All cases were under deep hypothermia with low flow rate.
手术均在深低温低流量体外循环下进行。
The operation was performed under deep hypothermia and extracorporeal circulation with low flow perfusion.
手术采用胸骨正中切口在体外循环深低温低流量灌注下施行。
The electroencephalogram ( EEG) was observed underwent deep hypothermia and low-flow cardiopulmonary bypass.
本实验通过脑电图观察体外循环深低温低流量灌注下的变化。
OBJECTIVE To study the safe low perfusion flow and duration for deep hypothermia cardiopulmonary bypass in infants.
目的探讨婴幼儿深低温低流量体外循环的安全灌注流量及时间。
Objective To study the feasibility of resuscitation after selective cerebral ultra-deep hypothermia and blood flow occlusion.
目的探讨猴脑选择性超深低温断血流复苏的可行性。
METHODS Deep hypothermia low flow rate (DHLF) were used during CPB, 4:1 cold blood hyperkalemic cardioplegia were used in all patients.
方法CPB采用深低温低流量(DHLF),心肌保护为4:1高钾含血停搏液灌注。
Methods 36 cases used method of deep hypothermia and total circulatory arrest. 29 cases used method of deep circulatory and low flow perfusion.
方法36例使用深低温停循环方法,29例使用深低温低流量方法。
Controversy exists over the operation for closure of complicated patent ductus arteriosus (PDA) under cardiopulmonary bypass (CPB) with deep hypothermia and low perfusion flow.
关于重症复杂型动脉导管未闭(PDA)是否应在深低温低流量体外循环下行闭合手术,尚有争议。
Conclusion: Deep hypothermia has a more efficient protection than low-grade and moderate hypothermia. There is a correlation between protective degree and hypothermic depth in spinal ischemic injury.
结论:与轻、中度低温相比,深度低温对脊髓缺血损伤的保护作用更显著,局部低温的深度与大鼠脊髓缺血损伤保护程度呈正相关。
Conclusion: Deep hypothermia has a more efficient protection than low-grade and moderate hypothermia. There is a correlation between protective degree and hypothermic depth in spinal ischemic injury.
结论:与轻、中度低温相比,深度低温对脊髓缺血损伤的保护作用更显著,局部低温的深度与大鼠脊髓缺血损伤保护程度呈正相关。
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