Literature DB >> 23420700

Gelatin-methacrylamide hydrogels as potential biomaterials for fabrication of tissue-engineered cartilage constructs.

Wouter Schuurman1, Peter A Levett, Michiel W Pot, Paul René van Weeren, Wouter J A Dhert, Dietmar W Hutmacher, Ferry P W Melchels, Travis J Klein, Jos Malda.   

Abstract

Gelatin-methacrylamide (gelMA) hydrogels are shown to support chondrocyte viability and differentiation and give wide ranging mechanical properties depending on several cross-linking parameters. Polymer concentration, UV exposure time, and thermal gelation prior to UV exposure allow for control over hydrogel stiffness and swelling properties. GelMA solutions have a low viscosity at 37 °C, which is incompatible with most biofabrication approaches. However, incorporation of hyaluronic acid (HA) and/or co-deposition with thermoplastics allows gelMA to be used in biofabrication processes. These attributes may allow engineered constructs to match the natural functional variations in cartilage mechanical and geometrical properties.
Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

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Year:  2013        PMID: 23420700     DOI: 10.1002/mabi.201200471

Source DB:  PubMed          Journal:  Macromol Biosci        ISSN: 1616-5187            Impact factor:   4.979


  129 in total

Review 1.  Cell-laden hydrogels for osteochondral and cartilage tissue engineering.

Authors:  Jingzhou Yang; Yu Shrike Zhang; Kan Yue; Ali Khademhosseini
Journal:  Acta Biomater       Date:  2017-01-11       Impact factor: 8.947

2.  Structural analysis of photocrosslinkable methacryloyl-modified protein derivatives.

Authors:  Kan Yue; Xiuyu Li; Karsten Schrobback; Amir Sheikhi; Nasim Annabi; Jeroen Leijten; Weijia Zhang; Yu Shrike Zhang; Dietmar W Hutmacher; Travis J Klein; Ali Khademhosseini
Journal:  Biomaterials       Date:  2017-05-29       Impact factor: 12.479

3.  A multimaterial bioink method for 3D printing tunable, cell-compatible hydrogels.

Authors:  Alexandra L Rutz; Kelly E Hyland; Adam E Jakus; Wesley R Burghardt; Ramille N Shah
Journal:  Adv Mater       Date:  2015-01-16       Impact factor: 30.849

4.  Enhanced bone tissue regeneration using a 3D printed microstructure incorporated with a hybrid nano hydrogel.

Authors:  Dong Nyoung Heo; Nathan J Castro; Se-Jun Lee; Hanaul Noh; Wei Zhu; Lijie Grace Zhang
Journal:  Nanoscale       Date:  2017-04-20       Impact factor: 7.790

5.  The applicability of furfuryl-gelatin as a novel bioink for tissue engineering applications.

Authors:  Shweta AnilKumar; Shane C Allen; Nishat Tasnim; Tahmina Akter; Shinhye Park; Alok Kumar; Munmun Chattopadhyay; Yoshihiro Ito; Laura J Suggs; Binata Joddar
Journal:  J Biomed Mater Res B Appl Biomater       Date:  2018-04-15       Impact factor: 3.368

6.  Crosslinkable hydrogels derived from cartilage, meniscus, and tendon tissue.

Authors:  Jetze Visser; Peter A Levett; Nikae C R te Moller; Jeremy Besems; Kristel W M Boere; Mattie H P van Rijen; Janny C de Grauw; Wouter J A Dhert; P René van Weeren; Jos Malda
Journal:  Tissue Eng Part A       Date:  2015-02-09       Impact factor: 3.845

7.  The Effects of ROCK Inhibition on Mesenchymal Stem Cell Chondrogenesis Are Culture Model Dependent.

Authors:  Courtney Gegg; Fan Yang
Journal:  Tissue Eng Part A       Date:  2019-09-20       Impact factor: 3.845

Review 8.  Advances in engineering hydrogels.

Authors:  Yu Shrike Zhang; Ali Khademhosseini
Journal:  Science       Date:  2017-05-05       Impact factor: 47.728

Review 9.  Biofabrication for osteochondral tissue regeneration: bioink printability requirements.

Authors:  Saba Abdulghani; Pedro G Morouço
Journal:  J Mater Sci Mater Med       Date:  2019-01-28       Impact factor: 3.896

10.  Engineering alginate as bioink for bioprinting.

Authors:  Jia Jia; Dylan J Richards; Samuel Pollard; Yu Tan; Joshua Rodriguez; Richard P Visconti; Thomas C Trusk; Michael J Yost; Hai Yao; Roger R Markwald; Ying Mei
Journal:  Acta Biomater       Date:  2014-07-01       Impact factor: 8.947
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