Your search keyword '"Hu, Buwei"' showing total 6 results

1. Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration.

Author

Choi, Yeon Sik, Hsueh, Yuan-Yu, Koo, Jahyun, Yang, Quansan, Avila, Raudel, Hu, Buwei, Xie, Zhaoqian, Lee, Geumbee, Ning, Zheng, Liu, Claire, Xu, Yameng, Lee, Young Joong, Zhao, Weikang, Fang, Jun, Deng, Yujun, Lee, Seung Min, Vázquez-Guardado, Abraham, Stepien, Iwona, Yan, Ying, Song, Joseph W, Haney, Chad, Oh, Yong Suk, Liu, Wentai, Yoon, Hong-Joon, Banks, Anthony, MacEwan, Matthew R, Ameer, Guillermo A, Ray, Wilson Z, Huang, Yonggang, Xie, Tao, Franz, Colin K, Li, Song, and Rogers, John A

Subjects

Muscle, Skeletal, Sciatic Nerve, Animals, Humans, Rats, Disease Models, Animal, Polyurethanes, Electric Stimulation Therapy, Materials Testing, Absorbable Implants, Regeneration, Female, Wireless Technology, Peripheral Nerve Injuries, Muscle, Skeletal, Disease Models, Animal

Abstract

Bioresorbable electronic stimulators are of rapidly growing interest as unusual therapeutic platforms, i.e., bioelectronic medicines, for treating disease states, accelerating wound healing processes and eliminating infections. Here, we present advanced materials that support operation in these systems over clinically relevant timeframes, ultimately bioresorbing harmlessly to benign products without residues, to eliminate the need for surgical extraction. Our findings overcome key challenges of bioresorbable electronic devices by realizing lifetimes that match clinical needs. The devices exploit a bioresorbable dynamic covalent polymer that facilitates tight bonding to itself and other surfaces, as a soft, elastic substrate and encapsulation coating for wireless electronic components. We describe the underlying features and chemical design considerations for this polymer, and the biocompatibility of its constituent materials. In devices with optimized, wireless designs, these polymers enable stable, long-lived operation as distal stimulators in a rat model of peripheral nerve injuries, thereby demonstrating the potential of programmable long-term electrical stimulation for maintaining muscle receptivity and enhancing functional recovery.

Published

2020

2. Author Correction: Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration

Author

Choi, Yeon Sik, Hsueh, Yuan-Yu, Koo, Jahyun, Yang, Quansan, Avila, Raudel, Hu, Buwei, Xie, Zhaoqian, Lee, Geumbee, Ning, Zheng, Liu, Claire, Xu, Yameng, Lee, Young Joong, Zhao, Weikang, Fang, Jun, Deng, Yujun, Lee, Seung Min, Vázquez-Guardado, Abraham, Stepien, Iwona, Yan, Ying, Song, Joseph W., Haney, Chad, Oh, Yong Suk, Liu, Wentai, Yoon, Hong-Joon, Banks, Anthony, MacEwan, Matthew R., Ameer, Guillermo A., Ray, Wilson Z., Huang, Yonggang, Xie, Tao, Franz, Colin K., Li, Song, and Rogers, John A.

Published

2021

3. An Overall Analysis of Risk and Risk Mane

Author

Hu, Buwei, primary and Shen, Siqi, additional

Published

2023

4. Mechanical Cues Regulate Histone Modifications and Cell Behavior

Author

Hu, Buwei, primary, Zhou, Dandan, additional, Wang, Haoming, additional, Hu, Ning, additional, and Zhao, Weikang, additional

Published

2022

5. Swin-HSTPS: Research on Target Detection Algorithms for Multi-Source High-Resolution Remote Sensing Images

Author

Fang, Kun, primary, Ouyang, Jianquan, additional, and Hu, Buwei, additional

Published

2021

6. Pen-strep influence macrophage mechanical property and mechano-response to microenvironment

Author

Zhao, Weikang, primary, Hu, Buwei, additional, Zhang, Xuexiang, additional, and Wang, Pingping, additional

Published

2020