Intracellular Ca dynamics in ventricular fibrillation

doi:10.1152/ajpheart.00123.2003

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Intracellular Ca dynamics in ventricular fibrillation

Chikaya Omichi, Scott T. Lamp, Shien-Fong Lin, Junzhong Yang, Ali Baher, Shengmei Zhou, Mina Attin, Moon-Hyoung Lee, Hrayr S. Karagueuzian, Boris Kogan, Zhilin Qu, Alan Garfinkel, Peng-Sheng Chen, and James N. Weiss

Division of Cardiology, Cedars-Sinai Medical Center and Center for Health Sciences, University of California-Los Angeles (UCLA) Cardiovascular Research Laboratory, Departments of Medicine, Physiology, Physiological Science, and Computer Science, David Geffen School of Medicine, UCLA, Los Angeles, California 90095

Submitted 13 February 2003 ; accepted in final form 16 December 2003

In the heart, membrane voltage (V_m) and intracellular Ca (Ca_i)are bidirectionally coupled, so that ionic membrane currentsregulate Ca_i cycling and Ca_i affects ionic currents regulatingaction potential duration (APD). Although Ca_i reliably and consistentlytracks V_m at normal heart rates, it is possible that at veryrapid rates, sarcoplasmic reticulum Ca_i cycling may exhibitintrinsic dynamics. Non-voltage-gated Ca_i release might causelocal alternations in APD and refractoriness that influencewavebreak during ventricular fibrillation (VF). In this study,we tested this hypothesis by examining the extent to which Ca_iis associated with V_m during VF. Ca_i transients were mappedoptically in isolated arterially perfused swine right ventriclesusing the fluorescent dye rhod 2 AM while intracellular membranepotential was simultaneously recorded either locally with amicroelectrode (5 preparations) or globally with the voltage-sensitivedye RH-237 (5 preparations). Mutual information (MI) is a quantitativestatistical measure of the extent to which knowledge of onevariable (V_m) predicts the value of a second variable (Ca_i).MI was high during pacing and ventricular tachycardia (VT; 1.13± 0.21 and 1.69 ± 0.18, respectively) but felldramatically during VF (0.28 ± 0.06, P < 0.001). Ca_iat sites 4–6 mm apart also showed decreased MI duringVF (0.63 ± 0.13) compared with pacing (1.59 ±0.34, P < 0.001) or VT (2.05 ± 0.67, P < 0.001).Spatially, Ca_i waves usually bore no relationship to membranedepolarization waves during nonreentrant fractionated wavestypical of VF, whereas they tracked each other closely duringpacing and VT. The dominant frequencies of V_m and Ca_i signalsanalyzed by fast Fourier transform were similar during VT butdiffered significantly during VF. Ca_i is closely associatedwith V_m closely during pacing and VT but not during VF. Thesefindings suggest that during VF, non-voltage-gated Ca_i releaseevents occur and may influence wavebreak by altering V_m andAPD locally.

calcium transient; action potential; cardiac restitution; optical mapping

Address for reprint requests and other correspondence: J. N. Weiss, Rm. 3645, MRL Bldg., Cardiovascular Research Laboratory, David Geffen School of Medicine, UCLA, Los Angeles, CA 90095-1760 (E-mail: jweiss{at}mednet.ucla.edu).

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				W. R. Mills, N. Mal, F. Forudi, Z. B. Popovic, M. S. Penn, and K. R. Laurita Optical mapping of late myocardial infarction in rats Am J Physiol Heart Circ Physiol, March 1, 2006; 290(3): H1298 - H1306. [Abstract] [Full Text] [PDF]

				Z. Qu and J. N. Weiss Effects of Na+ and K+ channel blockade on vulnerability to and termination of fibrillation in simulated normal cardiac tissue Am J Physiol Heart Circ Physiol, October 1, 2005; 289(4): H1692 - H1701. [Abstract] [Full Text] [PDF]

				C.-C. Chou, M. Nihei, S. Zhou, A. Tan, A. Kawase, E. S. Macias, M. C. Fishbein, S.-F. Lin, and P.-S. Chen Intracellular Calcium Dynamics and Anisotropic Reentry in Isolated Canine Pulmonary Veins and Left Atrium Circulation, June 7, 2005; 111(22): 2889 - 2897. [Abstract] [Full Text] [PDF]