ACS applied materials & interfaces, volume 8, issue 37, pages 24415-24425

Superabsorbent 3D Scaffold Based on Electrospun Nanofibers for Cartilage Tissue Engineering.

Weiming Chen ¹

Shuai Chen ²

Yos Morsi ^{3, 4}

Mohamed El Newhy ^{3, 4}

Cun-Yi Fan ²

Xiumei Mo ¹

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Chemistry, Chemical Engineering and Biotechnology, Donghua University, Shanghai 201620, China |

Department of Orthopaedics, Shanghai Jiao Tong University Affiliated Sixth People’s Hospital, 600 Yishan Road, Shanghai 200233, China |

Department of Chemistry, College of Science, King Saud University, Riyadh 11451, Kingdom of Saudi Arabia |

⁴

Department of Chemistry, Faculty of Science, Tanta University, Tanta 31527, Egypt |

Publication type: Journal Article

Publication date: 2016-08-31

American Chemical Society (ACS)

Journal: ACS applied materials & interfaces

scimago Q1

SJR: 2.058

CiteScore: 16.0

Impact factor: 8.3

ISSN: 19448244, 19448252

DOI: 10.1021/acsami.6b06825

Copy DOI

General Materials Science

Abstract

Electrospun nanofibers have been used for various biomedical applications. However, electrospinning commonly produces two-dimensional (2D) membranes, which limits the application of nanofibers for the 3D tissue engineering scaffold. In the present study, a porous 3D scaffold (3DS-1) based on electrospun gelatin/PLA nanofibers has been prepared for cartilage tissue regeneration. To further improve the repairing effect of cartilage, a modified scaffold (3DS-2) cross-linked with hyaluronic acid (HA) was also successfully fabricated. The nanofibrous structure, water absorption, and compressive mechanical properties of 3D scaffold were studied. Chondrocytes were cultured on 3D scaffold, and their viability and morphology were examined. 3D scaffolds were also subjected to an in vivo cartilage regeneration study on rabbits using an articular cartilage injury model. The results indicated that 3DS-1 and 3DS-2 exhibited superabsorbent property and excellent cytocompatibility. Both these scaffolds present elastic property in the wet state. An in vivo study showed that 3DS-2 could enhance the repair of cartilage. The present 3D nanofibrous scaffold (3DS-2) would be promising for cartilage tissue engineering application.

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