1. BBB scoring of motor function of hindlimb of rats.
大鼠后肢运动功能BBB评分测定结果。
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2. It had asymmetric flight feathers not only on the forelimb, but on the hindlimb as well.
它已非对称飞羽不仅对前肢,但对后肢以及。
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3. Observed the capillary filling of hindlimb far-end, recorded the time of ischemia and reperfusion.
观察实验侧足趾末梢毛细血管充盈情况,记录缺血和再灌注时间。
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4. The second part of this study observed the effects of EPCs to athymic nude mice with hindlimb ischemia.
本研究的第二部分观察了培养的EPC对裸鼠后肢缺血模型的作用。
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5. Conclusion Transplantation of autologous PBSC is a simple and effective therapy for the ischemia hindlimb.
结论自体外周血干细胞移植是一种方法简便、安全有效的治疗下肢缺血性疾病的方法。
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6. After the stimulation, convulsion of 100% seizure in rats occurred by the rigidity of double hindlimb as index.
刺激后大鼠100%惊厥发作,以双后肢强直为指标。
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7. Objective: to understand how to exactly evaluate the BBB scales of hindlimb movements in spinal cord injury of rats.
目的探讨大鼠脊髓损伤后和修复中如何评估大鼠后肢运动的BBB评分。
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8. Objective To investigate changes induced by hindlimb unloading in morphology of nerve endings in soleus muscle spindles.
目的观察后肢去负荷对大鼠比目鱼肌肌梭神经末梢形态的影响。
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9. Conclusion implantation of autologous bone marrow stem cells was a simple and efficient therapy method in the ischemia hindlimb.
结论自体骨髓干细胞移植可望成为一种简单的、有效的治疗下肢缺血的方法。
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10. Methods: These drugs were separately applied onto the surface of the medulla, causing the rat to scratch the ipsilateral face with hindlimb.
方法:在大鼠脊髓表面使用此两种药物,引发后肢搔抓运动。
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11. Weights were taken daily, and the hindlimb function was tested daily after tumor implantation by using the Basso-Beattie-Bresnahan BB scale score range 1-21.
12. The blood supply system of the extensor digitorum longus tendon in the rabbit hindlimb is observed by the aid of dye injection technique and dissecting microscope.
13. Also this tiger was monster, armed with primate-like ears, downward canines, tremendous tail and a un-jointed hindlimb. Inset: the details in the region of snout of poster tiger.
而且,这个老虎是一个拥有灵长类耳朵、倒立犬牙、巨大尾巴和无关节后腿的怪物。
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14. Conclusion Hindlimb unloading may lead to regression of bone microstructure, change of bone local growth factor content, reduction of bone biomechanical properties and bone content.
结论去负荷导致骨显微结构退化,骨局部因子含量改变,骨强度和骨量减少。
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15. Conclusion Hindlimb unloading may lead to regression of bone microstructure, change of bone local growth factor content, reduction of bone biomechanical properties and bone content.
