A facile method to fabricate versatile keratin cryogels for tissue engineering applications
Human hair keratin (HHK) has been extensively explored as a biomaterial for soft tissue regeneration due to their excellent bioactivity and biocompatibility. The possibility to fabricate HHK into three-dimensional (3D) hydrogels with physical properties resembling soft tissues has been well demonstr...
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sg-ntu-dr.10356-1748672024-04-19T15:59:53Z A facile method to fabricate versatile keratin cryogels for tissue engineering applications Zhao, Zhitong Chua, Huei Min Lai, Hui Ying Ng, Kee Woei School of Materials Science and Engineering Skin Research Institute of Singapore (SRIS) Nanyang Environment and Water Research Institute Engineering Human hair keratin Oxidative dopamine Cryogels Tuneable mechanical properties Sustainable biomaterials Human hair keratin (HHK) has been extensively explored as a biomaterial for soft tissue regeneration due to their excellent bioactivity and biocompatibility. The possibility to fabricate HHK into three-dimensional (3D) hydrogels with physical properties resembling soft tissues has been well demonstrated. However, conventional keratin hydrogels often exhibit a dense architecture that could hinder cell filtration. In the present study, HHK-based cryogels were fabricated using a freeze-thaw method, where oxidized dopamine (ODA) was employed to covalently crosslink thiol/amine rich-keratin molecules at sub-zero temperatures. The obtained HHK-ODA cryogels have micron-sized pores ranging between 100-200 µm and mechanical properties that can be tuned by varying the crosslinking density between ODA and HHK. Through optimization of the weight content of ODA and the number of freeze-thaw cycles, the compressive strengths and stiffnesses of these cryogels achieved 15-fold increments from ~1.5 kPa to ~22 kPa and ~300 Pa to ~5000 Pa, respectively. The HHK-ODA cryogels competently supported human dermal fibroblast spreading and proliferation. Overall, this study exhibited a facile method to fabricate mechanically superior keratin-based cryogels with cell compatible microarchitecture, circumventing the need for complicated chemical modifications and the use of cytotoxic crosslinkers. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version This research is supported by the Agency for Science, Technology and Research (A∗ STAR) under its Wound Care Innovation for the Tropics IAF-PP (H17/01/a0/0L9) and the Ministry of Education, Singapore, (AcRF Tier 1: RT10/20, RG7/22). 2024-04-17T05:21:55Z 2024-04-17T05:21:55Z 2024 Journal Article Zhao, Z., Chua, H. M., Lai, H. Y. & Ng, K. W. (2024). A facile method to fabricate versatile keratin cryogels for tissue engineering applications. Biomedical Materials, 19(2), 025048-. https://dx.doi.org/10.1088/1748-605X/ad2a3f 1748-6041 https://hdl.handle.net/10356/174867 10.1088/1748-605X/ad2a3f 2 19 025048 en H17/01/a0/0L9 RT10/20 RG7/22 Biomedical Materials © 2024 IOP Publishing Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1088/1748-605X/ad2a3f. application/pdf |
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Singapore Singapore |
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| language |
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| topic |
Engineering Human hair keratin Oxidative dopamine Cryogels Tuneable mechanical properties Sustainable biomaterials |
| spellingShingle |
Engineering Human hair keratin Oxidative dopamine Cryogels Tuneable mechanical properties Sustainable biomaterials Zhao, Zhitong Chua, Huei Min Lai, Hui Ying Ng, Kee Woei A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| description |
Human hair keratin (HHK) has been extensively explored as a biomaterial for soft tissue regeneration due to their excellent bioactivity and biocompatibility. The possibility to fabricate HHK into three-dimensional (3D) hydrogels with physical properties resembling soft tissues has been well demonstrated. However, conventional keratin hydrogels often exhibit a dense architecture that could hinder cell filtration. In the present study, HHK-based cryogels were fabricated using a freeze-thaw method, where oxidized dopamine (ODA) was employed to covalently crosslink thiol/amine rich-keratin molecules at sub-zero temperatures. The obtained HHK-ODA cryogels have micron-sized pores ranging between 100-200 µm and mechanical properties that can be tuned by varying the crosslinking density between ODA and HHK. Through optimization of the weight content of ODA and the number of freeze-thaw cycles, the compressive strengths and stiffnesses of these cryogels achieved 15-fold increments from ~1.5 kPa to ~22 kPa and ~300 Pa to ~5000 Pa, respectively. The HHK-ODA cryogels competently supported human dermal fibroblast spreading and proliferation. Overall, this study exhibited a facile method to fabricate mechanically superior keratin-based cryogels with cell compatible microarchitecture, circumventing the need for complicated chemical modifications and the use of cytotoxic crosslinkers. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Zhao, Zhitong Chua, Huei Min Lai, Hui Ying Ng, Kee Woei |
| format |
Article |
| author |
Zhao, Zhitong Chua, Huei Min Lai, Hui Ying Ng, Kee Woei |
| author_sort |
Zhao, Zhitong |
| title |
A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| title_short |
A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| title_full |
A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| title_fullStr |
A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| title_full_unstemmed |
A facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| title_sort |
facile method to fabricate versatile keratin cryogels for tissue engineering applications |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174867 |
| _version_ |
1800916117127954432 |