小脑损伤可能连带影响运动机能。
Damage to the cerebellum can disrupt motor activity in other ways.
小脑损伤时,窦性心动过速的发生高于大脑及其它部位的病变。
In acute cerebellar stroke, sinus tachycardia was more freqently present than damage in other parts of the brain (p<0.02).
听力的保留与肿瘤大小、术前听力水平、肿瘤内听道底侵蚀、小脑损伤相关。
Hearing preservation was correlation to tumor size, preoperative hearing level, internal auditory canal fundus destroying and cerebellum damaging.
在随访中,最初先兆头痛一个月发作一次或多次的女性有明显较高的小脑损伤风险,这些损伤好像是缺血性栓塞。
At the follow-up, women who originally reported having migrainewith aura once or more a month had a significantly higher riskof having lesions in the cerebellum that appeared to be ischemicinfarcts.
缩短伤后手术时间,采用标准大骨瓣减压,是降低重型颅脑损伤小脑幕裂孔疝的病死率的关键。
It is also essential to have a prompt operation after injury and employ standard mega-bone flap craniotomy decompression for reducing fatality rate.
探讨小脑幕裂孔切开术在救治重度颅脑损伤合并颞叶钩回疝的作用。
To explore the effect of tentorium cerebelli hiatus incision of severe brain injury complicated from tentorial herniation.
方法:对急诊手术救治的80例重型颅脑损伤小脑幕裂孔疝的病死率进行统计学分析。
Methods: 80 emergency cases of severe craniocerebral injury complicated with tentorium cerebelli hiatus hernia were included in this study for statistical analysis on fatality rate.
目的:探讨重型颅脑损伤并嵌顿性小脑幕切迹疝病人的救治疗效。
Objective: to find out the approach for treating severe craniocerebral trauma patients complicated with incarcerated tentorial herniation.
目的:探讨重型颅脑损伤小脑幕裂孔疝手术救治的预后的影响因素。
Objective: to discuss the prognosis of involved factors in treatment of severe craniocerebral injury complicated with tentorium cerebelli hiatus hernia by surgery.
目的:利用N -甲基- D -天门冬氨酸(NMDA)损伤小脑颗粒神经元的模型,探讨IL - 6对神经损伤的保护作用,为临床上应用细胞因子防治脑损伤提供新思路。
Objective: by using a cellular model to acute damage to cultured cerebellar granule neurons induced by N-methyl-D-aspartate (NMDA) to explore neuroprotective effect of IL-6.
目的:利用N -甲基- D -天门冬氨酸(NMDA)损伤小脑颗粒神经元的模型,探讨IL - 6对神经损伤的保护作用,为临床上应用细胞因子防治脑损伤提供新思路。
Objective: by using a cellular model to acute damage to cultured cerebellar granule neurons induced by N-methyl-D-aspartate (NMDA) to explore neuroprotective effect of IL-6.
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