Dysrhythmias Part 1

Question 1

A cyclic increase in normal HR w/ inspiration and decrease w/ expiration

Answer 1

Sinus arrhythmia

Not a pathologic arrhythmia, and therefore, no tx required

Question 2

sinus arrhythmia results from ?

Answer 2

reflex changes in vagal influence on nml pacemaker and disappears w/ breath holding or increase of HR

Question 3

T/F: sinus arrhythmia is common in both young and elderly

Answer 3

troo

Question 4

sinus brady is defined as a HR slower than?

Answer 4

< 60 bpm

Question 5

sinus brady is due to ?

Answer 5

increased vagal influence on nml pacemaker/organic disease of sinus node (sick sinus syndrome, etc)

Question 6

sinus brady rate usually increases during when?

Answer 6

exercise or administration of atropine

Question 7

Severe sinus bradycardia (< 45 beats/min) may be an indication of ?

Answer 7

sinus node pathology, especially in elderly patients and individuals with heart disease
sx - weakness, dizziness, confusion, or syncope

Question 8

causes of sinus brady

Answer 8

1. drugs
   - Sympatholytics: βB, methyldopa, clonidine
   Cimetidine, digoxin, CCB’s, amiodarone, lithium
2. increased ICP - Exclude in sinus bradycardia & neurologic dysfunction
3. AMI - IWMI → RCA supplies SA node in 60% of population
4. OSA - HR ↓ < 30bpm during apneic episodes; Tx the OSA – not an indication for pacemaker
5. Other - hypothyroidism, hypothermia

Question 9

Commonly have recurrent SVA (ex. Afib) and bradycardia (tachy-brady syndrome)

Answer 9

sick sinus syndrome

Question 10

presentation of sick sinus syndrome

Answer 10

Sinus arrest occurs on monitoring; persistent sinus bradycardia can also be common presentation
Chronotropic incompetence is another form of SSS

Question 11

sick sinus syndrome is MC in who

Answer 11

elderly – usually indicates more significant conduction disease

Question 12

what can cause sick sinus syndrome

Answer 12

meds
These should be held prior to invasive pacemaker insertion, for at least 24-48 hrs

Question 13

tx for sick sinus syndrome

Answer 13

Symptomatic → PPM
- Withhold possible offending agents
- r/o possible causes
- Determine if symptomatic and if sx correlate with the bradycardia (KEY!)
- Once all of the above are done, and sx are determined to be related to bradycardia = permanent pacemaker implantation (1st line)
- acute - transcutaneous pacing, transvenous pacing, or atropine (ACLS protocol)

Question 14

sinus tach is defined as a HR of ?

Answer 14

> 100bpm (adult) - (220-Age) d/t impulse formation from SA node

Question 15

causes of sinus tach and which is MC?

Answer 15

• exercise, anger/stress (MC)
• Others - hyperthyroidism, fever, sepsis, pain, anemia, volume depletion, pheochromocytoma, hypoxia, PE, heart failure, acute coronary ischemia, alcohol/alcohol withdrawal, stimulants

Question 16

sinus tach at rate > 140 bpm what may be hard to visualize on ecg?

Answer 16

P waves - superimposed on preceding T wave
Consider carotid sinus massage or vagal maneuvers

Question 17

sx of sinus tach

Answer 17

Palpitations, lightheadedness

Question 18

how can high HR affect structural heart disease?

Answer 18

• ↑ myocardial O₂ consumption
• ↓ coronary blood flow
• ↓ C.O. by shortening ventricular filling time
• Exacerbate myocardial/valvular heart disease

Question 19

what is Inappropriate Sinus Tachycardia

Answer 19

• Occurs in absence of heart disease or secondary causes
• ↑ resting HR and/or exaggerated HR response to exercise
• Exact cause unknown; possible abnormal autonomic control

Question 20

what is Postural orthostatic tachycardia syndrome (POTS)

Answer 20

Young women w/o heart disease w/ normal resting HR
Exaggerated sinus tachycardia elicited by upright TTT
Occurs in absence of orthostatic hypotension

Question 21

tx for sinus tach

Answer 21

1. Physiologic = None needed
   - Address any underlying cause
2. In symptomatic pts w/ inappropriate sinus tachycardia, with/w/o correctable cause:
   - βB (1st line)
   - Alt: non-DHP CCBs / ivabradine (Corlanor)

Question 22

PR interval > 0.2 second with all atrial impulses conducted
what is this dysrhythmia

Answer 22

1st degree HB

Question 23

the AV conduction time (PR interval) progressively lengthens, with the RR interval shortening before the blocked beat
This phenomenon is almost always due to abnormal conduction within the AV node

what is this dyrrhythmia

Answer 23

Mobitz type I (Wenckebach) AV block

Question 24

there are intermittently nonconducted atrial beats not preceded by lengthening AV conduction
It is usually due to block within the His bundle system.

what is this dyrrhythmia

Answer 24

Mobitz type II AV block

Question 25

complete heart block; complete A-V dissociation, in which no supraventricular impulses are conducted to the ventricles

what is this dysrrhythmia

Answer 25

3rd degree HB

Question 26

causes of 1st-degree and Mobitz type I block: (4)

Answer 26

• nml individuals w/ heightened vagal tone
• Drugs - esp digitalis, CCB, BB, or other sympatholytic agents
• lyte abnormalities
• Organic dz - ischemia, infarction, inflammatory processes (Lyme), fibrosis, calcification, or infiltration
• May be transient or chronic

Question 27

causes of Mobitz type II block and 3rd degree block:

Answer 27

Almost always due to organic disease involving the infranodal conduction system
May be transient or permanent

Question 28

causes of Atrioventricular block

Answer 28

• Idiopathic
• Degenerative process
• IHD (inferior wall, septal area, right ventricle)
• Calcific aortic and mitral valve disease
• AV nodal/His ablative procedures
• Meds - Digitalis, βB, CCB (verapamil, diltiazem), sotalol, dronedarone, amiodarone, donepezil
• Infections (including aortic valve endocarditis)
• Inflammatory (myocarditis)
• Infiltrative dz - Amyloidosis, neoplasm, sarcoidosis, hemochromatosis
• Neuromuscular diseases
• Trauma
• Aortic valve surgery

Question 29

s/s of 1st degree block

Answer 29

asx
Diagnosed by EKG alone; no PE abnormalities

Question 30

s/s of Mobitz type I block

Answer 30

MC asx; possible palpitations, DOE, or dizziness
Cardiac auscultation will reveal irregular rhythm.

Question 31

s/s of Mobitz type II block

Answer 31

possible asx; MC palpitations, DOE, weakness, or dizziness
Cardiac auscultation will reveal irregular rhythm.

Question 32

s/s of Third-degree block

Answer 32

• sx vary, and are worse with exertion; palpitations, DOE, weakness, near syncope, syncope, and/or HF
• PE include bradycardia and possibly signs of HF

Question 33

work-up for Atrioventricular block

Answer 33

1. Review meds list and PMHx
2. 12-lead EKG
3. Telemetry monitoring
4. echo to r/o structural heart disease
5. If any s/s of ischemia, will need ischemic eval - cardiac cath
6. Laboratory studies: CBC, CMP, TSH to begin with; any other tests (immunologic, inflammatory markers) if indicated based on H&P

Question 34

management for 1st degree block

Answer 34

• Typically a stable rhythm with good prognosis
• Avoid meds that may prolong PR interval and slow AV conduction (AAD 1C, BBs)

Question 35

management for Mobitz Type I AV Block:

Answer 35

• Typically a stable rhythm
• Treat any identifiable causes; avoid AV node conduction slowing drugs
• Rarely needs a permanent pacemaker

Question 36

management for Mobitz Type II and Third-degree AV Blocks:

Answer 36

• Unstable rhythms; require permanent pacemaker implantation
• if transient d/t acute organic process = temporary pacing

Question 37

• Defined as an ectopic focus in the atria that fires before the next sinus node impulse
• Usually has a different P wave morphology
• May conduct with a short, normal, or long PR interval; or may not conduct at all

Answer 37

Premature Atrial Contractions

Question 38

PACs frequently occur in:

Answer 38

Frequently occur in normal hearts

• Increased frequency with increasing age
• Also occur with structural changes, like LAA, MVP, MS/MR, TR
• May also be precursor to atach, afib, aflutter

Question 39

sx of PAC

Answer 39

asx; palpitations (“skipped beats”)

Question 40

tx for PAC

Answer 40

MC none required
BB if significant sx
Class IC antiarrhythmic is 2nd-line

Question 41

Premature depolarization originating from the ventricles
Results in a wide QRS complex followed by a compensatory pause

Answer 41

Premature Ventricular Contractions

Question 42

PVC frequently occurs in? other causes?

Answer 42

1. normal hearts
2. Other causes:
   - Caffeine, stress, alcohol
   - Structural heart disease – CAD, Valvular disease, LVH
   - lyte abnormalities
   - Thyroid disease

Question 43

PVCs normally diminish in frequency with ?

Answer 43

exercise (suppressed by increased HR)
However, if increase in frequency during exertion, associated with higher risk of CV mortality

Question 44

sx of PVC

Answer 44

1. MC asx
2. Palpitations MC complaint – “skipped beats”
3. Symptoms vary based on frequency of PVCs (ex: trigeminy, bigeminy)
   - Dizziness, near syncope or syncope possible, especially with exertion

Question 45

tx for PVCs

Answer 45

1. Manage any underlying causes
2. If sx - BB 1st line - (Lopressor)
   - mild - reassurance
3. If BB fails - Class IC / III AAD
4. Catheter ablation, esp w/ significant ectopy burden

Question 46

A common cause of paroxysmal tachycardia
Most often occurs in patients with normal structured hearts

Answer 46

Paroxysmal Supraventricular tachycardia

Question 47

MC mechanism of Paroxysmal Supraventricular tachycardia

Answer 47

reentry
Typically initiated by a PAC or PVC

Question 48

2 types of reentry in paroxysmal supraventricular tachycardia

Answer 48

1. AVNRT (AV nodal reentrant tachycardia) – MC
2. AVRT (AV reciprocating tachycardia)
   - WPW – Accessory pathway

Question 49

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s/s of Paroxysmal Supraventricular tachycardia

Answer 49

1. Sx vary:
   - Awareness of rapid heart beat
   - Chest pain, shortness of breath
   - Dizziness, syncope
   - Abrupt onset and termination, last seconds to several hours or longer
2. EKG
   - Tachycardia (140 to 240 bpm)
   - Regular rhythm
   - QRS MC narrow-complex, can be wide
   - P wave buried in QRS complex

Question 50

management for Paroxysmal Supraventricular tachycardia

Answer 50

depends on patient’s stability
- Acute management includes mechanical measures, drug therapy, and cardioversion
- Preventative therapies include catheter ablation and AADs

Acute Management:

1. Mechanical Measures:
   - Valsalva
   - Stretching arms and body, lowering the head between knees
   - Coughing, breath holding
   - Splashing cold water on the face, placing ice or frozen peas on the face
   - Carotid sinus massage – SHOULD ONLY BE DONE BY A PROVIDER
2. Initial Drug Therapy (ALL IV):
   - Adenosine – 1st line
   - CCB – Diltiazem, Verapamil
   - BB – Esmolol, Lopressor
3. Refractory SVT Drug Therapy:
   - Amiodarone
   - Procainamide for antidromic SV (wide-complex tach)
4. Cardioversion - 1st-line if hemodynamically unstable
   - indicated if meds are CI/ineffective
   - Synchronized electrical cardioversion, beginning at 100 J

Question 51

prevention/long-term management for Paroxysmal Supraventricular tachycardia

Answer 51

1. Catheter Ablation -1st line therapy for recurrent, sx PSVT
2. Meds
   - AV nodal blocking agents 1st line - BB & CCBs
   - If continued sx - add Class IC (flecainide, propafenone) / ClassIII (amiodarone, sotalol)

Question 52

The one exception of adding an AAD to AV nodal blocking agent for prevention/long-term management in Paroxysmal Supraventricular tachycardia

Answer 52

1. Patient’s w/ AVRT (WPW) are also prone to afib, aflutter.
   - AV nodal blocking agent do not affect refractoriness of the accessory pathway…… Therefore, ventricular rates in afib/aflutter can be even FASTER
   - Tx: Class IC or III AAD + BB/CCB