Acidosis slows electrical conduction through the atrio-ventricular node

Acidosis slows electrical conduction through the atrio-ventricular node

Acidosis affects the mechanical and electrical activity of mammalian hearts but comparatively little is known about its effects on the function of the atrio-ventricular node (AVN). In this study, the electrical activity of the epicardial surface of the left ventricle of isolated Langendorff-perfused...

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Published in:Frontiers in physiology Vol. 5; p. 233
Main Authors: Nisbet, Ashley M, Burton, Francis L, Walker, Nicola L, Craig, Margaret A, Cheng, Hongwei, Hancox, Jules C, Orchard, Clive H, Smith, Godfrey L
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 25-06-2014
Subjects:
Acidosis
atrio-ventricular block
Atrio-ventricular node
Bradycardia
optical mapping
Physiology
right atrium
optical mapping
atrio-ventricular block
bradycardia
acidosis
right atrium
atrio-ventricular node
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Summary:Acidosis affects the mechanical and electrical activity of mammalian hearts but comparatively little is known about its effects on the function of the atrio-ventricular node (AVN). In this study, the electrical activity of the epicardial surface of the left ventricle of isolated Langendorff-perfused rabbit hearts was examined using optical methods. Perfusion with hypercapnic Tyrode's solution (20% CO2, pH 6.7) increased the time of earliest activation (Tact) from 100.5 ± 7.9 to 166.1 ± 7.2 ms (n = 8) at a pacing cycle length (PCL) of 300 ms (37°C). Tact increased at shorter PCL, and the hypercapnic solution prolonged Tact further: at 150 ms PCL, Tact was prolonged from 131.0 ± 5.2 to 174.9 ± 16.3 ms. 2:1 AVN block was common at shorter cycle lengths. Atrial and ventricular conduction times were not significantly affected by the hypercapnic solution suggesting that the increased delay originated in the AVN. Isolated right atrial preparations were superfused with Tyrode's solutions at pH 7.4 (control), 6.8 and 6.3. Low pH prolonged the atrial-Hisian (AH) interval, the AVN effective and functional refractory periods and Wenckebach cycle length significantly. Complete AVN block occurred in 6 out of 9 preparations. Optical imaging of conduction at the AV junction revealed increased conduction delay in the region of the AVN, with less marked effects in atrial and ventricular tissue. Thus acidosis can dramatically prolong the AVN delay, and in combination with short cycle lengths, this can cause partial or complete AVN block and is therefore implicated in the development of brady-arrhythmias in conditions of local or systemic acidosis.
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This article was submitted to Cardiac Electrophysiology, a section of the journal Frontiers in Physiology.
Reviewed by: Milan Stengl, Charles University, Czech Republic; William Louch, University of Oslo, Norway
Edited by: Antonius Baartscheer, Academic Medical Center, Netherlands
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2014.00233