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. 1987 Mar;14(1):13–21.

Scanning Electron Microscopy of Circulating Platelets Reveals New Aspects of Platelet Alteration During Cardiopulmonary Bypass Operations

Peter Zilla 1, Roland Fasol 1, A Hammerle 1, S Yildiz 1, M Kadletz 1, Günther Laufer 1, Gregor Wollenek 1, R Seitelberger 1, M Deutsch 1
PMCID: PMC324688  PMID: 15227325

Abstract

Seventeen male patients undergoing cardiopulmonary bypass (CPBP) surgery for aorto-coronary bypass grafting were investigated by scanning electron microscopy (SEM) for alterations of the surface morphology of circulating platelets. An initial decline in the percentage of unactivated smooth discocytes (SD) to 87 ± 12% was found after thoracotomy. Three minutes after the onset of CPBP, the percentage of SD had dropped drastically to 59 ± 13%, and by the 8th minute of CPBP it had dropped to its lowest point (49 ± 19%). On the other hand, the percentage of shape-changed platelets (SC) increased to 17 ± 9% after 3 minutes, and the percentage of pseudopod discocytes (PD) to 25 ± 13% after 8 minutes.

Surprisingly, a remarkable recovery of platelet morphology could be observed after even 15 minutes of CPBP, and by the end of bypass 78 ± 15% of the circulating platelets had regained the smooth discoid (SD) appearance of unactivated platelets.

We conclude that this recovery of platelet morphology is due to an increasing insensitivity of the platelets to activating stimuli during the course of CPBP. Our study provides evidence that the only major platelet activation occurs during the first minutes of CPBP, and that CPBP-caused platelet activation is much less pronounced than generally believed. (Texas Heart Institute Journal 1987; 14:13-21)

Keywords: Cardiopulmonary bypass

Keywords: blood cells

Keywords: platelet aggregation

Keywords: microscopy, electron, scanning

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