This state is called hibernating myocardium.
这种状态叫做冬眠心肌。
Objective: The effects of fructose 1, 6 diphosphate (FDP) on heart function and myocardial energy metabolism in acute hibernating myocardium were evaluated.
目的:观察果糖-1,6 -二磷酸(FDP)对急性冬眠心肌心功能和能量代谢的影响。
Conclusion DST impairs the balance between perfusion, metabolism and contraction of hibernating myocardium, leading to severe myocardial metabolic disorder.
结论DST使冬眠心肌灌注和收缩功能平衡失调而再出现代谢紊乱。
Hibernating myocardium has special characteristics in its evolution of concept, mechanisms, metabolism of energy substances as well as morphological alterations.
冬眠心肌在概念演变、发生机制、能量物质代谢及形态学改变方面都有其自身的特点。
Standard extracellular agents would also be preferable for discriminating nonviable from stunning and hibernating myocardium in cases of ischemic cardiomyopathy.
对于缺血性心肌病患者,标准的细胞外造影剂也能区分坏死心肌和顿抑心肌及冬眠心肌。
Conclusions: the results suggest that FDP may be helpful to the acute hibernating myocardium by increasing the creatine phosphate content and improve the diastolic function.
结论:FDP可增加急性冬眠心肌的磷酸肌酸含量,改善心肌舒张功能,对冬眠心肌起一定的保护作用。
GLUT4 expression in hibernating myocardium was higher than normal myocardium, and GLUT4 expression of various myocardial layers was inconsistent after coronary artery bypass surgery.
冬眠心肌中glut4的表达要明显高于正常心肌,GLUT4在搭桥后的冬眠心肌中的各层表达不一致。
GLUT4 expression in hibernating myocardium was higher than normal myocardium, and GLUT4 expression of various myocardial layers was inconsistent after coronary artery bypass surgery.
冬眠心肌中glut4的表达要明显高于正常心肌,GLUT4在搭桥后的冬眠心肌中的各层表达不一致。
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