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首页> 外文期刊>Journal of Pharmacological and Toxicological Methods >Integration of cardiac energetics, function and histology from isolated rat hearts perfused with doxorubicin and doxorubicin-ol; a model for use in drug safety evaluations
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Integration of cardiac energetics, function and histology from isolated rat hearts perfused with doxorubicin and doxorubicin-ol; a model for use in drug safety evaluations

机译:与多柔比星和多柔比巴蛋白-LO-OL灌注孤立的大鼠心脏的心脏能量,功能和组织学的整合; 用于药物安全评估的模型

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The isolated rat heart (Langendorff) assay combined with NMR spectroscopy and histology were used to elucidate functional, metabolic, and histological signs of cardiotoxicity resulting from acute exposure to clinically relevant concentrations of doxorubicin and its metabolite dox-ol. Doxorubicin blood concentrations and pharmacokinetic parameters were assessed following a clinically relevant dose of 2?mg/kg in order to select concentrations for isolated heart perfusions. Isolated rat hearts were exposed to 1 or 10?μM of doxorubicin or 0.3?μM dox-ol for at least 60?min using the Langendorff perfusion method. Effects on heart function were monitored using ECGs, left ventricular contraction parameters, and microscopic histology. Cardiac energetics (PCr, ATP, and Pi) were evaluated before, during, and after exposure to doxorubicin/dox-ol in perfused hearts using NMR spectroscopy. Cardiac effects were evident following clinically relevant concentrations of doxorubicin and dox-ol in isolated rat hearts demonstrated by altered heart function, energetic reserve, and microscopic lesions. A cardiac stress test utilizing isoproterenol resulted in enhanced functional response and reductions in PCr in doxorubicinversusvehicle treated hearts indicating possible alterations in the isoproterenol mediated pathway. Dox-ol treated hearts were similar to control with regard to function, but exhibited histologic findings. The use of combined Langendorff/NMR/histology methodologies allowed for comparison of multiple indices of cardiac function at one time in which cardiac effects were evident in multiple parameters. Short abstractThe isolated rat heart assay combined with NMR spectroscopy and histology was used to elucidate functional, metabolic, and histological signs of cardiotoxicity resulting from acute exposure to clinically relevant concentrations of doxorubicin and its metabolite dox-ol. Heart function was altered and microscopic signs of toxicity were evident with dox and dox-ol exposures. The use of combined Langendorff/NMR/histology assays allowed for comparison of multiple indices of cardiac function at one time in which cardiac effects were evident in multiple parameters.
机译:分离的大鼠心脏(Langendorff)测定与NMR光谱和组织学相结合,用于阐明急性暴露于临床相关浓度的多柔比星及其代谢物DOX-OL所产生的心脏毒性的功能性,代谢和组织学标志。在临床相关剂量的2×mg / kg后评估多柔比星血液浓度和药代动力学参数,以便为分离的心脏灌注选择浓度。使用Langendorff灌注方法将分离的大鼠心暴露于1或10℃的多柔比星或0.3ΩμmOx-OL至少60℃。使用ECG,左心室收缩参数和微观组织学监测对心功能的影响。使用NMR光谱在灌注的心脏之前,期间,期间和之后评估心脏能量学(PCR,ATP和PI)。通过改变心脏功能,能量储备和微观病变证明的分离的大鼠心脏临床相关浓度的多柔比星和DOX-OL的临床相关浓度,心动效应明显。利用异丙肾上腺素的心脏胁迫试验导致多柔枯蛋白血糖处理的心脏中PCR的功能响应和减少,表明在异丙肾上腺素介导的途径中可能改变。 Dox-Ol治疗的心与功能相似,但表现出组织学发现。使用组合的Langendorff / NMR /组织学方法,允许在多个参数中进行心脏效应明显的一次心功能的多个心功能指标进行比较。简而言之,用急性暴露于临床相关浓度的多柔比星及其代谢物DOX-OL,使用突出的大鼠心脏测定与NMR光谱和组织学相结合的心脏毒性和组织学标志。随着DOX和DOX-OL暴露,心脏功能改变,毒性的显微镜迹象是明显的。使用组合的Langendorff / NMR /组织学测定允许在多次参数中进行心脏效应的一次性函数的多个心功能的比较。

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