3.1 Ventricular Dysrhythmias and Asystole

Question 1

Premature Ventricular Contractions

Answer 1

• Contractions that do not originate from the SA node
• Arises from irritable, ectopic focus (foci) in ventricles
• Wide and distorted QRS that often goes the opposite way from normal beats

DIFFERENCE BETWEEN NORMAL HEARTBEAT
- Normal heartbeats start in SA node and move throughout the heart
- PVC’s ventricles contract first which reverses the impulse

Question 2

Types of PVC

Answer 2

Unifocal - Originate from 1 single spot (all look alike)
Multifocal - Arise from multiple spots (look different from one another and is a worse issue)
Bigeminy - Every other beat is a PVC
Trigeminy - Every third beat is a PVC
Couplets - 2 PVC’s occur together
Triplets - 3 PVC’s occur together
Ventricular Tachycardia - 4+ PVC’s occurring together
R on T Phenomenon - R wave of PVC occurs on the T wave prior. This puts patients at risk because it is during the refractory period where heart is at risk of depolarizing early. This can cause V-Tach

Question 3

PVC Causes

Answer 3

• Stimulants (caffeine, alcohol, nicotine)
• Electrolyte imbalances
• Hypoxia
• Fever
• MI, HF, CAD
• Mitral Valve Prolapse
• THROMBOLYTIC/REPURFUSION THERAPY (may cause reperfusion dysrhythmias) - REQUIRES MONITORING

Medications
- Aminophylline (used for COPD)
- Epinephrine
- Isoproterenol
- Digoxin

Question 4

Significance of PVC

Answer 4

• Normally they are not an issue if they are rare and the patient does not have heart disease
  (May just feel a skipped beat)
• In patients with HF, it can decrease cardiac output and cause angina or worsening of HF
• MONITOR PATIENTS RESPONSE TO PVC
• Causes apical-radial deficit
  (apical pulse heart rate is higher than radial pulse heartrate)
• This is because ventricular contractions aren’t strong enough to reach peripheral pulses.

Question 5

PVC Treatment

Answer 5

• Treat underlying cause
• Give oxygen if patient is hypoxic
• Treat electrolyte imbalances

Medications
- Beta-blockers
- Procainamide
- Amiodarone
- Lidocaine

Question 6

Ventricular Tachycardia

Answer 6

• Ventricular rhythm greater than 40
• Usually a regular rate and greater than 180

ECG
- Wide QRS and no P wave (atria still contracts but it is hidden in the QRS)

• LIFE THREATENING (CARDIAC OUTPUT SIGNIFICANTLY DECREASED)

Associations
- MI
- CAD
- Electrolyte imbalances
- Digoxin toxicity
- CNS disorders

Question 7

Types of V-Tach

Answer 7

Non-Sustained - Short Bursts
Sustained - Shows nothing but V-tach configurations

Pulse/No Pulse - NO PULSE MEANS NO CO. CPR REQUIRED
Stable/Unstable - Hemodynamic Stability (BP, Pulse, LOC)

Monomorphic - All beats look the same
Polymorphic - Intervals are regular but looks very irregular
Torsade De Pointes (Twisting of Points) - Crescendo/De-crescendo pattern but still regular

Question 8

Significance of V-Tach

Answer 8

• Patient may be stable but potential for deterioration is significant
• NURSE MUST GET HELP AND GET CRASH CART READY

Question 9

Treatment V-Tach

Answer 9

• Treat underlying causes

Monomorphic with Pulse
- Stable - provide amiodarone
- Unstable - shock for cardioversion

Monomorphic without pulse
- Shock
- CPR
- Epinephrine

Polymorphic (Torsades de Pointe)
- Give magnesium

Question 10

V-Fib

Answer 10

• Ventricles are just quivering instead of contracting
• No cardiac output
• ECG is completely irregular

Associations
- MI, CAD
- Can occur during cardiac catherization, cardiac pacing, fibrinolytic therapy, after reperfusion
- Can occur after accidental electric shocks

Treatment
- SUPPORT CARDIAC OUTPUT (CPR)
- Rapid initiation of defibrillator

Question 11

Asystole

Answer 11

• Absence of any atrial/ventricular electrical activity (ZERO CARDIAC OUTPUT)

TREATMENT
- FIRST SHAKE PATIENT AND ASK IF THEY ARE OKAY
- After determining patient is pulseless, apneic and no heart rhythm START CPR
- Epinephrine
- THIS IS NOT A SHOCKABLE RHYTHM

Associations
- End-stage HF
- Advance Cardiac Disease
- Complete Heart Block
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