Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape

Yuting Cai; Qun Huang; Penghui Wang; Kaichuang Ye; Zhen Zhao; Haomin Chen; Zhenjing Liu; Hongwei Liu; Hoilun Wong; Mohsen Tamtaji; Kenan Zhang; Feng Xu; Guorui Jin; Lun Zeng; Jianbo Xie; Yucong Du; Zhigang Hu; Dazhi Sun; Jinbao Qin; Xinwu Lu; Zhengtang Luo

doi:10.1002/adhm.202200755

Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape

Yuting Cai
, Qun Huang
, Penghui Wang
, Kaichuang Ye
, Zhen Zhao
, Haomin Chen
, Zhenjing Liu
, Hongwei Liu
, Hoilun Wong
, Mohsen Tamtaji
, Kenan Zhang
, Feng Xu
, Guorui Jin
, Lun Zeng
, Jianbo Xie
, Yucong Du
, Zhigang Hu
, Dazhi Sun
, Jinbao Qin
, Xinwu Lu

Zhengtang Luo

School of Life Science and Technology (SLST)

Southern University of Science and Technology
Hong Kong University of Science and Technology
Shanghai Jiao Tong University
Korea Advanced Institute of Science and Technology
Guangzhou Baiyun Medical Adhesive Co. Ltd
Silver Age Engineering Plastics (Dongguan) Co. Ltd

Research output: Contribution to journal › Article › peer-review

54 Scopus citations

Abstract

Diabetic patients suffer from peripheral nerve injury with slow and incomplete regeneration owing to hyperglycemia and microvascular complications. This study develops a graphene-based nerve guidance conduit by incorporating natural double network hydrogel and a neurotrophic concentration gradient with non-invasive treatment for diabetics. GelMA/silk fibroin double network hydrogel plays quadruple roles for rapid setting/curing, suitable mechanical supporting, good biocompatibility, and sustainable growth factor delivery. Meanwhile, graphene mesh can improve the toughness of conduit and enhance conductivity of conduit for regeneration. Here, novel silk tapes show quick and tough adhesion of wet tissue by dual mechanism to replace suture step. The in vivo results demonstrate that gradient concentration of netrin-1 in conduit have better performance than uniform concentration caused by chemotaxis phenomenon for axon extension, remyelination, and angiogenesis. Altogether, GelMA/silk graphene conduit with gradient netrin-1 and dry double-sided adhesive tape can significantly promote repairing of peripheral nerve injury and inhibit the atrophy of muscles for diabetics.

Original language	English
Article number	2200755
Journal	Advanced Healthcare Materials
Volume	11
Issue number	16
DOIs	https://doi.org/10.1002/adhm.202200755
State	Published - 17 Aug 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 8 Decent Work and Economic Growth

Keywords

diabetes
growth factor gradients
nerve guidance conduits
non-suture
peripheral nerve regeneration

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10.1002/adhm.202200755

Cite this

Cai, Y., Huang, Q., Wang, P., Ye, K., Zhao, Z., Chen, H., Liu, Z., Liu, H., Wong, H., Tamtaji, M., Zhang, K., Xu, F., Jin, G., Zeng, L., Xie, J., Du, Y., Hu, Z., Sun, D., Qin, J., ... Luo, Z. (2022). Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape. Advanced Healthcare Materials, 11(16), Article 2200755. https://doi.org/10.1002/adhm.202200755

@article{01c3b6a5044b4276ad56f8ef9faf195b,

title = "Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape",

abstract = "Diabetic patients suffer from peripheral nerve injury with slow and incomplete regeneration owing to hyperglycemia and microvascular complications. This study develops a graphene-based nerve guidance conduit by incorporating natural double network hydrogel and a neurotrophic concentration gradient with non-invasive treatment for diabetics. GelMA/silk fibroin double network hydrogel plays quadruple roles for rapid setting/curing, suitable mechanical supporting, good biocompatibility, and sustainable growth factor delivery. Meanwhile, graphene mesh can improve the toughness of conduit and enhance conductivity of conduit for regeneration. Here, novel silk tapes show quick and tough adhesion of wet tissue by dual mechanism to replace suture step. The in vivo results demonstrate that gradient concentration of netrin-1 in conduit have better performance than uniform concentration caused by chemotaxis phenomenon for axon extension, remyelination, and angiogenesis. Altogether, GelMA/silk graphene conduit with gradient netrin-1 and dry double-sided adhesive tape can significantly promote repairing of peripheral nerve injury and inhibit the atrophy of muscles for diabetics.",

keywords = "diabetes, growth factor gradients, nerve guidance conduits, non-suture, peripheral nerve regeneration",

author = "Yuting Cai and Qun Huang and Penghui Wang and Kaichuang Ye and Zhen Zhao and Haomin Chen and Zhenjing Liu and Hongwei Liu and Hoilun Wong and Mohsen Tamtaji and Kenan Zhang and Feng Xu and Guorui Jin and Lun Zeng and Jianbo Xie and Yucong Du and Zhigang Hu and Dazhi Sun and Jinbao Qin and Xinwu Lu and Zhengtang Luo",

note = "Publisher Copyright: {\textcopyright} 2022 Wiley-VCH GmbH.",

year = "2022",

month = aug,

day = "17",

doi = "10.1002/adhm.202200755",

language = "英语",

volume = "11",

journal = "Advanced Healthcare Materials",

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Cai, Y, Huang, Q, Wang, P, Ye, K, Zhao, Z, Chen, H, Liu, Z, Liu, H, Wong, H, Tamtaji, M, Zhang, K, Xu, F , Jin, G, Zeng, L, Xie, J, Du, Y, Hu, Z, Sun, D, Qin, J, Lu, X & Luo, Z 2022, 'Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape', Advanced Healthcare Materials, vol. 11, no. 16, 2200755. https://doi.org/10.1002/adhm.202200755

TY - JOUR

T1 - Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape

AU - Cai, Yuting

AU - Huang, Qun

AU - Wang, Penghui

AU - Ye, Kaichuang

AU - Zhao, Zhen

AU - Chen, Haomin

AU - Liu, Zhenjing

AU - Liu, Hongwei

AU - Wong, Hoilun

AU - Tamtaji, Mohsen

AU - Zhang, Kenan

AU - Xu, Feng

AU - Jin, Guorui

AU - Zeng, Lun

AU - Xie, Jianbo

AU - Du, Yucong

AU - Hu, Zhigang

AU - Sun, Dazhi

AU - Qin, Jinbao

AU - Lu, Xinwu

AU - Luo, Zhengtang

PY - 2022/8/17

Y1 - 2022/8/17

N2 - Diabetic patients suffer from peripheral nerve injury with slow and incomplete regeneration owing to hyperglycemia and microvascular complications. This study develops a graphene-based nerve guidance conduit by incorporating natural double network hydrogel and a neurotrophic concentration gradient with non-invasive treatment for diabetics. GelMA/silk fibroin double network hydrogel plays quadruple roles for rapid setting/curing, suitable mechanical supporting, good biocompatibility, and sustainable growth factor delivery. Meanwhile, graphene mesh can improve the toughness of conduit and enhance conductivity of conduit for regeneration. Here, novel silk tapes show quick and tough adhesion of wet tissue by dual mechanism to replace suture step. The in vivo results demonstrate that gradient concentration of netrin-1 in conduit have better performance than uniform concentration caused by chemotaxis phenomenon for axon extension, remyelination, and angiogenesis. Altogether, GelMA/silk graphene conduit with gradient netrin-1 and dry double-sided adhesive tape can significantly promote repairing of peripheral nerve injury and inhibit the atrophy of muscles for diabetics.

AB - Diabetic patients suffer from peripheral nerve injury with slow and incomplete regeneration owing to hyperglycemia and microvascular complications. This study develops a graphene-based nerve guidance conduit by incorporating natural double network hydrogel and a neurotrophic concentration gradient with non-invasive treatment for diabetics. GelMA/silk fibroin double network hydrogel plays quadruple roles for rapid setting/curing, suitable mechanical supporting, good biocompatibility, and sustainable growth factor delivery. Meanwhile, graphene mesh can improve the toughness of conduit and enhance conductivity of conduit for regeneration. Here, novel silk tapes show quick and tough adhesion of wet tissue by dual mechanism to replace suture step. The in vivo results demonstrate that gradient concentration of netrin-1 in conduit have better performance than uniform concentration caused by chemotaxis phenomenon for axon extension, remyelination, and angiogenesis. Altogether, GelMA/silk graphene conduit with gradient netrin-1 and dry double-sided adhesive tape can significantly promote repairing of peripheral nerve injury and inhibit the atrophy of muscles for diabetics.

KW - diabetes

KW - growth factor gradients

KW - nerve guidance conduits

KW - non-suture

KW - peripheral nerve regeneration

UR - https://www.scopus.com/pages/publications/85132169780

U2 - 10.1002/adhm.202200755

DO - 10.1002/adhm.202200755

M3 - 文章

C2 - 35670309

AN - SCOPUS:85132169780

SN - 2192-2640

VL - 11

JO - Advanced Healthcare Materials

JF - Advanced Healthcare Materials

IS - 16

M1 - 2200755

ER -

Conductive Hydrogel Conduits with Growth Factor Gradients for Peripheral Nerve Repair in Diabetics with Non-Suture Tape

Abstract

UN SDGs

Keywords

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