Rectification of the Background Potassium Current

Author:

Samie Faramarz H.1,Berenfeld Omer1,Anumonwo Justus1,Mironov Sergey F.1,Udassi Sharda1,Beaumont Jacques1,Taffet Steven1,Pertsov Arkady M.1,Jalife José1

Affiliation:

1. From SUNY Upstate Medical University, Syracuse, NY.

Abstract

Ventricular fibrillation (VF) is the leading cause of sudden cardiac death. Yet, the mechanisms of VF remain elusive. Pixel-by-pixel spectral analysis of optical signals was carried out in video imaging experiments using a potentiometric dye in the Langendorff-perfused guinea pig heart. Dominant frequencies (peak with maximal power) were distributed throughout the ventricles in clearly demarcated domains. The fastest domain (25 to 32 Hz) was always on the anterior left ventricular (LV) wall and was shown to result from persistent rotor activity. Intermittent block and breakage of wavefronts at specific locations in the periphery of such rotors were responsible for the domain organization. Patch-clamping of ventricular myocytes from the LV and the right ventricle (RV) demonstrated an LV-to-RV drop in the amplitude of the outward component of the background rectifier current ( I B ). Computer simulations suggested that rotor stability in LV resulted from relatively small rectification of I B (presumably I K1 ), whereas instability, termination, and wavebreaks in RV were a consequence of strong rectification. This study provides new evidence in the isolated guinea pig heart that a persistent high-frequency rotor in the LV maintains VF, and that spatially distributed gradients in I K1 density represent a robust ionic mechanism for rotor stabilization and wavefront fragmentation.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

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