, Hypoxia: COPD
‣ Electrolyte prblem: Hypokalemia
‣ Nervous

Parasympathetic (decrease HR) & sympathetic innervation (increase HR)

Question 29

What drugs lead to T wave inversion?

Answer 29

Digoxin effect (asymmetric T wave inversion)

Question 30

Answer 30

Bulging of septum = HOCM

Question 31

Treatment of HOCM

Answer 31

1. Screening of relative
2. Symptomatic Rx: beta-blocker, CCB, Dipyradimole, myosin inhibitor
3. Anti-heart failure Rx
4. Treatment of LVOT obstruction- surgery, septal embolization, pacing
5. Prevention of SCD-ICD for high risk pts: age, syncope, family hx of SCD, wall thickness, LA size, LVOT gradient, VT- EPS/Holter

Question 32

What must we think of when there is exercise induced syncope?

Answer 32

Question 33

Leading causes of SCD in young competitive athletes

Answer 33

Question 34

How does anomalus origin of coronary artery lead to SCD?

Answer 34

Right come from R side, left come from L side

L-side come from right

Question 35

Answer 35

Axis: RAD
Rhythm: Irregular
Wide

Irregular wide complex tachycardia:
1. Ventricular arrhythmia
4. AF with something superimposing on AF, i.e. WPW (accessory pathway)

Delta wave +ve in V1 = L-sided WPW
Accessory pathways come from mitral annulus

Pre-excitement AF

Question 36

Answer 36

V1 P wave is upright = atrial enlargement
RSR’ (big R wave in V1) = RBBB, WPW, RVH, posterior MI

S wave in V1 and V6
Epsilon wave have ARVD (islands on muscles in between fat, small bundle of muscle activating will give rise to small QRS complex = epsilon wave)

We only see epsilon wave in young patients, before the island of muscle dies

Question 37

DDx of big R wave in V1

Answer 37

RSR’ (big R wave in V1) = RBBB, WPW, RVH, posterior MI

Question 38

J point elevation

Answer 38

• Brugada
• Hypothermia
• ARVD

Question 39

Answer 39

Prolonged QT >450 (600)

Drugs
Electrolytes (hypoK)
Long QT = low potassium
Flattened T waves (low potassium)
Low calcium flat T waves

No ST segment changes
No ischaemia

By exclusion, it is either drugs or idiopathic long QT

Question 40

Answer 40

Rate: 65
Rhythm: sinus rhythm
Axis: RAD
Interval:
- PR prolonged
- QRS prolonged (wide)
- QT normal
Big R-wave in V1
DDx:
- RVH (no big S wave in V1 and V5)
- RBBB (rsr)
- Posterior MI (no ST elevation)
- WPW (must have short PR)
- QRS morphology: wide
- No ST segment changes

First degree heart block, RBBB, RAD = Bifascicular block (1 in 8 will progress into complete heart block)

Most cases, we don’t need to do anything. Need to R/O myocardial ischaemia, must monitor as may become CHB (borderline indication for pacemaker if syncope)

Question 41

Answer 41

Rate: 50 bpm
Rhythm: p wave not followed by QRS complex (complete heart block, A & V are dissociated)
QRS: normal
QT: QT interval prolongation (with bradycardia, may be slightly prolonged)
Possible feature of electrolyte problem
No Q wave
No ST segment changes

Dx: CHB

Causes of CHB: Electrolyte, MI, drug, degeneration

Question 42

Answer 42

Rate: Bradycardia
Complete heart block
No PR interval
QRS is wide

When we look for wide QRS (escaped beat from ventricle = unstable, can get to asystole much faster)

Narrow QRS (escaped beat from AV node)

QT is not prolonged
RSR’ = RBBB

Escaped rhythm from L ventricle
Anteroseptal MI has poor prognosis

Inferior STEMI most reversible

Lead III have more ST elevation, R is V3

RCA occlusion (more likely to cause CHB)

Question 43

Answer 43

Rate:
Rhythm:
Axis:
Chamber enlargement: none
Partial RBBB with RSR’ block (J-point elevation dragged it up)

Type I Brugada Syndrome
Sodium channel blocker

If have J point elevation = hypothermia (but everywhere will have ST segment elevation, there is no localisation)

Question 44

Answer 44

Rate:
Rhythm: Sinus
Axis: RAD
Interval: Shortened PR, wide QRS,

LVH: big S wave and tall R wave = 7 big squares

Wolff-Parkinson White
- Delta wave is +ve = L-side
- Activating towards R-side

Question 45

Indication for echocardiography

Answer 45

Question 46

What is Tilt Table Test for syncope? What are the indications?

Answer 46

Question 47

How is TTT done?

Answer 47

Question 48

What are Neurally Mediated Syncopal Syndromes?

Answer 48

• Vasovagal
• Cough
• Exercise-induced
• Glossopharyngeal neuralgia
• Deglutition
• Postprandial
• Micturition
• Carotid sinus
• Orthostatic

Question 49

Clinical Characteristics of Neurally Mediated Syncope

Answer 49

• Provoked by environmental stimuli
• Prodrome of dizziness, epigastric discomfort, nausea, pallor, diaphoresis, yawning
• Symptoms improve with supine position
• Associated with hypotension and bradycardia
• Followed by intese malaise
• Negative Ix results

Question 50

Therapy for Neurally-Mediated Syncope

Answer 50

Question 51

Non-Pharmacological Therapy for Neurally-Mediated Syncope

Answer 51

Non-pharmacological Therapy:
Volume Expansion:
–Increase salt and fluid intake
Tilt Training
Isometric leg and arm counterpressure manoeures
Bradycardia:
–Permanent DDD pacing: frequency, severe attack and age >40

Question 52

Mannouveres to teach patients to prevent Neurally-Mediated Syncope

Answer 52

Question 53

Medical therapy for Neurally-Mediated Syncope

Answer 53

Question 54

Syndromes of orthostatic intolerance that may cause syncope

Answer 54

Question 55

What are the causes of syncope?

Answer 55

Question 56

DDx for LOC

Answer 56

Question 57

Assessment of syncope

Answer 57

Question 58

Syncope mimics

Answer 58

Question 59

Syncope vs. Seizures

Answer 59

Question 60

Value of ECG in evaluating syncope

Answer 60