Direct and interactive effects of cardioplegic arrest and protamine on myocyte contractility

Autor:	S J, O, M H, Cox, R, Mukherjee, M J, Clair, F A, Crawford, F G, Spinale
Rok vydání:	1996
Předmět:	Male Microscopy Swine Myocardium Video Recording Heparin Antagonists Myocardial Contraction Ventricular Function Left Body Temperature Culture Media Hypothermia Induced Heart Arrest Induced Image Processing Computer-Assisted Potassium Animals Female Protamines Rewarming Cardioplegic Solutions Cells Cultured
Zdroj:	The Annals of thoracic surgery. 62(2)
ISSN:	0003-4975
Popis:	Cardioplegic arrest with rewarming and protamine administration have been implicated in causing transient left ventricular dysfunction perioperatively. However, whether interactive effects between cardioplegic arrest and rewarming with protamine occur with respect to myocyte contractile processes remains unclear. Accordingly, using an isolated myocyte model, the present study tested the hypothesis that simulated cardioplegic arrest with rewarming and protamine would have direct and interactive effects on myocyte contractile function.Left ventricular isolated myocyte contractile function was examined using computer-aided videomicroscopy under normothermic conditions (37 degrees C, cell medium; n = 183) and after simulated hypothermic, hyperkalemic cardioplegic arrest with rewarming (4 degrees C, 24 mEq/L K+, 2 hours; then 37 degrees C, cell medium, 5 minutes; n = 268). Myocyte function was then examined in the presence of protamine (10 to 40 micrograms/mL) under normothermic conditions (n = 102) and after cardioplegic arrest with rewarming (n = 175).Myocyte contractile function decreased by 43% from baseline after simulated cardioplegic arrest with rewarming. Under normothermic conditions, protamine (20 micrograms/mL) reduced myocyte contractile function by 43.9% +/- 4.3%, whereas myocyte contractile function decreased by only 31.1% +/- 2.7% with protamine (20 micrograms/mL) after cardioplegic arrest with rewarming. Thus, the negative effects of protamine on myocyte contractility were attenuated after cardioplegic arrest when compared with normothermic conditions.The present study demonstrated that simulated cardioplegic arrest with rewarming and protamine have direct and interactive effects on myocyte contractile function, which are not additive or synergistic.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=pmid________::ff2a3d99266bd62e45abeebd73baaffb https://pubmed.ncbi.nlm.nih.gov/8694611 Zobrazit plný text záznamu