这种神经假体(neuralprosthesis)或许某一天能够用于促进记忆形成的过程并帮助患者记忆。
Such a “neural prosthesis” could someday be used to facilitate the memory-forming process and help patients remember.
因此,应用微机电系统技术制备的可植入神经假体治疗周围性神经损伤疾病在动物研究和临床工作得到进一步的深入。
Therefore, embedding nerve prosthesis prepared by micro electronic mechanical system (MEMS) technique as treatment for peripheral nerve damage has been dug deeper in animal and clinical study.
这个神经系统使研究者更加接近人脑与电脑之间的结合,它将使假肢和其它假体器具与人完全成为一个整体。
Such a system may even bring researchers closer to brain-computer interfaces that seamlessly integrate artificial limbs or other prosthetic devices.
这个想法是为了视网膜假体释放神经递质根据空间和时间控制方式,因此刺激神经细胞。
The idea is for the retina prostheses to release neurotransmitters according to spatially and temporally controlled patterns and thus stimulate the nerve cells.
假体压配式固定避免了螺钉的使用,因为其会导致血管神经损伤以及螺钉和臼杯磨损的风险。
Press-fit components avoid the need for screw placement, which carries the added risks of neurovascular injury and fretting wear between screw and shell.
椎体之间撑开,以缓解受累神经根的压迫并接纳假体。
The vertebral bodies are spred apart to relieve the pressure on the pinched nerve root and to accept the prosthesis.
结果患者术后平均随访14.6个月,均无感染、神经损伤和假体周围骨折及假体松动、脱位等并发症。
Results All cases were followed up for 14.6 months. No infection, neural injury, prosthesis adjacent fracture, prosthesis looseness or dislocation was found.
探讨视觉假体微电极芯片植入视神经的相对安全区,为临床视神经手术提供解剖学依据。
To investigate the relatively safe area of implanting vision prosthesis microelectrode to optic nerve, and to provide anatomic data for operations of optic nerve.
另外两种视觉假体是视皮层视觉假体与视神经视觉假体。
The other two visual prostheses are optic nerve visual prosthesis and cortex visual prosthesis.
另外两种视觉假体是视皮层视觉假体与视神经视觉假体。
The other two visual prostheses are optic nerve visual prosthesis and cortex visual prosthesis.
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