Cardiology #4 Conduction Disorders

Question 1

In an EKG, what are the following parts related to?
-P wave
-PR segment
-QRS complex
-T wave

Answer 1

P wave: atrium contraction
PR segment: AV node
QRS complex: Ventricular contraction
T wave: Ventricular repolarization

Question 2

How do you calculate the rate of an EKG strip?

Answer 2

Count the large boxes in an R - R segment

300 / 1, 2, 3, 4, 5
=300, 150, 100, 75, 60

Question 3

Explain the process of conduction and relate it to the parts of an EKG

Answer 3

-Sinus node sends impulse through RA to AV node (atrial contraction). PR segment (nothing happens) when it goes through AV node. Then, rapid condition through Bundle of His –> contraction of ventricle (QRS complex)

Question 4

Normal sinus rhythm has a rate of ________

Answer 4

60-100 bpm

Question 5

Sinus bradycardia, which is decreased HR with a rate of __________, has causes such as what?

Answer 5

HR < 60 bpm from sinus node

Causes: young athletes, BB, CCB, SA node ischemia, hypothyroid

Question 6

Treatment for sinus bradycardia

Answer 6

-Symptomatic: Atropine (1st line)
–Epinephrine or Transcutaneous pacing

-Asymptomatic
–No treatment needed

Question 7

Sinus tachycardia is HR > 100 bpm from the sinus node. What are some causes? What is the treatment?

Answer 7

-Exercise, stress, kids/infants, fever, pain, hypoxia, shock, cocaine

Treat underlying cause (1st line), BB if needed

Question 8

What is sinus arrhythmia?

No treatment is needed in most cases.

Answer 8

Norma variation of sinus rhythm. Beat to beat variation with respiration. Increase in rhythm with inspiration, decrease in rhythm with expiration.

Question 9

Sick sinus syndrome is dysfunction of the sinus node leading to what rhythm?

Answer 9

Combination of sinus arrest with alternating periods of tachycardia and bradycardia.

Question 10

What is the MCC of sick sinus syndrome?

Answer 10

Sinus node fibrosis

Others: old age

Question 11

Treatment for sick sinus syndrome

Answer 11

-Atropine (first line)

-Long term: Permanent pacemaker (definitive), AICD if alternating

Question 12

What happens in a junctional rhythm?

What is seen on an EKG with this type of rhythm?

Answer 12

AV node becomes the dominant pacemaker

Inverted P waves or not seen at all. Narrow QRS

Question 13

What segment of an EKG strip is the most useful in determining an AV Block?

Answer 13

PRI interval

Question 14

What does the ECG with a First Degree AV block look like?

Treatment?

Answer 14

Prolonged PR interval, but all P waves are followed by a QRS complex

-Asymptomatic: observation
-Atropine (1st line)
-Pacemaker (definitive)

Question 15

What is the pathophysiology of a 2nd degree AV block? What is the first type of second degree AV Block, what is seen on an ECG, and what is the treatment?

Answer 15

Not all atrial impulses are conducted to the ventricles, leading to P waves without QRS complexes

-Mobitz 1: Wenkebach

-ECG: P waves are constant, Progressive PRI lengthening –> dropped QRS

Atropine, Epi, Pacemaker

Question 16

What is the other type of 2nd degree AV block, what is seen on an ECG, and what is the treatment?

Answer 16

Mobitz II

P waves constant, constant/prolonged PRI –> dropped QRS

Atropine or temporary pacing, pacemaker definitive

Question 17

Both 2nd degree AV blocks occur where in the heart?

Answer 17

Bundle of His

Question 18

Mobitz I causes

Mobitz II causes

Answer 18

1 (Wenkebach): inferior wall MI, BB/CCB/Digoxin, Myocarditis

2: Rarely in patients without structured heart disease (myocarditis, endocarditis, myocardial fibrosis)

Question 19

A third degree AV block is due to AV dissociation. No atrial impulses are reaching the ventricles. Causes of this are similar to 2nd degree AV block because it can progress to a 3rd degree. Name them.

Answer 19

Inferior Wall MI
AV nodal blocking agents (BB, CCB, Digoxin)
Lyme, Endocarditis, Myocarditis
Hypothyroidism, Hyperkalemia

Question 20

What does the ECG for a 3rd degree AV block look like?

Answer 20

Regular R-R and P-P intervals, but not related to each other

-P’s and Q’s don’t agree, then you have a third degree

Question 21

Treatment for a 3rd degree AV block

Answer 21

-Transcutaneous pacing followed by permanent pacemaker (definitive)

Question 22

What does an ECG look like in Paroxysmal Supraventricular Tachycardia (PSVT?)

Answer 22

Regular, narrow QRS complex
Tachycardia (no discernible P waves)
HR > 100 bpm

If you can’t tell if it’s a P or a T, it must be SVT

Question 23

The treatment for PSVT differs based on the width of the QRS complex. What are the treatments for the following:

Stable (narrow complex)
Stable (wide complex)
Unstable
Definitive

Answer 23

Narrow: vagal maneuvers (Valsalva, carotid massage, Adenosine)

Wide: Amiodarone

Unstable: Synchronized (DC) Cardioversion

Definitive: Radiofrequency catheter ablation

Question 24

Wolff-Parkinson White (WPW) is a form of PSVT. Explain the pathophysiology of this condition.

What are the three components of this on an ECG?

Answer 24

-Accessory pathway (Bundle of Kent) outside the AV node pre-excites the ventricles, bypassing the AV node, leading to a delta wave.

Wave = Delta Wave
P = PR Interval is short
W = Wide QRS Complexes

Question 25

Management for WPW

Answer 25

-Stable: Procainamide (1st line), Amiodarone
-Unstable: DC Cardioversion
-Definitive: Radiofrequency catheter ablation (Destroys the normal pathway)

Treatment is the Same as PSVT

Question 26

What medications should be avoided in PSVT and WPW?

Answer 26

AV node blockers (ABCD)
-Adenosine, BB, CCB, Digoxin

Question 27

With atrial flutter, what are you at increased risk for?

Answer 27

Arterial thrombus formation that leads to stroke (like A-fib)

Question 28

Symptoms of atrial flutter

Answer 28

-Palpitations, fatigue, dyspnea, refractory chest pain, hypotension, AMS

Question 29

What does an ECG show for atrial flutter?

Answer 29

Flutter (sawtooth) atrial waves usually around 300 bpm but no clear P waves

Question 30

Treatment for atrial flutter

Answer 30

-Stable: Vagal maneuvers, BB or CCB (Diltiazem, Verapamil)

-Unstable: DC Cardioversion

Radiofrequency catheter ablation is definitive

Question 31

Etiologies of Atrial fibrillation

Answer 31

-Infection, cardiomyopathies, age, thyroid disorders genetics, drugs, alcohol (use and withdrawal), men, whites

Question 32

What is seen on an ECG for A-fib?

Answer 32

-Irregularly irregular rhythm with fibrillatory waves

Question 33

What is Ashman’s Phenomenon in regards to A-fib?

Answer 33

Wide QRS after short R-R cycles

Question 34

Treatment for stable A-fib

Answer 34

-BB or CCB (Diltiazem or Verapamil)
-Digoxin if heart failure

Question 35

If unstable, what is the treatment for A-fib

Answer 35

DC Cardioversion

Question 36

Long term treatment for A-fib

Answer 36

-rate control (BB or CCB)
-DC Cardioversion
-RF catheter ablation
-Anticoagulation

Question 37

Describe the timing rule for cardioversion and anticoagulation

How long should anticoagulation be continued afterwards?

Answer 37

-AF > 48 hours: anticoagulation for 3 weeks before cardioversion

-AF < 48 hours: anticoagulation prior

Continue anticoagulation for 4 weeks after cardioversion

Question 38

Explain the scoring with the CHA2DS2-VASc Score

What score gives you chronic oral anticoagulation (Warfarin or Novel anticoagulation)?

Answer 38

Congenital Heart Failure = 1
Hypertension = 1
Age > 75 = 2
Diabetes = 1
Stroke, TIA = 2
Vascular Disease (PAD, MI) = 1
Age 65-74 = 1
Sex (female) = 1

2 or more is the cutoff

Question 39

Explain non-vitamin K antagonistic oral anticoagulants (NOAC)

-Lower risks of ….
-Don’t need to…
-There are two kinds. Name them and explain what they do

Answer 39

-Lower risk of bleeding and stroke

-Don’t need to check INR, less drug interactions

-Dabigatran: binds and inhibits thrombin
-Rivaroxaban, Apixaban, Edoxaban: factor Xa inhibitors

Question 40

Regarding Warfarin, when is it preferred and what is the INR goal with this medication?

Answer 40

Preferred if HIV+, CKD or anti-epileptic medications (Phenytoin, Carbamezapine)

Bridge with Heparin until therapeutic

INR goal of 2-3

Also monitor PT

Question 41

Is Dual-antiplatelet therapy (Aspirin + Clopidogrel) less or more effective than anticoagulant mono therapy?

Answer 41

Less effective

Question 42

Explain what a PVC is, what is seen on ECG, and what the treatment is?

Answer 42

Premature Ventricular Complexes (PVC)

Premature beat originating from ventricle

Wide, bizarre QRS complexes occurring earlier. T wave in opposite direction of QRS

No treatment needed

Question 43

What is ventricular tachycardia?

What are some etiologies?

Answer 43

3 or more PVC’s at > 100 bpm

Ischemic heart disease (MC) - Post MI
Prolonged QT
Digoxin Toxicity
Hypomagnesemia, Hypokalemia

Question 44

Treatment for V-tach

Answer 44

Stable/Sustained (>30 seconds): Amiodarone

Unstable with Pulse: DC Cardioversion

No Pulse = Defibrillation + CPR

Question 45

Explain what Torsades de Pointes looks like on an ECG and name some etiologies

Answer 45

-Alterations of QRS amplitude around the isoelectric line (twisting)

Prolonged QT (antipsychotic use!!), hypomagnesemia, hypokalemia, macrolides, Digoxin, Procainamide

Question 46

Treatment for Torsades de Pointes

Answer 46

-IV Mag Sulfate

Question 47

What does a patient look like with ventricular fibrillation?

Answer 47

Unresponsive, pulselessness, syncope

Question 48

Treatment for ventricular fibrillation?

What is the MCC?

Answer 48

Defibrillation + CPR

Ischemic heart disease (Post MI)

Question 49

What are the components of a RBBB on an ECG?

Answer 49

-QRS > 120ms
-RsR1 (bunny ears) in V1-V3
-Slurred S waves in I, avL, V5, V6

Question 50

What are the components of a LBBB on an ECG?

Answer 50

-QRS > 120ms (wider)
-Broad, notched M-shaped R in V6
-Dominant S wave in V1

Question 51

Adenosine

MOA:
Use:
Adverse Effects:

Answer 51

-Slows AV node conduction time and blocks AV nodal reentry pathways
-Used in PSVT and pharmacological stress testing
–vasodilation of coronary arteries mimics increased demand
-Adverse Effects: CP, dyspnea, flushing, bronchospasm, hypertension, MI

Question 52

Atropine

MOA:
Use:
Adverse Effects:

Answer 52

-Parasympathetic acetylcholine inhibition –> increased cardiac output
-Used in bradycardia
-Adverse Effects: Xerostomia, blurry vision, flushing

Question 53

Amiodarone

MOA:
Use:
Adverse Effects:

Answer 53

-Class III antiarryhthmics (K+ channel blocker) that prolongs the action potential
-Used for stable, wide complex tachycardia
-Adverse Effects: Hypotension, LFT’s increased, thyroid disorders, corneal deposition > 6 months

Question 54

What is Brugada syndrome?

What is seen on the EKG for this condition?

Answer 54

Abnormal myocardial depolarization that predisposes young, otherwise healthy people to V-fib and sudden cardiac death.

ST segment elevated and T wave inversion in V1-V3