[HTML][HTML] Anisotropic scaffolds for peripheral nerve and spinal cord regeneration

W Xue, W Shi, Y Kong, M Kuss, B Duan - Bioactive materials, 2021 - Elsevier
The treatment of long-gap (> 10 mm) peripheral nerve injury (PNI) and spinal cord injury
(SCI) remains a continuous challenge due to limited native tissue regeneration capabilities …

Advances in 3D printing scaffolds for peripheral nerve and spinal cord injury repair

J Song, B Lv, W Chen, P Ding… - International Journal of …, 2023 - iopscience.iop.org
Because of the complex nerve anatomy and limited regeneration ability of natural tissue, the
current treatment effect for long-distance peripheral nerve regeneration and spinal cord …

A review of organic and inorganic biomaterials for neural interfaces

P Fattahi, G Yang, G Kim, MR Abidian - Advanced materials, 2014 - Wiley Online Library
Recent advances in nanotechnology have generated wide interest in applying
nanomaterials for neural prostheses. An ideal neural interface should create seamless …

Natural polymer‐derived bioscaffolds for peripheral nerve regeneration

H Zhang, J Guo, Y Wang, L Shang… - Advanced Functional …, 2022 - Wiley Online Library
In recent decades, artificial nerve scaffolds have become a promising substitute for
peripheral nerve repair. Considerable efforts have been devoted to improving the …

Trends in the design of nerve guidance channels in peripheral nerve tissue engineering

V Chiono, C Tonda-Turo - Progress in neurobiology, 2015 - Elsevier
The current trend of peripheral nerve tissue engineering is the design of advanced nerve
guidance channels (NGCs) acting as physical guidance for regeneration of nerves across …

Aligned PLLA nanofibrous scaffolds coated with graphene oxide for promoting neural cell growth

K Zhang, H Zheng, S Liang, C Gao - Acta biomaterialia, 2016 - Elsevier
The graphene oxide (GO) has attracted tremendous attention in biomedical fields. In order to
combine the unique physicochemical properties of GO nanosheets with topological structure …

[HTML][HTML] Neural tissue engineering with structured hydrogels in CNS models and therapies

J George, CC Hsu, LTB Nguyen, H Ye, Z Cui - Biotechnology advances, 2020 - Elsevier
The development of techniques to create and use multiphase microstructured hydrogels
(granular hydrogels or microgels) has enabled the generation of cultures with more …

Bioactive injectable hydrogels for on demand molecule/cell delivery and for tissue regeneration in the central nervous system

MA Grimaudo, GS Krishnakumar, E Giusto, F Furlani… - Acta biomaterialia, 2022 - Elsevier
Currently there are no potential curative therapies that can improve the central nervous
system (CNS) regeneration after traumatic injuries or diseases. Indeed, the regeneration of …

Biomaterials for the development of peripheral nerve guidance conduits

AR Nectow, KG Marra, DL Kaplan - Tissue Engineering Part B …, 2012 - liebertpub.com
Currently, surgical treatments for peripheral nerve injury are less than satisfactory. The gold
standard of treatment for peripheral nerve gaps> 5 mm is the autologous nerve graft; …

Effect of modulating macrophage phenotype on peripheral nerve repair

N Mokarram, A Merchant, V Mukhatyar, G Patel… - Biomaterials, 2012 - Elsevier
Peripheral nerve repair across long gaps remains clinically challenging despite progress
made with autograft transplantation. While scaffolds that present trophic factors and …