Conclusion The factors for reducing the mortality of children's acute brain edema were:(1) Early diagnosis and treatment;
结论降低小儿急性脑水肿病死率与下列因素有关:①早期诊断及治疗;
Conclusion AQP-4 contributed to brain edema formation in the acute brain hemorrhage of human.
结论A Q P - 4参与了人类急性脑出血脑水肿的形成。
Objective to explore the mechanism of brain edema and its influential factors after the treatment in acute extradural hematoma and the indications of bony decompression.
目的探讨急性硬膜外血肿患者术后脑水肿发生的机制及其影响因素和术中去骨瓣减压的指征。
The disturbance of circulation in brain is the basic pathological change of acute intracranial hemorrhage. It is followed by cerebral edema and increased intracranial pressure.
脑血流循环障碍是急性脑出血的基本病理改变,一旦发生脑水肿、颅内压增高等会随之而产生。
The article expounds the pathophysiological mechanisms of brain edema formation after acute stroke and the common treatments for brain edema at present.
文章阐述了急性卒中后脑水肿形成的病理生理学机制以及目前治疗脑水肿的常用方法。
The histological and Ultrastructural changes in a model of acute traumatic brain edema in rats are presented in this paper.
本文报道了大鼠急性创伤性脑水肿模型的光镜和电镜改变。
Conclusion MMP-9 is activated in the brain after CH, contributed to brain edema formation in the acute phase of the CH. MMP-2 is contributed to the rehabilitation of the brain injury.
结论脑出血后出血侧血肿边缘有MMP- 9、MMP- 2表达,推测MMP- 9在急性期参与了脑水肿的形成,而MMP- 2在脑出血后期可能参与了脑组织的修复。
Objective: To research the influence of control factor in rats with brain edema after acute intracerebral hemorrhage treated by scalp penetration acupuncture.
目的:通过头穴透刺对脑出血大鼠模型治疗的实验研究,探讨针刺对脑水肿调控因素影响的机制。
To observe the improvement effects and the effect 8mechanism of Naoshuning prescription against the impairment of nervous function and brain edema in rats with acute brain hemorrhage rats.
观察脑疏宁对脑出血急性期大鼠的神经功能缺损、脑水肿的改善作用及其作用机制。
To study the types and rules of brain edema after acute closed traumatic brain injury (TBI) in cats, using diffusion-weighted imaging (DWI).
建立猫急性闭合性脑创伤性(TBI)模型,并应用弥散加权成像(DWI)探讨伤后脑水肿类型及演变规律。
To study the types and rules of brain edema after acute closed traumatic brain injury (TBI) in cats, using diffusion-weighted imaging (DWI).
建立猫急性闭合性脑创伤性(TBI)模型,并应用弥散加权成像(DWI)探讨伤后脑水肿类型及演变规律。
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