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Biocompatible Electrical and Optical Interfaces for Implantable Sensors and Devices.

Yuxin WanCaiyi WangBingao ZhangYixuan LiuHailong YangFengyu LiuJing-Jing XuSheng-Yong Xu
Published in: Sensors (Basel, Switzerland) (2024)
Implantable bioelectronics hold tremendous potential in the field of healthcare, yet the performance of these systems heavily relies on the interfaces between artificial machines and living tissues. In this paper, we discuss the recent developments of tethered interfaces, as well as those of non-tethered interfaces. Among them, systems that study neural activity receive significant attention due to their innovative developments and high relevance in contemporary research, but other functional types of interface systems are also explored to provide a comprehensive overview of the field. We also analyze the key considerations, including perforation site selection, fixing strategies, long-term retention, and wireless communication, highlighting the challenges and opportunities with stable, effective, and biocompatible interfaces. Furthermore, we propose a primitive model of biocompatible electrical and optical interfaces for implantable systems, which simultaneously possesses biocompatibility, stability, and convenience. Finally, we point out the future directions of interfacing strategies.
Keyphrases
  • healthcare
  • high resolution
  • ionic liquid
  • drug release
  • gene expression
  • working memory
  • low cost
  • drug delivery
  • climate change
  • health insurance