高血压性脑损伤中脑水肿的扩散。

Medical biology Pub Date : 1986-01-01
H Kalimo, K Fredriksson, C Nordborg, R N Auer, Y Olsson, B Johansson
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引用次数: 0

摘要

人类严重的高血压可导致脑血管纤维蛋白样坏死,伴小出血和囊性坏死。在卒中易发自发性高血压大鼠(SHRSP)实验模型中也报道了类似的病变。我们研究了SHRSP脑水肿的发生和扩散模式。用Evans-Blue法或免疫过氧化物酶法观察血浆蛋白外渗情况。最常见的渗漏发生在大脑皮层或基底神经节的灰质。其扩散模式与血管源性脑水肿一致,局部分布于灰质,广泛分布于白质。此外,我们还发现了一条新的途径,沿着贯穿血管的血管周围空间向上延伸,并向外侧延伸至颅底下区。这条通道也可能作为水肿进入蛛网膜下腔脑脊液的引流通道。还观察到外渗蛋白从白质转移到脑室,证实了先前描述的水肿液溶解途径存在于血管源性脑水肿的SHRSP模型中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The spread of brain oedema in hypertensive brain injury.

Severe hypertension in humans may lead to fibrinoid necroses of cerebral blood vessels with small hemorrhages and cystic necroses. Similar lesions have also been reported in the experimental model of stroke-prone spontaneously hypertensive rats (SHRSP). We examined the genesis and spreading pattern of the brain oedema in SHRSP. The extravasation of plasma proteins was visualized with the Evans-Blue or the immunoperoxidase method. Most commonly the leakage occurred in the grey matter of the cerebral cortex or basal ganglia. The spreading pattern followed that of vasogenic brain oedema with a local spread in the grey matter and an extensive one in the white matter. In addition, we detected a novel pathway upwards along the perivascular spaces of the penetrating vessels as well as laterally in the subpial zone. This route is likely to serve also as a drainage channel for the oedema into the cerebrospinal fluid in the subarachnoidal space. Transfer of the extravasated proteins from the white matter to the ventricles was also observed, confirming that this previously described pathway for the resolution of oedema fluid exists in the SHRSP model of vasogenic brain oedema.

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