Wavebreak Formation During Ventricular Fibrillation in the Isolated, Regionally Ischemic Pig Heart

doi:10.1161/01.RES.0000061917.23107.F7

Circulation Research. 2003
Published online before print February 13, 2003, doi: 10.1161/01.RES.0000061917.23107.F7

A more recent version of this article appeared on March 21, 2003

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Submitted on September 27, 2002
Revised on January 27, 2003
Accepted on February 5, 2003

Wavebreak Formation During Ventricular Fibrillation in the Isolated, Regionally Ischemic Pig Heart

Alexey V. Zaitsev ^*; Prabal K. Guha ; Farzad Sarmast ; Arun Kolli ; Omer Berenfeld ; Arkady M. Pertsov ; Joris R. de Groot ; Ruben Coronel ; and José Jalife

From the Department of Pharmacology, SUNY Upstate Medical University, Syracuse, NY.

^* To whom correspondence should be addressed. E-mail: zaitseva{at}mail.upstate.edu.

Both fixed and dynamic heterogeneities were implicated in themechanism of wavebreak (WB) generation during ventricular fibrillation(VF). However, their relative roles remain unclear. We hypothesizedthat during ischemic VF, the WBs are produced primarily becauseof a fixed heterogeneity; namely, the gradient of refractorinessacross the ischemic border zone (BZ). Ischemia was induced in15 isolated blood-perfused hearts by occluding the left anteriordescending coronary artery. Simultaneous video imaging ( ${approx}$ 32x32mm²) of Di-4-ANEPPS fluorescence in the ischemic zone (IZ),the BZ, and the nonischemic zone (NIZ) was performed. Dominant-frequencymaps were constructed to assess gradients of refractorinessduring VF. We used singularity points analysis to quantify theincidence of WBs per square centimeter per second. During preischemicVF, the distribution of WBs was relatively uniform. Ischemiacaused an increase of WBs in the BZ (from 6.2±2.8 to10.8±4.0) and a decrease of WBs in the IZ (from 5.8±2.8to 2.8±1.4), without a significant change in NIZ (from6.4±2.3 to 4.1±1.7). This finding is fully consistentwith the dominant-frequency distribution during ischemic VF:the average dominant frequency was significantly slower in IZthan in NIZ (7.8±0.7 versus 10.1±1.0 Hz), suggestinga large gradient in refractory periods across the BZ. We concludedthat acute regional ischemia plays a dual role in the maintenanceof VF, decreasing the incidence of WB in the IZ while increasingit in the BZ. This suggests a predominant role of fixed heterogeneitiesin the formation of WB during VF in acute regional ischemia.

Key words: ventricular fibrillation • myocardial ischemia • optical mapping • wavebreak

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