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Related Experiment Video

Updated: Sep 21, 2025

Bioelectric Analyses of an Osseointegrated Intelligent Implant Design System for Amputees
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Semi-Implantable Bioelectronics.

Jiaru Fang1, Shuang Huang1, Fanmao Liu1

  • 1State Key Laboratory of Optoelectronic Materials and Technologies, Guangdong Province Key Laboratory of Display Material and Technology, School of Electronics and Information Technology, Sun Yat-Sen University, Guangzhou, 510006, People's Republic of China.

Nano-Micro Letters
|May 28, 2022
PubMed
Summary
This summary is machine-generated.

Semi-implantable bioelectronics offers advanced real-time monitoring and regulation for biological systems. This review highlights design, fabrication, and application strategies for minimally invasive bioelectronic devices.

Keywords:
Cell applicationsIn vivo applicationsSemi-implantable bioelectronics

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Area of Science:

  • Biomedical Engineering
  • Bioelectronics
  • Materials Science

Background:

  • Real-time monitoring and regulation of biological systems are crucial for applications like drug delivery and electrophysiology.
  • Semi-implantable bioelectronics is an emerging research area, bridging non-invasive and fully implantable approaches.
  • This technology enables precise detection/regulation and external integration of complex functionalities.

Purpose of the Study:

  • To review recent progress in semi-implantable bioelectronics.
  • To define and summarize the concept of "Semi-implantable bioelectronics".
  • To discuss principles, strategies, methodologies, biosafety, and applications.

Main Methods:

  • Literature review of recent advancements in semi-implantable bioelectronics.
  • Summarization of design principles, materials, and fabrication techniques.
  • Analysis of cell/tissue penetration, biosafety, and application strategies.

Main Results:

  • Semi-implantable bioelectronics provides a unique platform for biochips and smart wearables.
  • Methodologies for accessing intracellular and in vivo environments are discussed.
  • Key aspects of biosafety and diverse applications are explored.

Conclusions:

  • Semi-implantable bioelectronics is vital for future minimally invasive biomedical applications.
  • Understanding design, fabrication, and penetration is essential for device development.
  • This review provides a comprehensive overview for researchers in the field.