Leukocyte Adhesion to the Coronary Microvasculature During Ischemia and Reperfusion in an In Vivo Canine Model

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Circulation. 1996;93:1784-1787

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(Circulation. 1996;93:1784-1787.)
© 1996 American Heart Association, Inc.

Articles

Leukocyte Adhesion to the Coronary Microvasculature During Ischemia and Reperfusion in an In Vivo Canine Model

Frank M. Sheridan, MD; Paul G. Cole, MD; David Ramage, MS

From the Cardiology Section, Department of Medicine, Louisiana State University School of Medicine, Shreveport.

Background Prompt reperfusion of ischemic myocardium or myocardiumthat is in the process of becoming infarcted is a cornerstoneof current therapy for coronary artery disease. Paradoxically,experimental evidence suggests that cardiac damage may be causedby the reperfusion itself. Leukocyte attachment to the coronaryvascular endothelium during reperfusion may be an initiating stepin this detrimental process. Leukocyte adhesion to microvascular endotheliumhas never been demonstrated directly in a cardiac model of ischemiaand reperfusion.

Methods and Results Fluorescent videomicroscopy through a special"floating" objective that allows a series of lenses to movein unison with the beating dog heart was used on the left ventricularsurface of open-chest dogs. Epicardial microvessels (25 to 130µm), in focus throughout the cardiac cycle, were recordedafter infusion of acridine orange (to fluorescently label leukocytes)during either 1 hour of ischemia followed by 2 hours of reperfusion,3 hours of ischemia, or 3 hours of no ischemia. The amount ofnet fluorescence recorded along microvessel walls, which representedleukocyte accumulation, significantly increased in dogs duringreperfusion (n=8) compared with the same time period in theanimals that were kept ischemic (n=5) (21.0±3.8 versus 10.9±4.5gray scale; P=.0001). The rapid increase in fluorescence duringreperfusion was also significantly different from values inthe same group during the preceding period of ischemia (21.0±3.8versus 5.1±2.1 gray scale; P=.0001), whereas no significantincrease was seen over the same time periods in the animalsthat remained ischemic throughout the protocol.

Conclusions Reperfusion, compared with ischemia alone, promotesthe rapid accumulation of leukocytes in the coronary microvasculatureof dogs.

Key Words: reperfusion • ischemia • leukocytes • endothelium • microcirculation

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