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ARRHYTHMIAS • TACHYCARDIA • BRADYCARDIA • CARDIAC ARREST Electrical activity – Chaotic VF – Absent asystole >100/min <50/min Action potential 0 -60 Propagating action potential 0 -60 Propagating action potential 0 -60 Propagating action potential 0 -60 Propagating action potential 0 -60 Propagating action potential TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY DEPOL Inward REPOL outward Propagating action potential TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY DEPOL Inward REPOL outward DEPOL Inward REPOL outward AUTOMATICITY Physiological: Sinus node Pathological: Reduction/depolarisation of resting membrane potential (e.g. Ischaemia) TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Tachyarrhythmias • Antiarrhythmic drugs – – – – Vaughan-Williams Classification Drugs divided according to EP effects on cells All are negatively inotropic Can also be pro-arrhythmic Tachyarrhythmias • Class I – Impede Na transport across cell membrane – Ia increase AP duration eg quinidine, disopyramide, procainamide – Ib shorten AP duration eg lignocaine, mexilitene, propafenone – Ic little effect on AP eg flecainide Tachyarrhythmias • Class II – Interfere with effects of SNS on the heart eg beta blockers • Class III – Prolong AP duration but do not effect initial Na dependent phase eg sotalol, amiodarone • Class IV – Antagonise Ca transport across cell membrane – SA and AV node particularly susceptible eg verapamil, diltiazem TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY AV Nodal block • [Class II – Interfere with effects of SNS on the heart eg beta blockers] • Class III – Prolong AP duration but do not effect initial Na dependent phase eg sotalol, amiodarone • Class IV – Antagonise Ca transport across cell membrane – SA and AV node particularly susceptible eg verapamil, diltiazem • Adenosine – Specific AV nodal block EP study: standard fixed wires EP study: standard fixed wires RADIOFREQUENCY ABLATION TREATMENT STRATEGY • • • • STABILISE AUTOMATICITY PROLONG ACTION POTENTIAL SLOW CONDUCTION INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY RFA: success rates • • • • • • • AVJ 98% AVNRT 97% AP 93% (L 95%, R 89%) AFl 95% Infarct VT 60-90%, long term 50% Idiopathic VT 90% Focal AF 60% RFA: treatment of choice • AVJ 98% • AVNRT 97% • AP 93% (L 95%, R 89%) • AFl 95% • Idiopathic VT 90% ______________________________ ? Infarct VT 60-90%, long term 50% ? Focal AF 60% Atrial flutter Atrial Flutter: RFA vs AA drugs JACC2000;35:1898 prospective, randomised – 61 pts • • • • SR at 21 months: 36%AAD vs 80% RFA Rehospitalised: 63% AAD vs 22% RFA AF: 53% AAD vs 29% RFA QOL: no change AAD improvement RFA TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Concepts of AF: 1900-2000 MULTIPLE WAVELETS Ines, Garrey MOTHER WAVE Lewis HYPEREXCITABILITY Engelmann, Winterberg WPW syndrome AV re-entry tachycardia TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Ventricular tachycardia Ventricular tachycardia TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Rhythm Strip During Episode of Sudden Death TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Implanatable defibrillators Medtronic Implantable Defibrillators (1989-1997) 209 cc 113 cc 80 cc 80 cc 72 cc 54 cc 71 mm x 58 mm x 16 mm 2 4/5 in x 2 1/3 in x 2/3 in Implanatable defibrillator in-situ Sinus node disease AV node disease 1st degree heart block 2nd degree heart block (2:1) AV node disease Complete (3rd degree) heart block Bradyarrhythmias • AV node disease – 1st degree; prolonged PR interval – 2nd degree; Mobitz type I (Wenckebach); increasing PR interval then non-conducted P wave – 2nd degree; Mobitz type II; non-conducted P waves – 2nd degree; 2:1 or 3:1 AV node block – 3rd degree; complete heart block • AV block usually caused by idiopathic fibrosis; other causes include MI, drugs and congenital block TREATMENT STRATEGY • • • • PROLONG ACTION POTENTIAL MODIFY CONDUCTION STABILISE AUTOMATICITY INTERRUPT REENTRY – PHARMACOLOGICAL – PHYSICAL • ELECTRICAL STIMULATION – ATP/SHOCK TACHY – PACE BRADY Bradyarrhythmias • Treatment of symptomatic bradyarrhythmias often consists of pacing • In the short-term drugs may be used to augment conduction eg atropine, isoprenaline
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