Objective To Study on muscle transplantation of reinnervation.
目的探讨移植肌肉、重建神经支配。
Objective To study the impact of nerve repair mode on reinnervation.
目的进一步探讨神经缝合修复方式对神经再生的影响。
Targeted reinnervation involves rerouting nerves that originally controlled the missing limb.
定向神经再支配涉及将原来控制四肢的神经进行重新关联。
Conclusion IL-1 can enhance the regeneration of peripheral nerve and functional reinnervation of regenerated nerve.
结论IL - 1具有促进周围神经再生及神经功能恢复的作用。
These results demonstrate a correlation between an improvement in behavior and the degree of reinnervation in the cerebellum.
这些结果证实了行为能力上的提高和小脑的神经移植术程度之间的关联。
But there is a way to overcome both these difficulties with motorised limbs, using a technique called "targeted reinnervation".
但是有一个方法可以克服机动假臂的这两个难题——利用一种叫做定向神经移植的技术。
Objective To compare the effects of laryngeal framework surgery and reinnervation in the treatment of unilateral paralysis vocal fold .
目的研究单侧声带麻痹的合适手术治疗方法及其疗效的客观评价。
The first example of sensory reinnervation actually happened by accident back in 2003, when the surgery was first performed, says Ms Schultz.
Schultz小姐说,第一个感受神经移植的案例事实上是在2003年一次偶然事件中发生的,那时是第一次做这样的手术。
OBJECTIVE:To study neck muscles, laryngeal arteries and veins of rat, and to discuss vascularized and reinnervation model for rat laryngeal transplantation.
目的:观察和研究大鼠颈部肌肉、喉的动脉、静脉及神经支配,探讨喉移植血管、神经的选择及吻合模式。
Conclusion:The axonal reinnervation of sensory nerve endings from the proximal stump to distal implanted nerve in end-to-side nerve neurorrhaphy is feasible.
结论:兔耳大神经端侧吻合植入失神经皮瓣后,供神经的轴突能长入神经移植体,并最终形成具有功能的感觉未梢。
The peripheral nervous system has the intrinsic capacity to regenerate but the reinnervation of muscles is often suboptimal and results in limited recovery of function.
外周神经系统本身具有再生的能力,但肌肉中神经支配的恢复常常不理想,结果限制了肌肉功能的恢复。
Successful reinnervation of one sacral nerve has been shown to allow voluntary eliciting of a detrusor contraction; however, its efficacy is expected to be limited by several facts.
现已表明,某条骶神经重建成功后可主动引发逼尿肌收缩。然而,受几项因素限制,其预期功效是有限的。
Simultaneous reinnervation of MPG and EUS by one group of somatic motor neurons may be the major neural anatomy infrastructure for controllable voiding via the somatic-autonomic reflex arc.
躯体运动神经元同时支配MPG和EUS可能是人工体神经内脏神经反射弧控制排尿的主要神经解剖学基础。
Simultaneous reinnervation of MPG and EUS by one group of somatic motor neurons may be the major neural anatomy infrastructure for controllable voiding via the somatic-autonomic reflex arc.
躯体运动神经元同时支配MPG和EUS可能是人工体神经内脏神经反射弧控制排尿的主要神经解剖学基础。
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