Designing Silk Biomaterials toward Better Future Healthcare: The Development and Application of Silk‐Based Implantable Electronic Devices in Clinical Diagnosis and Therapy DOI Creative Commons
Qiying Lv, Qilin Li, Peng Cao

et al.

Advanced Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 17, 2024

Implantable medical electronic devices (IMEDs) have attracted great attention and shown versatility for solving clinical problems ranging from real-time monitoring of physiological/ pathological states to electrical stimulation therapy brain cell activity deep stimulation. The ongoing challenge is select appropriate materials in target device configuration biomedical applications. Currently, silk-based biomaterials been developed the design diagnostic therapeutic due their excellent properties abundant active sites structure. Herein, aim summarize structural characteristics, physicochemical properties, bioactivities natural silk as well derived materials, with a particular focus on implantable devices, such invasive brain-computer interfaces, neural recording, vivo electrostimulation. In addition, future opportunities challenges are also envisioned, hoping spark interests researchers interdisciplinary fields biomaterials, medicine, electronics.

Language: Английский

Silk fibroin for cosmetic dermatology DOI
Songjie Li, Han Chen,

Xin Dan

et al.

Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 159986 - 159986

Published: Jan. 1, 2025

Citations

1
Designing Silk Biomaterials toward Better Future Healthcare: The Development and Application of Silk‐Based Implantable Electronic Devices in Clinical Diagnosis and Therapy DOI Creative Commons
Qiying Lv, Qilin Li, Peng Cao

et al.

Advanced Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 17, 2024

Implantable medical electronic devices (IMEDs) have attracted great attention and shown versatility for solving clinical problems ranging from real-time monitoring of physiological/ pathological states to electrical stimulation therapy brain cell activity deep stimulation. The ongoing challenge is select appropriate materials in target device configuration biomedical applications. Currently, silk-based biomaterials been developed the design diagnostic therapeutic due their excellent properties abundant active sites structure. Herein, aim summarize structural characteristics, physicochemical properties, bioactivities natural silk as well derived materials, with a particular focus on implantable devices, such invasive brain-computer interfaces, neural recording, vivo electrostimulation. In addition, future opportunities challenges are also envisioned, hoping spark interests researchers interdisciplinary fields biomaterials, medicine, electronics.

Language: Английский

Citations

2