Background and objective: Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequentl... more Background and objective: Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. Methods: A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. Results: The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. Conclusions: AFl recurrence on Amio, PPF or Sot is associated with the continued presence of an EG and fully excitable portion. These findings explain the persistent viability of the AFl circuit despite drug therapy in these patients.
BACKGROUND AND OBJECTIVE Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently... more BACKGROUND AND OBJECTIVE Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. METHODS A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. RESULTS The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. CONCLUSIONS AFl recurrence on Amio, PPF or Sot is associated with the continue...
Canadian Journal of Physiology and Pharmacology, Feb 1, 2001
Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated t... more Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated the effects of sympathetic and parasympathetic activation on atrial flutter (AF1) by determining the effects of norepinephrine (NE) and acetylcholine (ACh) on the composition of the excitable gap. A model of reentry around the tricuspid valve was produced in 17 chloralose anesthetized dogs using a Y-shaped lesion in the intercaval area that extended to the right atrial appendage. Excitable gap characteristics were determined during AF1 by scanning diastole with a single premature extrastimulus at progressively shorter coupling intervals to define the reset-response curve. Measurements were made during a constant infusion of NE (15 microg/min) into the right coronary artery and repeated during ACh infusion (2 microg/min) following a 15 min recovery period. The excitable gap (27 +/- 1 ms) was significantly (P < 0.001) increased by NE (34 +/- 1 ms) and ACh (50 +/- 2 ms). The fully excitable portion (7 +/- 1 ms) was also significantly (P < 0.001) increased by NE (17 +/- 1 ms) and ACh (43 +/- 2 ms). We conclude that both neurotransmitters increase the safety margin of full excitability ahead of the wavefront, demonstrating that parasympathetic and sympathetic activation can facilitate the persistence of this refractory atrial arrhythmia.
Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine t... more Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. AFl recurrence on Amio, PPF or Sot is associated with the continued presence of an EG and fully excitable portion. Thes...
Canadian Journal of Physiology and Pharmacology, 1997
The effects of increasing concentrations of procainamide on the composition of the excitable gap ... more The effects of increasing concentrations of procainamide on the composition of the excitable gap were determined in a canine model of atrial flutter. Using the model of a Y-shaped lesion in the right atrium, reentry around the tricuspid valve was induced by burst pacing in 10 open-chest chloralose-anesthetized dogs. Diastole was scanned with a single premature stimulus and the relationship between the coupling interval of the premature beat and the return cycle length (CL) determined a reset-response curve that described the excitable gap. This was repeated up to the maximum flutter CL while infusing procainamide (30 mg/kg) over 1 h. Procainamide progressively prolonged the flutter CL from 131 +/- 21 (+/-SD) to 188 +/- 46 ms (p < 0.01) and the effective refractory period from 96 +/- 19 to 149 +/- 47 ms (p < 0.01). At peak plasma levels of 77 +/- 33 mumol/L the drug terminated flutter only in two dogs. Neither the duration (35 +/- 10 to 39 +/- 13 ms) nor the composition of the excitable gap changed on drug. A fully excitable portion (7 +/- 3 ms or 20 +/- 11% of the excitable gap) persisted on procainamide (7 +/- 3 ms or 19 +/- 9% of the excitable gap). It was concluded that procainamide prolongs the atrial flutter CL and the effective refractory period but does not change either the duration or composition of the excitable gap even at plasma concentrations that significantly exceed those recommended in man.
Canadian Journal of Physiology and Pharmacology, 2001
Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated t... more Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated the effects of sympathetic and parasympathetic activation on atrial flutter (AF1) by determining the effects of norepinephrine (NE) and acetylcholine (ACh) on the composition of the excitable gap. A model of reentry around the tricuspid valve was produced in 17 chloralose anesthetized dogs using a Y-shaped lesion in the intercaval area that extended to the right atrial appendage. Excitable gap characteristics were determined during AF1 by scanning diastole with a single premature extrastimulus at progressively shorter coupling intervals to define the reset-response curve. Measurements were made during a constant infusion of NE (15 microg/min) into the right coronary artery and repeated during ACh infusion (2 microg/min) following a 15 min recovery period. The excitable gap (27 +/- 1 ms) was significantly (P < 0.001) increased by NE (34 +/- 1 ms) and ACh (50 +/- 2 ms). The fully excitable portion (7 +/- 1 ms) was also significantly (P < 0.001) increased by NE (17 +/- 1 ms) and ACh (43 +/- 2 ms). We conclude that both neurotransmitters increase the safety margin of full excitability ahead of the wavefront, demonstrating that parasympathetic and sympathetic activation can facilitate the persistence of this refractory atrial arrhythmia.
Background and objective: Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequentl... more Background and objective: Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. Methods: A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. Results: The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. Conclusions: AFl recurrence on Amio, PPF or Sot is associated with the continued presence of an EG and fully excitable portion. These findings explain the persistent viability of the AFl circuit despite drug therapy in these patients.
BACKGROUND AND OBJECTIVE Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently... more BACKGROUND AND OBJECTIVE Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. METHODS A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. RESULTS The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. CONCLUSIONS AFl recurrence on Amio, PPF or Sot is associated with the continue...
Canadian Journal of Physiology and Pharmacology, Feb 1, 2001
Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated t... more Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated the effects of sympathetic and parasympathetic activation on atrial flutter (AF1) by determining the effects of norepinephrine (NE) and acetylcholine (ACh) on the composition of the excitable gap. A model of reentry around the tricuspid valve was produced in 17 chloralose anesthetized dogs using a Y-shaped lesion in the intercaval area that extended to the right atrial appendage. Excitable gap characteristics were determined during AF1 by scanning diastole with a single premature extrastimulus at progressively shorter coupling intervals to define the reset-response curve. Measurements were made during a constant infusion of NE (15 microg/min) into the right coronary artery and repeated during ACh infusion (2 microg/min) following a 15 min recovery period. The excitable gap (27 +/- 1 ms) was significantly (P < 0.001) increased by NE (34 +/- 1 ms) and ACh (50 +/- 2 ms). The fully excitable portion (7 +/- 1 ms) was also significantly (P < 0.001) increased by NE (17 +/- 1 ms) and ACh (43 +/- 2 ms). We conclude that both neurotransmitters increase the safety margin of full excitability ahead of the wavefront, demonstrating that parasympathetic and sympathetic activation can facilitate the persistence of this refractory atrial arrhythmia.
Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine t... more Recurrence of atrial flutter (AFl) on antiarrhythmic drugs is frequently observed. To determine the reasons for drug inefficacy, the electrophysiological parameters of AFl were studied in eight patients without drug, six patients on sotalol (Sot), eight patients on amiodarone (Amio) and four patients on propafenone (PPF) who presented to the electrophysiology laboratory for conversion of AFl by rapid atrial pacing. A quadripolar electrode catheter was positioned in the right atrium in the pathway of the AFl circuit. The duration and composition of the excitable gap (EG) were determined by premature stimuli during AFl. The EG in AFl recurring on Sot (80 +/- 25 ms), Amio (78 +/- 13 ms) and PPF (83 +/- 26 ms) was not significantly different from that without drug (88 +/- 14 ms). Furthermore, a fully excitable portion of the EG was present whether with or without drug. AFl recurrence on Amio, PPF or Sot is associated with the continued presence of an EG and fully excitable portion. Thes...
Canadian Journal of Physiology and Pharmacology, 1997
The effects of increasing concentrations of procainamide on the composition of the excitable gap ... more The effects of increasing concentrations of procainamide on the composition of the excitable gap were determined in a canine model of atrial flutter. Using the model of a Y-shaped lesion in the right atrium, reentry around the tricuspid valve was induced by burst pacing in 10 open-chest chloralose-anesthetized dogs. Diastole was scanned with a single premature stimulus and the relationship between the coupling interval of the premature beat and the return cycle length (CL) determined a reset-response curve that described the excitable gap. This was repeated up to the maximum flutter CL while infusing procainamide (30 mg/kg) over 1 h. Procainamide progressively prolonged the flutter CL from 131 +/- 21 (+/-SD) to 188 +/- 46 ms (p < 0.01) and the effective refractory period from 96 +/- 19 to 149 +/- 47 ms (p < 0.01). At peak plasma levels of 77 +/- 33 mumol/L the drug terminated flutter only in two dogs. Neither the duration (35 +/- 10 to 39 +/- 13 ms) nor the composition of the excitable gap changed on drug. A fully excitable portion (7 +/- 3 ms or 20 +/- 11% of the excitable gap) persisted on procainamide (7 +/- 3 ms or 19 +/- 9% of the excitable gap). It was concluded that procainamide prolongs the atrial flutter CL and the effective refractory period but does not change either the duration or composition of the excitable gap even at plasma concentrations that significantly exceed those recommended in man.
Canadian Journal of Physiology and Pharmacology, 2001
Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated t... more Atrial arrhythmias are believed to be influenced by autonomic nervous system tone. We evaluated the effects of sympathetic and parasympathetic activation on atrial flutter (AF1) by determining the effects of norepinephrine (NE) and acetylcholine (ACh) on the composition of the excitable gap. A model of reentry around the tricuspid valve was produced in 17 chloralose anesthetized dogs using a Y-shaped lesion in the intercaval area that extended to the right atrial appendage. Excitable gap characteristics were determined during AF1 by scanning diastole with a single premature extrastimulus at progressively shorter coupling intervals to define the reset-response curve. Measurements were made during a constant infusion of NE (15 microg/min) into the right coronary artery and repeated during ACh infusion (2 microg/min) following a 15 min recovery period. The excitable gap (27 +/- 1 ms) was significantly (P < 0.001) increased by NE (34 +/- 1 ms) and ACh (50 +/- 2 ms). The fully excitable portion (7 +/- 1 ms) was also significantly (P < 0.001) increased by NE (17 +/- 1 ms) and ACh (43 +/- 2 ms). We conclude that both neurotransmitters increase the safety margin of full excitability ahead of the wavefront, demonstrating that parasympathetic and sympathetic activation can facilitate the persistence of this refractory atrial arrhythmia.
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Papers by Elise Jalil