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Bioinspired Prosthetic Interfaces
Advanced Materials Technologies ( IF 6.4 ) Pub Date : 2020-02-04 , DOI: 10.1002/admt.201900856 Pengju Li 1 , Hashina Parveen Anwar Ali 1 , Wen Cheng 1 , Jingyi Yang 1 , Benjamin C. K. Tee 1, 2, 3, 4
Advanced Materials Technologies ( IF 6.4 ) Pub Date : 2020-02-04 , DOI: 10.1002/admt.201900856 Pengju Li 1 , Hashina Parveen Anwar Ali 1 , Wen Cheng 1 , Jingyi Yang 1 , Benjamin C. K. Tee 1, 2, 3, 4
Affiliation
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Mechanical replacement prosthetics have advanced in both esthetics and mechanical functions, but still require progress in attaining full natural functionality via tactile feedback. Through bioinspiration of the somatosensory system, recent works in the development of materials and technologies at three critical interfaces have shown great advancements: skin‐inspired multifunctionality at the prosthetic level using flexible electronics, artificial transmission of the biosignals between the prosthesis and nervous system, and stimulation and recording of these signals with mechanically compliant, implantable neural interfaces. Herein, a systematic study of the artificial skin sensation pathways for the prosthetic interfaces is discussed together with the current state‐of‐the‐art technologies and prospective strategies to enable the complete sensory feedback loop in prosthetics through the use of biomimetic sensing platforms, artificial synapses, and neural interrogation electronics.
中文翻译:
受生物启发的假肢界面
机械替代假体在美学和机械功能上都已经取得了进步,但是仍然需要通过触觉反馈获得完全自然功能的进步。通过体感系统的生物启发,在三个关键界面的材料和技术开发方面的最新工作显示出了巨大的进步:使用柔性电子设备在人工水平上从皮肤启发了多功能,在人工神经和人工神经系统之间人工传递生物信号,以及通过机械兼容的可植入神经接口刺激和记录这些信号。在这里
更新日期:2020-03-09
中文翻译:
受生物启发的假肢界面
机械替代假体在美学和机械功能上都已经取得了进步,但是仍然需要通过触觉反馈获得完全自然功能的进步。通过体感系统的生物启发,在三个关键界面的材料和技术开发方面的最新工作显示出了巨大的进步:使用柔性电子设备在人工水平上从皮肤启发了多功能,在人工神经和人工神经系统之间人工传递生物信号,以及通过机械兼容的可植入神经接口刺激和记录这些信号。在这里
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