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Article type: Research Article
Authors: Lee, Ming-Yih; | Tsai, Wen-Wei | Chen, His-Jung | Chen, Jyh-Ping | Chen, Chih-Hao | Yeh, Wen-Lin | An, Jia
Affiliations: Graduate Institute of Medical Mechatronics, Chang Gung University, Taiwan, ROC | Department of Chemical and Materials Engineering, Chang Gung University, Taiwan, ROC | Plastic and Reconstructive Surgery, Chang Gung Memorial Hospital, Taiwan, ROC | Department of Orthopedics, Chang Gung Memorial Hospital – Taoyuan Branch, Taiwan, ROC | School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore
Note: [] Address for correspondence: Ming-Yih Lee, 259 Wen-Hwa 1st Road, Kwei-Shan Tao-Yuan, Taiwan, 333, ROC. Tel.: +886 3 2118800; Fax: +886 3 2118700; E-mail: [email protected]
Abstract: The aim of this study is to evaluate a soft/hard bi-phase scaffold for cartilage tissue engineering. Chondrocyte proliferation, glycoaminoglycan production and total collagen content are compared between laser-sintered porous polycaprolactone (PCL) scaffolds with and without a thermoresponsive hydrogel grafted with hyaluronic acid and gelatin. The in vitro results show that scaffolds loaded with hydrogel have a higher initial chondrocyte attachment than PCL scaffolds. At day 21 and 28, scaffolds loaded with hydrogel have a significantly higher glycosaminoglycan (GAG) production than PCL scaffolds alone, and total collagen content including collagen type II in the hydrogel-loaded group is three times higher than the group without hydrogel. It is concluded that the laser-sintered porous PCL scaffold has good cytocompatibility, and that the hydrogel phase is able to enhance initial chondrocytes attachment as well as GAG and collagen production of chondrocytes. This study suggests that a soft/hard bi-phase scaffold may be used for cartilage tissue engineering to enhance in vitro chondrogenesis.
Keywords: Rapid prototyping, selective laser sintering, thermoresponsive hydrogel, cartilage tissue engineering, chondrocyte, hyaluronic acid, gelatin
DOI: 10.3233/BME-130767
Journal: Bio-Medical Materials and Engineering, vol. 23, no. 6, pp. 533-543, 2013
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