Modulation of rabbit sinoatrial node activation sequence by acetylcholine and isoproterenol investigated with optical mapping technique

Changes in the rabbit sinoatrial node (SAN) activation sequence with the cholinergic and adrenergic factors were studied. The correlation between the sinus rhythm rate and the leading pacemaker site shift was determined. The hypothesis concerning the cholinergic suppression of nodal cell excitabilit...

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Bibliographic Details
Published in:Acta Physiologica 2009-08, Vol.196 (4), p.385-394
Main Authors: Abramochkin, D.V, Kuzmin, V.S, Sukhova, G.S, Rosenshtraukh, L.V
Format: Article
Language:English
Subjects:
acetylcholine
Acetylcholine - administration & dosage
Action Potentials - drug effects
Adrenergic beta-Agonists - administration & dosage
Animals
Biological Clocks - drug effects
Cholinergic Agents - administration & dosage
Electric Stimulation
isoproterenol
Isoproterenol - administration & dosage
mapping
pacemaker shift
Parasympathetic Nervous System - drug effects
Parasympathetic Nervous System - physiology
Periodicity
Rabbits
sinoatrial node
Sinoatrial Node - drug effects
Sinoatrial Node - physiology
Sympathetic Nervous System - drug effects
Sympathetic Nervous System - physiology
Voltage-Sensitive Dye Imaging - methods
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Summary:Changes in the rabbit sinoatrial node (SAN) activation sequence with the cholinergic and adrenergic factors were studied. The correlation between the sinus rhythm rate and the leading pacemaker site shift was determined. The hypothesis concerning the cholinergic suppression of nodal cell excitability as one of the mechanisms associated with pacemaker shift was tested. A high-resolution optical mapping technique was used to register beat-to-beat changes in the SAN activation pattern under the influence of the cholinergic and adrenergic factors. Acetylcholine (10 μ m) and strong intramural parasympathetic nerve stimulation caused a pacemaker shift as well as rhythmic slowing and the formation of an inexcitable region in the central part of SAN. In this region the generation of action potentials was suppressed. The slowing of the sinus rhythm (which exceeded 12.8 ± 3.1% of the rhythm control rate) always accompanied the pacemaker shift. Isoproterenol (10, 100 n m, 1 μ m) and sympathetic postganglionic nerve stimulation also evoked a pacemaker shift but without formation of an inexcitable zone. The acceleration of the sinus rhythm, which exceeded 10.5 ± 1.3% of the control rate of the rhythm, always accompanied the shift. Both cholinergic and adrenergic factors cause pacemaker shifts in the rabbit SAN. While modest changes in the sinus rhythm do not coincide with the pacemaker shift, greater changes always accompany the shift and may be caused by it, according to one hypothesis. The formation of an inexcitable zone at the place where the leading pacemaker is situated is one of the mechanisms associated with pacemaker shift.
ISSN:1748-1708
1748-1716
DOI:10.1111/j.1748-1716.2009.01963.x