TOPIC26: ventricular arrhythmias

Question 1

what are ventricular arrhythmias? what causes them? (6)

Answer 1

rhythm disturbances below the AV node. Lack of response to IV adenosine (takes SVTs back to sinus rhythm)

causes:

1. IHD/ HF
2. electrolyte disturbances
3. post MI
4. hypotension/shock
5. hypoxemia/hypercapnea
6. stimulants eg drugs

Question 2

Premature ventricular contractions

Answer 2

• isolated PVCs are common in normal hearts
• QRS wide and bizarre because ventricular depolarisation doesn’t follow the normal conduction pathways
• a retrograde P wave may sometimes be seen but it is more common to not see a P wave at all.
• it is usually followed by a long compensatory pause before the next beat appears.
• if the ratio is one normal sinus beat to one PVCs, the rhythm is called a bigeminy.

Question 3

When do you worry about a PVC? (5)

Answer 3

1. frequent PVCs.
2. runs of consecutive OVCs, three or more in a row.
3. multiform PVCS–> vary in the site of origin and hence their appearance.
4. PVC falling on the T wave of the previous beat–> ‘R ON T PHENOMENON’ –> More likely to set off a VT
5. any PVC occuring in the setting of an AMI

IV amiodarone is given

Question 4

accelerated idioventricular rhythm

Answer 4

• a benign rhythm that is sometimes seen in ACUTE INFARCTION or during the early hours following REPERFUSION after an occluded coronary artery has been opened .
• a regular rhythm occuring at 50-100bpm and probably represents a ventricular escape focus that has accelerated insufficiently to drive the heart.
• rarely sustained, does not progress to VF and rarely requires treatment.

Question 5

ventricular tacchycardia

Answer 5

• a run of three consecutive PVCs >30sec
• 120-200bpm and might be slightly irregular
• sustained VT is an emergency, preceeding cardiac arrest and requires immediate treatment
• morphology may be uniform with each complex appearing similar to the one before or it may be polymorphic changing appearance from beat to beat.
• AV dissociation, fusion and capture beats may be seen.

Question 6

polymorphic VT

Answer 6

-more commonly associated with ACUTE CORONARY ISCHEMIA, INFARCTION, profound electrolyte disturbances and conditions causing prolongation of the QT interval.

Question 7

Uniform VT

Answer 7

• more often seen in healed infarctions: the scarred myocardium provides the substrate for the reentrant VT
• The majority of pts developing VT after an MI get the arrhythmia within the first 48 hours and should be given IV lidocaine or amiodrone

Question 8

VT in the normal heart (benign VT)

Answer 8

1. Right ventricular outflow tract (RVOT) tacchycardia:
   -automatic firing of cells in the RVOT giving a characteristic EKG pattern of LBBB with a strongly inferior axis
   -paroxysm of palpitation may be related to exercise.
   often adenosine sensitive
   -controlled by verapamil, beta blockers, RFA is a potentially curative option.
2. Fascicular tacchycardia:
   - a reentrant tachycardia emerging most commonly from the left posterior fascicle
   - ECG typically show RBBB with superior axis
   - often sensitive to IV verapamil but NOT adenosine.

Question 9

VT with impaired LV function (hemodynamic alterations)

Answer 9

symptoms: palpitation, chest pain, dypnea, pulmonary edema.

etiology: impaired LV function can predispose to VT–> CAD,DCM,HCM
- VT is often due to reentry around areas of scarred or diseased myocardium.
- treat the underlying HF with beta-blockers, ACEi, diuretics, statins.
- prevent by use of ICD
- Acute management by: oxygen mask, IV amiodarone, lidocaine and if no response, DC shock
- Long term treatment:
- Beta blockers, amiodarone, RFA

Question 10

Brugada syndrome

Answer 10

• form of idiopathic VT most commonly in men

- autosomal dominant condition with variable penetrance in the SCNA gene–> loss of function of the sodium channel

Question 11

polymorphic VT–> torsade de pointes

Answer 11

• The cardiac action potential is generated by at least 10 distinct but finely balanced ionic currents ( Na, Ca, K)
• a functional abnormality in any of these, acquired or genetic can potentially lead to long QT syndrome
• VT with varying axis and amplitude, twisting of the points
• usually seen in pts with prolonged QT interval

Prolonged QT interval:

1. congential: mutations in genes encoding cardiac ion channels
2. electrolyte disturbances:
   - hypocalcemia, hypomagnesaemia and hypokalemia.
3. AMI
4. antiarrythmic drugs, anthistamines
5. severe bradycardia: complete heart block, SA node disease, hypothyroidism and hypothermia.

• A PVC falling during the elongated T wave can initate TdP
• It may be short lived and terminate spontaneously but a prolonged episode needs immediate treatment with DC cardioversion.
• for recurrent bursts or following cardiac arrest, give IV magnesium bolus and infusion followed by urgent temporarily pacing if necessary.

Question 12

management of Ventricular arrhythmias

Answer 12

• monitor
• give oxygen
• IV access
• ECG
• ABG

Question 13

DDx- broad QRS ECG

Answer 13

• BBB
• WPW
• ventricular ectopy
• ventricular PM
• VT/VF/TdP

Question 14

ventricular extra systole (ectopics)

Answer 14

risk of R on T phenomenon so treat with Amiodarone IV if frequent( more than 10/min)