摘要
为了能够精确地建立轻、中、重液压冲击分级脑损伤动物模型,我们设计了侧位液压冲击脑损伤装置。该装置由不锈钢储液管、压缩空气、减压设备及计算机等组成,可以精确地控制冲击气压的大小、记录冲击时脑组织所承受的压力、显示压力曲线、液压冲击后可以迅速释放系统内的压力,国内、外均未见报道。侧位液压冲击脑损伤随冲击压力的增加而加重,以冲击侧大脑半球为最重,也可波及对侧及脑底部。
For the purpose of studing the molecular mechanism of the traumatic brain injury, we have established a reproducible graded lateral fluid percussion model of experimental brain injury in the rat with a modified fluid percussion device. The device consists of a stainless steel cylindrical reservoir instead of the plexiglass reservoir, a steel reservior filled with compressed gas instead of the pendulum for making more accurate percussion pressure, an apparatus for releasing the pressure immediately after the percussion, and a computer for recording and storing the percusion data. Pathologic examination demonstrated subdural hemorrhage, subarachnoid hemorrhage, and hemorrhage in the lateral ventricle and corpus callosum on the percussion side. The severity of pathologic changes increased with the magnitude of percussion. The results indicate that the new device could inflict reproducible graded lateral fluid percussion brain injury on rats and the model can be used for the studies of neuropathologic and molecular mechanism of brain injury.
出处
《华西医科大学学报》
CSCD
1999年第4期363-367,共5页
Journal of West China University of Medical Sciences
基金
国家自然科学基金!(批准号39770815)