The stunned myocardium: effect of electrical and mechanical arrest and osmolarity

doi:https://doi.org/10.1152/ajpheart.1988.255.1.h60

Article10.1152/ajpheart.1988.255.1.h60

The stunned myocardium: effect of electrical and mechanical arrest and osmolarity

W. G. Nayler,J. S. Elz,Darren J. Buckley-1988-07-01-American Journal of Physiology-Heart and Circulatory Physiology

17

TL;DRAbstract

After relatively short periods of ischemia, reperfusion for several hours, or even days, is required to facilitate complete recovery of the ATP stores and mechanical function. The term "stunned" has been applied to these hearts. In the present experiments, isolated, spontaneously beating and electrically paced rat hearts were made ischemic for 10 min and then reperfused with Krebs-Henseleit buffer (KH) for up to 30 min. On reperfusion, functional recovery was impaired and the inotropic effect of Ca2+ blunted. In these experiments, the effect of a period of electrical and/or mechanical quiescence before the ischemic episode was investigated. Electrical quiescence was obtained by raising the KH K+ concentration, whereas mechanical without electrical quiescence was obtained by lowering the KH Ca2+ concentration or adding 2,3-butanedione monoxime (BDM). Mechanical arrest caused by low Ca2+ perfusion before ischemia failed to improve functional recovery on reperfusion. However, introducing

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After relatively short periods of ischemia, reperfusion for several hours, or even days, is required to facilitate complete recovery of the ATP stores and mechanical function. The term "stunned" has been applied to these hearts. In the present experiments, isolated, spontaneously beating and electrically paced rat hearts were made ischemic for 10 min and then reperfused with Krebs-Henseleit buffer (KH) for up to 30 min. On reperfusion, functional recovery was impaired and the inotropic effect of Ca2+ blunted. In these experiments, the effect of a period of electrical and/or mechanical quiescence before the ischemic episode was investigated. Electrical quiescence was obtained by raising the KH K+ concentration, whereas mechanical without electrical quiescence was obtained by lowering the KH Ca2+ concentration or adding 2,3-butanedione monoxime (BDM). Mechanical arrest caused by low Ca2+ perfusion before ischemia failed to improve functional recovery on reperfusion. However, introducing

Keywords

IschemiaOsmotic concentrationInotropePerfusionStunningInternal medicineReperfusion injuryMedicine

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