Barry Peters scite author profile

The mechanism by which an endocardial-epicardial activation rate gradient develops after 1 or 2 min of sustained ventricular fibrillation is unknown. We recorded from electrodes on the epicardium and from hook electrodes in the endocardium in three open-chest control dogs during prolonged ventricular fibrillation. The same recordings were also made in seven dogs after right ventricular subendocardial ablation with Lugol solution and in three dogs after substitution of air for the cavitary blood. The effects of these interventions, i.e., Lugol ablation (n = 2) and the exposure to air (n = 2), on the subendocardial Purkinje fiber transmembrane action potential properties were also evaluated in vitro using microelectrode recording techniques. The in vivo studies showed a significant endocardial-epicardial rate gradient in the control dogs and in dogs that had air substituted for the cavitary blood. In comparison, in dogs that underwent chemical subendocardial ablation, the activation cycle lengths for the endocardium and epicardium were not significantly different. The in vitro studies showed that subendocardial Purkinje fiber action potentials could still be recorded for up to 10 min of exposure to air. In comparison, in the tissues subjected to chemical ablation, no transmembrane action potentials could be recorded from either the Purkinje fibers or superficial ventricular muscle cells. We conclude that the development of an endocardial-epicardial activation rate gradient during prolonged ventricular fibrillation depends on the presence of intact subendocardial Purkinje fibers and ventricular myocytes. The retained cavitary blood is not responsible for the development of the rate gradient.

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Effects of glycoprotein iib/iiia inhibition on microvascular flow after coronary reperfusion

Kunichika

Ben‐Yehuda

Lafitte

et al. 2004

Journal of the American College of Cardiology

100

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As demonstrated by QMCE, GPI improves microvascular flow and reduces the infarct area after coronary occlusion/reperfusion, independent of epicardial flow. These data demonstrate the usefulness of QMCE in assessing microvascular flow, provide novel evidence for the role of platelets in the early phase of reperfusion injury, and show that GPI is of value in preserving microvascular perfusion after coronary reperfusion.

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Quantitative assessment of myocardial perfusion during graded coronary stenosis by real-time myocardial contrast echo refilling curves

Masugata

Peters

Lafitte

et al. 2001

Journal of the American College of Cardiology

104

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Comparative Value of Dobutamine and Adenosine Stress in the Detection of Coronary Stenosis With Myocardial Contrast Echocardiography

et al. 2001

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Barry Peters

Dissolution of multicomponent microbubbles in the bloodstream: 2. experiment

Effects of chemical subendocardial ablation on activation rate gradient during ventricular fibrillation

Effects of glycoprotein iib/iiia inhibition on microvascular flow after coronary reperfusion

Quantitative assessment of myocardial perfusion during graded coronary stenosis by real-time myocardial contrast echo refilling curves

Comparative Value of Dobutamine and Adenosine Stress in the Detection of Coronary Stenosis With Myocardial Contrast Echocardiography

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