Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring
Hydrogels have a wide range of applications in tissue engineering, drug delivery, device fabrication for biological studies and stretchable electronics. For biomedical applications, natural polymeric hydrogels have general advantages such as biodegradability and non-toxic by products as well as bioc...
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sg-ntu-dr.10356-1623602022-10-22T23:31:20Z Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring Panwar, Amit Sk, Md Moniruzzaman Lee, Bae Hoon Tan, Lay Poh School of Materials Science and Engineering Singapore Centre for 3D Printing Engineering::Materials Polymeric Hydrogels Ureidopyrimidinones Hydrogels have a wide range of applications in tissue engineering, drug delivery, device fabrication for biological studies and stretchable electronics. For biomedical applications, natural polymeric hydrogels have general advantages such as biodegradability and non-toxic by products as well as biocompatibility. However, applications of nature derived hydrogels have been severely limited by their poor mechanical properties. For example, most of the protein derived hydrogels do not exhibit high stretchability like methacrylated gelatin hydrogel has ∼11% failure strain when stretched. Moreover, protein derived elastomeric hydrogels that are fabricated from low molecular weight synthetic peptides require a laborious process of synthesis and purification. Biopolymers like gelatin, produced in bulk for pharma and the food industry can provide an alternative for the development of elastomeric hydrogels. Here, we report the synthesis of ureidopyrimidinone (Upy) functionalized gelatin and its fabrication into soft elastomeric hydrogels through supramolecular interactions that could exhibit high failure strain (318.73 ± 44.35%). The hydrogels were fabricated through a novel method involving co-solvent optimization and structural transformation with 70% water content. It is anticipated that the hydrogel fabrication method involves the formation of hydrophobic cores of ureidopyrimidinone groups inside the hydrogel which introduced elastomeric properties to the resulting hydrogel. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University Published version The authors acknowledge the financial support provided by Ministry of Education, Singapore, Singapore Centre for 3D Printing (SC3DP), A*STAR (Singapore Food Story R&D Programme), and School of Material Sciences and Engineering, Nanyang Technological University, Singapore. 2022-10-17T02:35:51Z 2022-10-17T02:35:51Z 2022 Journal Article Panwar, A., Sk, M. M., Lee, B. H. & Tan, L. P. (2022). Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring. RSC Advances, 12(13), 7922-7934. https://dx.doi.org/10.1039/d1ra09084d 2046-2069 https://hdl.handle.net/10356/162360 10.1039/d1ra09084d 35424739 2-s2.0-85127516383 13 12 7922 7934 en RSC Advances © 2022 The Author(s). Published by the Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence. application/pdf |
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Engineering::Materials Polymeric Hydrogels Ureidopyrimidinones Panwar, Amit Sk, Md Moniruzzaman Lee, Bae Hoon Tan, Lay Poh Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| description |
Hydrogels have a wide range of applications in tissue engineering, drug delivery, device fabrication for biological studies and stretchable electronics. For biomedical applications, natural polymeric hydrogels have general advantages such as biodegradability and non-toxic by products as well as biocompatibility. However, applications of nature derived hydrogels have been severely limited by their poor mechanical properties. For example, most of the protein derived hydrogels do not exhibit high stretchability like methacrylated gelatin hydrogel has ∼11% failure strain when stretched. Moreover, protein derived elastomeric hydrogels that are fabricated from low molecular weight synthetic peptides require a laborious process of synthesis and purification. Biopolymers like gelatin, produced in bulk for pharma and the food industry can provide an alternative for the development of elastomeric hydrogels. Here, we report the synthesis of ureidopyrimidinone (Upy) functionalized gelatin and its fabrication into soft elastomeric hydrogels through supramolecular interactions that could exhibit high failure strain (318.73 ± 44.35%). The hydrogels were fabricated through a novel method involving co-solvent optimization and structural transformation with 70% water content. It is anticipated that the hydrogel fabrication method involves the formation of hydrophobic cores of ureidopyrimidinone groups inside the hydrogel which introduced elastomeric properties to the resulting hydrogel. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Panwar, Amit Sk, Md Moniruzzaman Lee, Bae Hoon Tan, Lay Poh |
| format |
Article |
| author |
Panwar, Amit Sk, Md Moniruzzaman Lee, Bae Hoon Tan, Lay Poh |
| author_sort |
Panwar, Amit |
| title |
Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| title_short |
Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| title_full |
Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| title_fullStr |
Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| title_full_unstemmed |
Synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| title_sort |
synthesis and fabrication of gelatin-based elastomeric hydrogels through cosolvent-induced polymer restructuring |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162360 |
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1749179207293861888 |