Karyl M. VanBenthuysen scite author profile

Endothelial injury may contribute to the augmented coronary vascular tone seen in myocardial ischemia by impairing endothelial production or release of vasodilators. In vitro reactivity of arterial rings was studied after 60 min of coronary occlusion and 60 min of reperfusion in anesthetized dogs. Ischemia without reperfusion blunted contractile reactivity to potassium chloride (KCI), whereas ischemia plus reperfusion augmented contractile responses to both KCI and ergonovine. The response to acetylcholine, an endothelium-dependent vasodilator, was abolished in reperfused arteries, whereas the response to nitroprusside, an endothelium-independent vasodilator, was intact. Verapamil pretreatment restored KCI contractile responses to normal in reperfused coronary rings and partially restored endotheliumdependent relaxation. Electron microscopy revealed a nondenuding epicardial coronary endothelial injury in reperfused arteries. These data support the hypothesis that reperfusion of ischemic myocardium augments reactivity to vasoconstrictor agents by causing endothelial cell damage, excessive calcium influx, and loss of modulating vasodilator function. IntroductionCoronary artery "spasm" has been identified as the basis of "variant" or "Prinzmetal" angina (1, 2), as a precipitant ofmyocardial infarction (3), and as a frequent factor in unstable and postinfarction angina (4-6). The mechanism by which this abnormal form of coronary vasoconstriction occurs is not known. However, recent interest has focused on the vascular endothelium as a determinant of vasodilator tone. Furchgott described a chemical "relaxing" factor, which is produced by endothelial cells and vasodilates coronary and other systemic arteries (7). Damage to the endothelium may impair release of this relaxing factor or other endothelial-derived vasodilators, and cause vasoconstriction. Recent studies have assessed the role of the endothelium in modulating coronary vascular tone by mechanically removing the endothelium oflarge, epicardial coronary artenes. Deendothelialization produces spontaneous local vasoconstric-

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Functional coronary microvascular injury evident as increased permeability due to brief ischemia and reperfusion.

Dauber

VanBenthuysen

McMurtry

et al. 1990

Circulation Research

133

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Although morphological studies suggest that coronary vascular injury is a result of prolonged ischemia and subsequent reperfusion, whether functional coronary microvascular injury develops during brief in vivo ischemia is unclear. In other organs, permeability is a sensitive indicator of functional vascular injury. Therefore, a new double-indicator method of assessing vascular protein permeability, a method that is both sensitive and specific for vascular injury, was used to investigate the effects of ischemia of graded duration followed by reperfusion on coronary microvascular function. To help confirm functional coronary vascular injury, endothelium-dependent vasodilation of isolated coronary vascular rings also was examined. Microvascular permeability was quantitatively assessed as a protein leak index by measuring the rate of extravascular accumulation of radiolabeled protein (indium 113m transferrin) normalized for vascular surface area (technetium 99m erythrocytes). Anesthetized dogs underwent 0 (control), 15, 30, or 60 minutes of left anterior descending coronary artery occlusion followed by 60 minutes of reperfusion. Even 15 minutes of ischemia increased the protein leak index by 50% (3.16 +/- 0.30 ischemic vs. 2.09 +/- 0.11 control). Longer periods of ischemia increased the protein leak index in proportion to the duration of ischemia. The protein leak index increased threefold (6.51 +/- 0.60) after 60 minutes of ischemia. At each duration of ischemia, there was significant regional variation in the protein leak index that correlated with the severity of ischemic blood flow to that region measured with microspheres. Endothelial injury also was evident after 15 and 30 minutes of ischemia as impaired vasodilation of isolated coronary rings in response to the endothelium-dependent vasodilators acetylcholine and the calcium ionophore A23187. Electron microscopy and in vitro direct immunofluorescence revealed evidence of vascular injury after 60 minutes but not after 15 minutes of ischemia. We conclude that even brief ischemia and reperfusion cause functional coronary vascular injury evident as increased microvascular permeability and impaired endothelium-dependent vasodilation and that regional differences in the degree of microvascular injury correlate with differences in the severity of ischemia.

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Lidocaine Reduces Canine Infarct Size and Decreases Release of a Lipid Peroxidation Product

Lesnefsky

VanBenthuysen

McMurtry

et al. 1989

Journal of Cardiovascular Pharmacology

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