Symptom To Diagnosis - Syncope

Question 1

Consciousness requires the following:

Answer 1

1. Organized cortical electrical activity.
2. Glucose.
3. Oxygen.
4. A functional delivery system to deliver oxygen and glucose.

Question 2

The evaluation of ALL syncopal patients must include?

Answer 2

1. Thorough history.
2. Physical exam.
3. ECG.

Question 3

Neurocardiogenic (vasovagal) syncope - Textbook presentation:

Answer 3

Typically develops in young patients during prolonged standing at times precipitated by pain or anxiety (ie, phlebotomy).
–> Lightheadedness, nausea, and diaphoresis may precede syncope, which is BRIEF.

Question 4

MCC of syncope:

Answer 4

Neurocardiogenic (vasovagal) –> 20-33%.

Question 5

Pathophysiology of neurocardiogenic syncope:

Answer 5

1. Low preload state due to venous pooling (from prolonged standing) or dehydration.
2. Superimposed anxiety, pain or fears triggers a sympathetic surge.
3. Sympathetic surge augments ventricular contraction.
4. Vigorous contraction coupled with low preload results in LOW ESV, which triggers intracardiac mechanoreceptors.
5. Mechanoreceptors trigger the vagal reflex.
6. Vagal reflex triggers bradycardia, vasodilatation, or both, resulting in hypotension and syncope.

Question 6

EBD of neurocardiogenic syncope - Provocative circumstances:

Answer 6

37% --> Prolonged standing.
42% --> Hot weather.
23% --> Lack of food.
21% --> Fear.
14% --> Acute pain.

Question 7

EBD of neurocardiogenic syncope - Sensitive finding?

Answer 7

NO SINGLE FINDING is very sensitive (14-40%).

Question 8

EBD of neurocardiogenic syncope - Certain findings are fairly specific and increase the likelihood of neurocardiogenic syncope when present:

Answer 8

LR+ 12 –> Feeling warm.
LR+ 9 –> Prolonged standing.
LR+ 8 –> Abdominal discomfort prior to syncope.
LR+ 7 –> Occurring during injection/cannulation.

Question 9

EBD of neurocardiogenic syncope - Syncope DURING exercise should raise the suspicion of?

Answer 9

CARDIOGENIC SYNCOPE.

Question 10

EBD of neurocardiogenic syncope - Lab and radiologic tests:

Answer 10

1. Typical history, normal physical exam, ECG, + no evidence of heart disease or red flags –> NO FURTHER TESTING.
2. Atypical history (without a clear precipitant) –> Echocardiogram + occasionally tilt-table testing.

Question 11

HCM - Textbook presentation:

Answer 11

May be asymptomatic and discovered due to a family history of sudden cardiac death, during the evaluation of an asymptomatic systolic murmur, during pre-participation athlete screening, or when symptoms occur (syncope, HF, A-fib, cardiac arrest).

Question 12

MCC of cardiovascular death among young athletes:

Answer 12

HCM.

Question 13

HCM - Complications:

Answer 13

1. HF.
2. Angina.
3. MR.
4. A-fib.
5. Stroke.
6. Syncope.
7. Sudden cardiac death.

Question 14

Angina develops in …-…% of patients with HCM.

Answer 14

25-30%.

Question 15

Syncope develops in …-…% of patients with HCM.

Answer 15

15-25%.

Question 16

ANNUAL risk of sudden cardiac death among all patients with HCM:

Answer 16

0.6-1%.

Question 17

Major risk factors for sudden cardiac death in HCM:

Answer 17

1. Prior events –> Prior cardiac arrest + spontaneous sustained VT.
2. High risk clinical factors:
   a. Family history in 1st degree relative.
   b. Unexplained syncope.
   c. Massive LVH (>3cm).
   d. Abnormal BP response to exercise.
   e. Nonsustained VT on Holter monitoring.

Question 18

Annual evaluation of patients with HCM:

Answer 18

1. History and physical exam.
2. Family history.
3. Echocardiography.
4. 48h-Holter.
5. Exercise stress testing –> To assess BP response to exercise and evaluate ischemia.

Question 19

EBD of HCM - Classic murmur of HCM - Increased and decreased when?

Answer 19

Increased –> By maneuvers that DECREASE chamber size (incr. obstruction) - Increases as the patient goes from a squatting to a standing position (sens 95%, spec 84%, LR+ 5.9, LR- 0.06).
Decreased –> Passive leg elevation –> Sens 85%, spec 91%, LR+ 9.4, LR-0.16.

Question 20

EBD of HCM - ECG findings - Abnormal in?

Answer 20

92% (73% in asymptomatic patients without obstruction).

Question 21

EBD of HCM - ECG abnormalities:

Answer 21

Repolarization abnormalities –> ST segment elevation, depression or T wave inversions) are found in 86% of patients although less common in asymptomatic, non obstructed patients (58%).

Question 22

EBD of HCM - LVH present in …% of obstructed patients and …% of non obstructed.

Answer 22

81%.

48%.

Question 23

EBD of HCM - ECG abnormalities may ?

Answer 23

Precede ECHOcardiographic abnormalities and may increase in frequency with age.

Question 24

Cardiac syncope - Textbook presentation:

Answer 24

Elderly patients with known heart disease (ie HF, CAD) who experience sudden syncope, which may occur without warning.
Patients may have palpitations.

Question 25

What is cardiac syncope?

Answer 25

Syncope 2o to a disorder arising within the heart.

1. Arrhythmias (either tachyarrhythmias or bradyarrhythmias) –> MC.
2. Occasionally –> Severe valvular heart disease (AS).
3. Rare causes –> Aortic dissection, cardiac tamponade, atrial myxoma.

Question 26

Cardiac syncope is associated with increased mortality. 1-yr?

Answer 26

1y mortality rate in patients with cardiac syncope is 18-33%, compared with 6% in patients with syncope of unknown cause.

Question 27

Cardiac syncope - Among patients with DCM, sudden cardiac death (presumably arrhythmogenic) accounts for …% of mortality.

Answer 27

30%.

Question 28

Why most SVTs do not produce syncope?

Answer 28

Because the AV node limits the ventricular response rate.

Question 29

MC tachycardias associated with syncope:

Answer 29

1. VT.

2. SVTs associated with an accessory pathway (ie WPW syndrome).

Question 30

MC bradycardias associated with syncope:

Answer 30

34% of patients with heart disease have significant bradycardias.

1. Sinus node dysfunction (sinus bradycardia, sinus pauses defined as >3 sec.
2. AV heart block (2nd or 3rd degree).
3. A-fib with slow ventricular response.

Question 31

EBD of cardiac syncope - History - Specific, but not sensitive findings:

Answer 31

Syncope while supine –> LR+ 6.
Syncope during exertion –> LR+ 3.5.
Palpitations –> LR+ 5.8.

Question 32

EBD of cardiac syncope - Certain ECG findings may suggest particular cardiac etiologies:

Answer 32

1. ECG evidence of prior MI or a long QT interval increases the likelihood of VT.
2. ECG findings of significant bradycardia, 2nd/3rd degree AV block –> Bradycardia.
3. BBB suggests intermittent AV block.
4. RV strain (S1Q3T3) or RBBB suggests PE.
5. Ischemic changes suggest MI.
6. Delta wave or short PR interval suggest an accessory pathway (WPW syndrome).

Question 33

VT - Textbook presentation:

Answer 33

Patients with VT may be asymptomatic or have symptoms that range from palpitations to lightheadedness, near syncope, syncope, or sudden cardiac death.

Question 34

VT is associated with CAD in …% of cases.

Answer 34

80%.

Question 35

Other etiologies of VT:

Answer 35

1. HF.
2. HCM.
3. Valvular heart disease.
4. Drugs (antiarrhythmics, antipsychotic, TCA –> Prolong QT interval).
5. Electrolyte disorder –> HYPOkalemia, HYPOcalcemia, HYPOmagnesemia.
6. Congenital disorders.

Question 36

Brugada syndrome as a cause of VT:

Answer 36

1. UNUSUAL disorder 2o to mutation in the Na channel gene, which predisposes patients to polymorphic VT and sudden death.
2. Suggestive baseline ECG abnormalities include a RBBB pattern with ST elevation in the right precordial leads.

Question 37

ECG criteria for VT:

Answer 37

1. > 3 CONSECUTIVE wide complex (QRS>0.12 sec) beats.

2. SVTs can also occasionally manifest wide QRS complexes.

Question 38

ECG criteria that increase the likelihood that the wide complex tachycardia is VT include?

Answer 38

1. Fusion beats.
2. Capture beats.
3. AV dissociation.
4. QRS width >0.14sec.

Question 39

Sustained VT is defined as VT lasting longer than …sec?

Answer 39

30seconds.

Question 40

Evaluation of VT:

Answer 40

1. Obtain a baseline ECG to look for evidence of ischemia, long QT syndrome.
2. Stress testing (and coronary angiography in selected patients) is recommended for patients with exercise-induced syncope or chest pain or an intermediate or greater probability of CAD.
3. Obtain an ECHO –> Evaluate LV function + rule out valvular heart disease.
4. Electrophysiologic testing is recommended for selected patients.

Question 41

Prognosis of VT:

Answer 41

1. Potentially life-threatening arrhythmia.
2. Predictors of mortality include:
   a. Prior cardiac arrest.
   b. LV dysfunction.
   c. Post MI.
   d. Inducible VT on EP studies.

Question 42

Textbook presentation of bradycardia from SSS:

Answer 42

1. Depends on duration and severity of the bradyarrhythmia.
2. Sudden syncope when bradyarrhythmia severe + prolonged.
3. Weakness, dyspnea on exertion, angina, TIAs, near syncope when bradycardia is less severe.

Question 43

What is the MC indication for pacemaker placement?

Answer 43

Bradycardia from SSS.

Question 44

What is the target group of bradycardia from SSS?

Answer 44

1. Often seen in the elderly (mean age 68) due to fibrosis and degeneration of sinus node.
2. Underlying CAD is common –> Contributes to the pathogenesis of SSS in some patients.

Question 45

Medications that can depress sinus node function and aggravate SSS:

Answer 45

1. Beta-blockers.
2. Verapamil.
3. Diltiazem.
4. Digoxin.
5. Clonidine.
6. Methyldopa.
   + Other antiarrhythmics.

Question 46

Bradycardia from SSS - Electrical manifestations include:

Answer 46

1. Sinus bradycardia 2sec.
2. Sinus arrest (with an escape junctional rhythm).
3. Sinoatrial exit block (inability of the sinus impulse to exit the sinus node).

Question 47

Concomitant AV conduction disturbances are present in over …% of patients with SSS.

Answer 47

50%.

Question 48

Bradycardia from SSS is associated with supraventricular TACHYarrhythmias in …-…% of patients, particularly A-fib (tachy-brady syndrome).

Answer 48

40-60%.

Such patients may complain of palpitations.

Question 49

Is tachy-brady syndrome dangerous?

Answer 49

Markedly increases the risk of death or non fatal stroke (2- to 3-fold) compared with SSS alone.

Question 50

EBD of bradycardia from SSS - Simultaneous symptoms and ECG findings (sinus bradycardia, significant pauses or sinus exit block) …?

Answer 50

Establish the diagnosis.

Question 51

EBD of bradycardia from SSS - Holter monitoring?

Answer 51

May be used but is often non diagnostic due to intermittent nature of the arrhythmia.

Question 52

EBD of bradycardia from SSS - Carotid sinus massage:

Answer 52

May cause prolonged pauses in patients with SSS –> >3sec.

Question 53

EBD of bradycardia from SSS - Pharmacologic studies:

Answer 53

1. Adenosine slows sinus node activity.
2. Small studies suggest patients with SSS have delayed sinus node recovery following adenosine administration.
3. Diagnostic accuracy is similar to EP studies.

Question 54

EBD of bradycardia from SSS - EP studies:

Answer 54

Sinus node recovery time (SNRT) and sinoatrial conduction time (SACT) can be measured.
–> Abnormal responses are 70% sens, 90% specific.
Normal results do NOT rule out SSS.

Question 55

Bradycardia due to AV block - Textbook presentation:

Answer 55

Depending on the duration and the severity of the block, patients with AV block may be asymptomatic or complain of syncope, near syncope, palpitations, angina or TIAs.

Question 56

Bradycardia due to AV block is 2o to?

Answer 56

Conduction abnormalities in the:

1. AV node.
2. Bundle of His.
3. Bundle branches.

Question 57

Classification of AV block:

Answer 57

1st degree –> 1:1 conduction.
2nd degree –> Some P waves are conducted.
3rd degree –> None of the P waves are conducted.

Question 58

1st degree AV block - ECG findings:

Answer 58

1. PR interval >0.2sec.

2. QRS width usually within normal limits.

Question 59

2nd degree (Mobitz I) AV block - ECG findings:

Answer 59

1. Progressive lengthening of PR interval until P wave is not conducted and QRS is absent.
2. Next PR interval is shorter than PR prior to dropped beat.
3. QRS width usually within normal limits.

Question 60

2nd degree (Mobitz II) - ECG findings:

Answer 60

1. Intermittent non-conduction of P waves.

2. More severe INFRANODAL damage, QRS may be widened, BBB may be seen.

Question 61

3rd degree AV block - ECG findings:

Answer 61

1. P waves not conducted.
2. Complete AV disassociation.
3. Ventricular rate depends on escape pacemakers.

Question 62

1st degree AV block - Clinical findings:

Answer 62

NONE.

Question 63

2nd degree AV block (Mobitz I) - Clinical findings:

Answer 63

1. Associated with inferior MI.

2. RARELY progresses to 3rd degree AV block.

Question 64

2nd degree AV block (Mobitz II) - Clinical findings:

Answer 64

1. Associated with anterior MI.

2. Often progresses to 3rd degree AV block.

Question 65

3rd degree AV block - Clinical findings:

Answer 65

Associated with CAD, drugs, degeneration, abnormal electrolytes, bradycardia, hypotension.

Question 66

Which AV blocks do we treat with pacemaker?

Answer 66

2nd degree (Mobitz II) + 3rd degree.

Question 67

Etiology of bradycardia due to AV block:

Answer 67

1. Fibrosis of the conduction system.
2. Ischemic heart disease.
3. Drugs (beta blockers, verapamil, diltiazem, digoxin, amiodarone).
4. Hyperkalemia.
5. Valvular heart disease (due to extension of calcification into the conducting system).
6. Increased vagal tone.
7. Miscellaneous other causes (Lyme, sarco).

Question 68

Is PE a usual cause of syncope?

Answer 68

NO - 1%.

Question 69

Between …% and …% of patients with PE experience syncope.

Answer 69

9% and 14%.

Usually 2o to MASSIVE embolization involving more than 50% of the pulmonary vascular bed.

Question 70

What should be asked in patients with syncope?

Answer 70

“What was the next thing you remember?”

Patients who do not remember the ambulance ride or suffer a period of amnesia following the event (>5min) should be evaluated for SEIZURES.

Question 71

Seizures - Textbook presentation:

Answer 71

Generalized seizures classically present with tonic-clonic activity, loss of postural tone, incontinence, and a prolonged postictal period of lethargy.

Question 72

…% of US population suffers a seizure in their lifetime.

Answer 72

3%.

Question 73

Seizures are the cause of syncope in …-…% of patients.

Answer 73

1-7%.

Question 74

Etiology of seizure and prevalence in patients over 60:

Answer 74

35% --> Idiopathic.
49% --> Ischemic.
11% --> Tumors (primary 35%, metastatic 59%).
3% --> Trauma.
2% --> Infection.
\+ Metabolic disturbances
\+Medications
\+Illicit drugs
\+Withdrawal states.

Question 75

Etiology of seizure - Metabolic disturbances:

Answer 75

1. Hypoglycemia + hyperglycemia (marked).
2. Hypoxia.
3. Hyponatremia.
4. Hypocalcemia.
5. Uremia.

Question 76

Etiology of seizures - Medications:

Answer 76

Numerous have been implicated.
Some common drugs that RARELY cause seizures:
1. Cyclosporine.
2. Fentanyl.
3. Meperidine.
4. Lidocaine.
5. Phenothiazines.
6. Quinolones.
7. Theophylline.
8. TCAs.
9. Bupropion.

Question 77

EBD of seizure - Most SENSITIVE finding:

Answer 77

Postictal confusion.

Absence of it makes seizures an unlikely cause of syncope (sens 94%, LR- 0.09).

Question 78

EBD of seizure - Most SPECIFIC findings:

Answer 78

1. Tongue laceration.
2. Head turning.
3. Unusual posturing.
   Spec 97%, LR+12-15.

Question 79

EBD of seizures - Certain symptoms are unusual in patients with seizures and reduce the likelihood of seizures:

Answer 79

1. Diaphoresis preceding spell - LR 0.17.
2. Chest pain preceding spell - LR 0.15.
3. Palpitations - LR 0.12.
4. Dyspnea prior to spell - LR 0.08.
5. CAD - LR 0.08.
6. Syncope with prolonged standing - LR 0.05.

Question 80

…-…% of patients with syncope NOT related to seizures experience LIMB JERKING, a phenomenon referred to as … .

Answer 80

15-90%.

CONVULSIVE syncope.

Question 81

Limb jerking due to syncope is associated with …?

Answer 81

Myoclonic jerks, which should be distinguished from tonic-clonic activity.

Question 82

Difference between myoclonic jerks and tonic-clonic activity:

Answer 82

1. Myoclonic jerks tend to be arrhythmic and asymmetric, whereas the opposite is true of tonic-clonic activity.
2. Myoclonic jerks tend to be briefer than tonic-clonic activity (average 6.6sec).
3. Myoclonic jerks never precede collapse, whereas tonic-clonic activity may precede collapse.

Question 83

Postictal period in convulsive syncope?

Answer 83

NOT significant (<1min).

Question 84

EBD of seizure - Evaluation includes:

Answer 84

1. EEG.
2. Neuroimaging.
3. Na, Ca, glucose, BUN, Cr.
4. SaO2.
5. Lumbar puncture.
6. Toxicology screen.

Question 85

EBD of seizure - EEG:

Answer 85

1. Sens (between episodes) of the spike and wave pattern is …-…% (increased with sleep deprivation).
2. Spec is 98%.
3. Indicated in the evaluation of patients with possible seizures.

Question 86

EBD of seizure - Neuroimaging:

Answer 86

1. 37% of adults with new-onset seizures have structural lesions (eg tumors, strokes.
2. 15% of adults with new-onset seizures and non focal neurologic exams have structural lesions on neuroimaging.
3. Indicated in ALL adults with new-onset seizures.
4. In acute cases, a non contrast CT is often performed to rule out an intracranial bleed.
5. Follow-up MRI is recommended due to its increases sensitivity for both tumor and stroke.

Question 87

EBD of seizure - When to consider LP?

Answer 87

If CNS infection is suspected.

• -> Elevated intracranial pressure should be excluded prior to LP –> Prevent LP-induced herniation.
• -> Platelet count, PT, PTT should be checked PRIOR to LP –> Hemorrhage may compress spinal cord.

Question 88

Orthostatic hypotension - Textbook presentation:

Answer 88

Distinguishing feature of orthostatic hypotension is the occurrence of syncope or symptoms (near syncope, visual blurring) when arising.
–> Patients often have obvious sources of fluid or blood loss.

Question 89

Orthostatic hypotension accounts for …-…% of patients with syncope.

Answer 89

20-30%.

Question 90

Orthostatic hypotension - Definition:

Answer 90

1. > 20mmHg decrease in SBP within 3min of standing.
2. > 10mmHg decrease in DBP within 3min of standing.
3. > 30bpm increase in pulse within 3min of standing.

Question 91

Orthostatic hypotension - Etiology:

Answer 91

1. Dehydration.
2. Hemorrhage.
3. Medications.
4. Prolonged bed rest.
5. Autonomic insufficiency.
6. Elderly (20-30% over 65).
7. Postprandial hypotension (common in elderly).
8. Hot environments (hot tubs, baths, saunas).

Question 92

Etiology of orthostatic hypotension (OH) - Dehydration:

Answer 92

1. Decr. oral intake.
2. GI losses (vomiting, diarrhea).
3. Urinary losses:
   a. Uncontrolled DM.
   b. Salt-losing nephropathy.
   c. Adrenal insufficiency.
4. Over-dialysis.

Question 93

Etiology of OH - Hemorrhage:

Answer 93

1. GI.
2. Ruptured AAA.
3. Ruptured spleen.
4. Ruptured ectopic pregnancy.

Question 94

Etiology of OH - Medications:

Answer 94

1. Alpha-blockers.
2. Diuretics.
3. Vasodilators (nitrates, CCBs).
4. TCAs.
5. Phenothiazines.
6. Alcohol and opioids.

Question 95

Etiology of OH - Autonomic insufficiency (characterized by a fall in BP upon standing WITHOUT a concomitant increase in pulse):

Answer 95

1. DM.

2. Other neurologic disorders (Parkinson, MS, numerous others).

Question 96

EBD of OH - Accuracy of physical exam for large blood loss (630-1150mL) - Postural increase in pulse >30bpm:

Answer 96

Sens 97%.
Spec 98%.
LR+ 48.
LR- 0.03.

Question 97

EBD of OH - Accuracy of physical exam for large blood loss (630-1150mL) - Supine HR >100bpm:

Answer 97

Sens 12%.
Spec 96%.
LR+ 3.
LR- 0.9.

Question 98

EBD of OH - Accuracy of physical exam for large blood loss (630-1150mL) - Supine hypotension <95mmHg:

Answer 98

Sens - 33%.
Spec - 97%.
LR+ 11.
LR - 0.7.

Question 99

Aortic stenosis - Textbook presentation:

Answer 99

Usually diagnosed incidentally during routine exam rather than due to symptoms.

• -> When severe –> Patients may have ANY of the 3 cardinal symptoms:
  a. HF (dyspnea).
  b. Syncope.
  c. Angina.

Question 100

Aortic stenosis - Prevalence in patients over 75:

Answer 100

3%.

Question 101

Aortic stenosis - Etiology:

Answer 101

1. Degeneration of a previously normal valve.
2. Congenital bicuspid valve.
3. Rheumatic heart disease.

Question 102

Severe aortic stenosis is characterized by valve area …mmHg.

Answer 102

40mmHg.

Question 103

Aortic stenosis - Prognosis:

Answer 103

Aortic stenosis + angina –> 50% 5y mortality.
Aortic stenosis + syncope –> 50% 3y mortality.
Aortic stenosis + dyspnea –> 50% 2y mortality.

Question 104

Other LATE manifestations of aortic stenosis:

Answer 104

1. A-fib (which is poorly tolerated).

2. Increased bleeding tendency 2o to disruption of large vWF multimers by the abnormal aortic valve.

Question 105

EBD of aortic stenosis - Findings that help rule IN aortic stenosis:

Answer 105

1. Effort syncope in patients with a systolic murmur (LR+ 1.3-Infinitum, LR- 0.76).
2. Slow carotid upstroke (sens 15-42%, spec 95-100%, LR+ 9.2-infinitum).
3. Murmur radiating to right carotid (sens 71-73%, spec 90%, LR+ 7.5).

Question 106

EBD of aortic stenosis - Findings that help rule OUT aortic stenosis:

Answer 106

1. Absence of any murmur (LR- 0).

2. Absence of murmur below right clavicular head (LR- 0.1).

Question 107

EBD of aortic stenosis - Initial test of choice:

Answer 107

Doppler echo.
Mild if –> Valve area is >1.5cm2.
Moderate if –> Valve area is 1-1.5cm2.
Severe if –> Valve area is <1cm2.

Question 108

What is the situational syncope?

Answer 108

A variant of neurocardiogenic syncope - Syncope occurs during or immediately after:

a. Micturition.
b. Defecation.
c. Swallowing.
d. Coughing.

Question 109

Carotid sinus syndrome - Textbook presentation:

Answer 109

Another variant of neurally mediated syncope.
In affected individuals pressure is applied to the carotid (eg head turning, buttoning collar, shaving or cervical motion) produces bradycardia and/or hypotension with syncope or near-syncope.

Question 110

Carotid sinus syndrome - …% report symptoms precipitated by head movement of looking upward.

Answer 110

47%.

Question 111

Carotid sinus syndrome - More common in the elderly in whom it may account for …% of recurrent syncopal events.

Answer 111

15%.

Question 112

Carotid sinus syndrome - …-…% of affected individuals experience retrograde amnesia and complain of falls but deny syncope.

Answer 112

15-56%.

Question 113

One study demonstrated carotid hypersensitivity in …% of patients presenting with NON accidental falls (compared with …% in patients with accidental falls).

Answer 113

46%.

11%.

Question 114

WPW syndrome - Textbook presentation:

Answer 114

May be asymptomatic or present with:
1. Palpitations.
2. Near syncope.
3. Syncope.
4. Sudden death.
In asymptomatic cases, the diagnosis may only be made after typical findings are discovered on an ECG performed for some other reason.

Question 115

WPW syndrome - What happens?

Answer 115

A congenital disorder in which an accessory bundle directly connects the atria and ventricular muscle bypassing the AV node.

Question 116

WPW syndrome - A variety of life-threatening arrhythmias may develop that cause syncope or sudden cardiac death:

Answer 116

1. Antidromic tachycardia.
2. Reentrant loop may run in the opposite direction –> Orthodromic tachycardia.
3. A-fib or flutter can develop.

Question 117

EBD of WPW syndrome - Baseline ECG abnormalities:

Answer 117

Baseline ECG abnormalities during normal sinus rhythm may reveal a combination of a short PR interval + a delta wave.

Question 118

Obstruction of the anterior or the posterior circulation of the brain is more important in syncope?

Answer 118

The posterior –> Reticular activating system.

Question 119

What is syncope?

Answer 119

Abrupt, transient complete loss of consciousness and postural tone.
–> May be a warning sign that the patient is at risk for sudden cardiac death –> Needs careful evaluation.