DIT review - Cardiology 5

Question 1

Describe the direction of each of the 6 major ECG leads (I, II, III, aVF, aVR, aVL)

Answer 1

Question 2

What EKG leads will have a positive EKG deflection in a normal EKG

Answer 2

I and II

Question 3

What ECG leads will have an abnormal QRS deflection in L axis deviation?

Answer 3

Negative (-) deflection of QRS in lead aVF and II

Question 4

What ECG leads will have an abnormal QRS deflection in R axis deviation?

Answer 4

Positive (+) deflction of QRS in lead III

Question 5

What is the normal length of QRS complex

Answer 5

• Normally < 120 msec (e.g. 3 boxes)

Question 6

What does it indicate if the QRS complex is widened?

Answer 6

• Narrow QRS = Normal conduction pathway
  
  • Signal coming through AV node and down Purkinje system
• Wide QRS = abnormal conduction pathway:
  
  • Premature ventricular contraction (PVC)
  • Ventricular tachycardia
  • Bundle branch block

Question 7

Describe the effects of hyper- and hypokalemia on ECG

Answer 7

• Hyperkalemia = high, peaked T wave
• Hypokalemia = flat T wave with possible U wave

Question 8

Rank the parts of the conduction pathway from fastest to slowest

Answer 8

• Purkinje > atria > ventricles > AV node

Question 9

Causes of L axis deviation

Answer 9

• Inferior wall MI
• L anterior fascicular block
• LV hypertrophy
• LBBB
• High diaphragm

Question 10

Causes of R axis deviation

Answer 10

• RV hypertrophy
• Acute right heart strain (e.g. massive PE)
• L posterior fascicular block
• RBBB
• Dextrocardia

Question 11

Defining ECG features of atrial fibrillation

Answer 11

• Chaotic and erratic baseline with no discrete P waves in between irregularly spaced QRS complexes
• Irregularly irregular (spacing between R waves are inconsistent)
• Absent P waves

Question 12

Treatment of atrial fibrillation

Answer 12

• Anticoagulation (to remove clots) – Heparin, Enoxaparin, Coumadin (Warfarin)
• Rate control – Digoxin, Beta-blockers (Class II), Calcium channel blockers (Class IV)
• Rhythm control – Amiodarone or Sotalol (Class IV), Flecainide (Class IC)

Question 13

Defining ECG characteristics of atrial flutter

Answer 13

• Identical, back-to-back atrial depolarizations = consecutive P waves
• Sawtooth pattern
• Regular

Question 14

Treatment of atrial flutter

Answer 14

Same as A-fib

• Anticoagulation (to remove clots) – Heparin, Enoxaparin, Coumadin (Warfarin)
• Rate control – Digoxin, Beta-blockers (Class II), Calcium channel blockers (Class IV)
• Rhythm control – Amiodarone or Sotalol (Class IV), Flecainide (Class IC)

Question 15

Defining feature of ventricular tachycardia

Answer 15

• Defined as 3 or more successive ventricular (QRS) complexes
• May be non-sustained (< 30 s) or sustained (> 30 s)
• Rhythm is usually regular

Question 16

Describe Torsades de Pointes, its predisposing condition, and its feared complication

Answer 16

• Type of ventricular tachycardia characterized by shifting sinusoidal waveforms on ECG
  
  • Amplitude going back and forth between tall and short
• Can progress to ventricular fibrillation
• Long QT intervals predispose to Torsades de Pointes

Question 17

What drugs prolong the QT interval, and therefore predispose to Torsades de pointes?

Answer 17

• Drugs that prolong QT interval – ABDCE
  
  • AntiArrhythmics (IA, III)
  • AntiBiotics (e.g. macrolides, chloroquine)
  • Anti”C”ychotics (e.g. Haloperidol)
  • AntiDepressants (e.g. TCAs)
  • AntiEmetics (e.g. ondansetron)

Question 18

Treatment of Torsades de pointe

Answer 18

Magnesium

Question 19

Describe ECG of ventricular fibrillation and resulting complications

Answer 19

• Erratic rhythm with no identifiable waves
• Fatal without immediate CPR and defibrillation

Question 20

Describe first degree AV block

Answer 20

• Prolonged PR interval > 200 msec (5 blocks)
  
  • Recall that PR interval is time between atrial and ventricular depolarization (hence, AV block)
• Asymptomatic
• No treatment needed

Question 21

What are the different types of second degree AV block

Answer 21

Mobitz type I (aka Wenckebach)

Mobitz type II

Question 22

Describe Mobitz type I AV block

Answer 22

• Progressive lengthening of PR interval until a beat is “dropped”
  
  • P wave not followed by a QRS complex
• Usually asymptomatic

Question 23

Describe Mobtiz type II AV block

Answer 23

• “Dropped” beats without a warning
  
  • Not preceded by change in length of PR interval
• May progress to third degree block
• Treated with pacemaker

Question 24

Describe 3rd degree AV block

Answer 24

• Atria and ventricles beat independently of each other
  
  • No correlation between P waves and QRS complex
• Atrial rate > ventricular rate
• Usually treated with pacemaker
• Associated with Lyme disease

Question 25

Describe the underlying defect and ECG findings in Wolff-Parkinson-White syndrome

Answer 25

• Accessory conduction pathway from atrium to ventricle that bypasses the rate-slowing AV node
  
  • Bundle of Kent is a common accessory pathway
• Causes ventricles to depolarize earlier
• Delta-wave with widened QRS complex and shorted PR

Question 26

Describe complication and treatment of Wolff-Parkinson-White

Answer 26

• May result in supraventricular tachycardia
• Treatment:
  
  • Procainamide (Class IA)
  • Amiodarone (Class III)

Question 27

Describe the MOA of baroreceptors

Answer 27

• Hypotension = decreased arterial pressure = decreased stretch = decreased afferent baroreceptor firing = increased efferent sympathetic firing and decreased efferent parasympathetic firing = vasoconstriction, increased HR, increased contractility, increased BP

Question 28

What is a Cushing reaction, and what is it in response to?

Answer 28

• Triad of hypertension, bradycardia, and respiratory depression in response to increased intracranial pressure

Question 29

Describe the pathogenesis behind a Cushing reaction

Answer 29

• Increased ICP = pressure constricts arterioles in brain = cerebral ischemia = sympathetic response increases peripheral vasoconstriction, thus increasing BP = aortic baroreceptors sense increased BP = respond with reflex bradycardia and respiratory depression

Question 30

What are the different triggers of peripheral vs. central chemoreceptors

Answer 30

• Peripheral
  
  • Stimulated by decreased pO2, increased pCO2, and decreased pH
• Central
  
  • Stimulated by increased pCO2 and decreased pH
  • Does not directly respond to pO2

Question 31

What is the trigger of aortic arch baroreceptor, and via what structure does it deliver its signal

Answer 31

Aortic arch responds to increase (only) in BP via vagus nerve to solitary nucleus of medulla

Question 32

What is the trigger of carotid body baroreceptor, and via what structure does it deliver its signal

Answer 32

• Carotid sinus responds to increase or decrease in BP via glossopharyngeal nerve to solitary nucleus

Question 33

What BP values define HTN and preHTN

Answer 33

• Prehypertension > 120/80
• Hypertension > 140/90

Question 34

What is the difference betwen hypertensive urgency and hypertensive emergency

Answer 34

• Hypertensive urgency:
  
  • BP > 180/20
  • With no evidence of end organ damage
• Hypertensive emergency:
  
  • BP > 180/120
  • With evidence of end organ damage:
    
    • Encephalopathy, stroke, retinal hemorrhage, papilledema, MI, HF, aortic dissection, kidney injury, microangiopathic hemolytic anemia, eclampsia

Question 35

What will you see on CXR in an aortic dissection

Answer 35

Widening of the mediastinum

Question 36

Differentiate Stanford A vs. Stanford B aortic dissection

Answer 36

• Stanford Type A
  
  • Involves ascending aorta
• Stanford Type B
  
  • Confined to descending aorta, distal to L subclavian

Question 37

Treatment of Stanford type A and type B aortic dissection

Answer 37

Type A = surgery

Type B = medical: beta-blockers