我们能重建它们吗?2010年后的仿生学

Maysam Ghovanloo, T. Denison
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引用次数: 1

摘要

“仿生学”和“神经假肢”这两个术语可以理解地激发了工程师们的想象力。然而,通常情况下,这种迷恋更多地来自科幻小说,而不是现实中未满足的临床需求和设计仿生系统的实际技术问题。然而,这一领域并非所有的工作都是科幻小说,与临床研究人员和科学家合作的工程师已经在慢性疾病的治疗方面实现了几个里程碑。也许仿生系统最成功的例子是人工耳蜗,到目前为止,它已经帮助超过15万名患者恢复了一定程度的听力。另一个活跃的领域是神经调节,针对特定神经回路的神经刺激剂被用于治疗各种疾病,包括帕金森氏病、失禁和强迫症。显然,在适当的情况下,将硅电路连接到患者的神经回路可能会产生深远的影响。
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ES6: Can we rebuild them? bionics beyond 2010
The terms “bionics” and “neuroprosthesis” understandably capture the engineers' imagination. Oftentimes, however, this fascination results more from science fiction than actual facts on the reality of unmet clinical needs and the real technical issues of designing a bionic system. Yet not all work in this field is sci-fi, and engineers working with clinical researchers and scientists have realized several milestones in the treatment of chronic diseases. Perhaps the most successful example of a bionic system is the cochlear prosthesis, which has helped restore a measure of hearing in over 150,000 patients, so far. Another active field is neuromodulation, where neurostimulators targeting specific neural circuits are being applied as a therapy for a variety of diseases including Parkinson's disease, incontinence, and obsessive compulsive disorder. Clearly, in the proper context, interfacing silicon circuits to the patients' neural circuits may achieve profound effects.
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