按设计时间观察神经的组织学电脑图像并检测神经电生理指标和胫前肌重量。
According to the time of design, computer image of histology in nerve was observed, and electric physiological index of nerve and the weight of tibialis anterior muscle were detected.
术后1、2、3、4个月行肉眼观察并作肌电、组织学检测和图像分析。
The electrophysiological, histological studies and image analysis were performed at postoperative 1,2,3 and 4 month.
这表明在正确诊断尖锐湿疣时,凹空细胞核形态、组织学改变和特殊检测三者各起作用并彼此相关。
We found the respective roles of nuclear morphology, histopathological features and HPV detection and their close correlation in the correct diagnosis of ca.
术后2、4、6、8和12周后各组取出,观察形态学、组织学和免疫组织化学变化,并行短串联重复位点检测。
The morphological, histological, ultrastructure, and immunohistochemistry examinations were made and short tandem repeat loci were detected 2, 4, 6, 8, and 12 weeks later.
首先培养神经细胞,分别用1,2DCE、2 氯乙醛、2 氯乙醇对生长良好的神经细胞进行处理,然后做相应的组织学观察和生化检测。
Neurons and neuroglia cells were cultured and treated with 1,2 DCE and its metabolic products(2 chloroacetaldehyde and 2 chloroethanol ). The morphology and biochemical change were observed.
因此,将组织学病理变化和检测禽网状内皮组织增殖病病毒相结合可以作为实验室快速、准确诊断禽网状内皮组织增殖病的方法。
Pathological change of organization combined with REV examined by immunohistochemistry can be a measure to diagnose RE speedily and exactly in lab.
因此,将组织学病理变化和检测禽网状内皮组织增殖病病毒相结合可以作为实验室快速、准确诊断禽网状内皮组织增殖病的方法。
Pathological change of organization combined with REV examined by immunohistochemistry can be a measure to diagnose RE speedily and exactly in lab.
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