Mer Scott
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PHCY310 Quiz on L44,45,46 Dysrhythmias, created by Mer Scott on 20/05/2019.

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Mer Scott
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L44,45,46 Dysrhythmias

Question 1 of 13

1

Choose the incorrect statement.

Select one of the following:

  • 2% of all people over age 65 in New Zealand have Afib.

  • People with dysrythmias have a higher risk of mortality from MI, stroke, HF and dementia.

  • Ventricular arrhythmias are less common than atrial fibrillation.

Explanation

Question 2 of 13

1

The mechanism of arrhythmia can be due to abnormal firing or abnormal . Abnormal impulse firing can be increased (where cells SA node start firing spontaneously) or activity (where cells contract despite only being activated once).

Drag and drop to complete the text.

    impulse
    conduction
    automaticity
    outside
    triggered
    twice

Explanation

Question 3 of 13

1

Bradyarrhythmias:
1. Sinus Bradycardia - Slow heart rate < bpm(elderly, athletes).
• Increased vagal tone or stimulation, vomiting, myocardial ischemia or MI, thyroid, hypo, increased pressure. Can be caused by drugs: Beta blockers (slow ) and/or non-dihydropyridine calcium channel blockers (slow ).
2. Sick Sinus Syndrome -
• A of bradycardia and tachycardia
• Sinus dysfunction
• Associated with episodes of tachyarrhythias
3. Atrio-Ventricular Block - impulses generated in atria are conducted to ventricles or partially/totally.

2 and 3 can be caused by

Drag and drop to complete the text.

    60
    intracranial
    hypo
    thermia
    impulse firing
    conduction
    combination
    node
    atrial
    slowly
    blocked
    BBs, CCBs, or digoxin

Explanation

Question 4 of 13

1

Tachyarrhythmias:
1. Atrial flutter - Rapid, atrial depolarization. Atrial rate: 250-350 bpm. If atrial impulses are conducted to the , it can result in ventricular tachycardia. Since atrial rate is high, AV may occur to protect ventricles...
2. Atrial fibrillation - Most common sustained arrhythmia. mpulses conduct across the atria – leading to fibrillation. Atrial rate bpm. AV node irregularly filters (blocks) atrial impulses, irregular increased rate occurs. Concern is atrial thrombus formation due to stasis. Clinical Features: Fatigue, palpitation, syncope, worsening .
3. Ventricular Tachycardia - Rate bpm. ' VT' if tachycardia lasts >30 seconds. ECG: wide and rapid complexes (: All QRS complexes are similar, or : QRS complexes change in morphology, amplitude, polarity).
4. Torsades de Pointes (TdP) - Variance of polymorphic VT. Drug causes: Anti-arrhythmics (Class Ia, Class III), phenothiazines, erythromycin. Electrolyte causes: , hypomagnesemia.
5. Ventricular Fibrillation - Chaotic () ventricular arrhythmia. Rate 250-500 bpm. Follows ischemic event, most frequent cause of sudden .
6. Wolf-Parkinson-White Syndrome - Early ventricular depolarization. Congenital defect.

Drag and drop to complete the text.

    regular
    ventricle
    block
    irregularly
    350-600
    ventricular
    heart failure
    100-250
    Sustained
    QRS
    monomorphic
    polymorphic
    hypokalemia
    irregular
    death

Explanation

Question 5 of 13

1

Atrial Fibrillation - Classification:
=Only one diagnosed episode
= Recurrent episodes that stop on their own in <7 days
= Recurrent episodes that last >7 days
= Ongoing long-term episode

Drag and drop to complete the text.

    First detected
    Paroxysmal
    Persistent
    Permanent

Explanation

Question 6 of 13

1

Select all the options which could be clinical presentations of arrhythmia.

Select one or more of the following:

  • Cardiac arrest

  • Loss of consciousness/syncope

  • Shortness of breath

  • Anxiety

  • Palpitations

  • Asymptomatic/no symptoms

  • Constipation

  • Dry cough

Explanation

Question 7 of 13

1

Vaughan Williams Classification of Anti-arrythmics:
• Class I -
• Class Ia: Quinidine, Procainamide, Disopyramide (intermediate block)
• Class Ib: Lidocaine, Mexilitine (fast block)
• Class Ic: Flecainide, Propafenone, Moricizine (slow block)
• Class II -
• Class III -
- Amiodarone, Dronedarone, Sotalol, Ibutilide, Dofetilide
• Class IV -
- Diltiazem, Verapamil

Drag and drop to complete the text.

    Sodium channel blockers
    Beta adrenergic blockers
    Potassium channel blockers
    Calcium channel blockers

Explanation

Question 8 of 13

1

Choose the incorrect statement.

Select one of the following:

  • All sodium channel blockers (Class I) decrease conduction velocity and automaticity, but have different affects on the refractory period.

  • Beta blockers reduce conduction velocity and automaticity, and increase the refractory period.

  • Potassium channel blockers only affect refractory period, by increasing it.

  • Calcium channel blockers reduce conduction velocity and automaticity, and increase the refractory period.

Explanation

Question 9 of 13

1

Diltiazem in patients post-MI with heart failure and flecainide post-MI to suppress ventricular ectopy both decrease mortality.

Select one of the following:

  • True
  • False

Explanation

Question 10 of 13

1

Choose the incorrect statement about lidocaine.

Select one of the following:

  • It is Class Ib.

  • It decreases depolarization, automaticity, and excitability of the ventricles during systole.

  • It's onset of action occurs within 30-90 seconds.

  • It can cause hypotension, arrhythmias, and heart block.

  • It can cause sedation, dizzy, vision changes, seizures, parasthesia.

Explanation

Question 11 of 13

1

Which cardiac-related drugs are greatly affected by coadministration with Amiodarone?

Select one of the following:

  • Digoxin, Statins, Warfarin, Dabigatran

  • Digoxin, ACEis, Warfarin, Rivaroxiban

  • SSRIs, Dabigatran, Phenytoin

  • Sulphonylureas and beta blockers

Explanation

Question 12 of 13

1

Treating ventricular arrhythmias:
Non sustained VT, no structural disease -
blockers, CCB, Class 1( blockers)
• Catheter

VF or TdP (idiopathic) -

Structural disease present -
• Treat cause
• Catheter ablation or ICD
when above fails
• Do not give

Drag and drop to complete the text.

    Beta
    Na+
    ablation
    ICD
    underlying
    Amiodarone
    CCBs

Explanation

Question 13 of 13

1

Select all the drug classes that target rhythm control instead of rate.

Select one or more of the following:

  • Class IV agents/Calcium Channel Blockers

  • Class II agents/Beta blockers

  • Amiodarone

  • Digoxin

  • Class I agents/Sodium channel blockers

  • Class III agents/Potassium channel blockers

Explanation