Optimization of hybrid gelatin-polysaccharide bioinks exploiting thiol-norbornene chemistry using a reducing additive
Biomedical Materials (Bristol), ISSN: 1748-605X, Vol: 19, Issue: 2
2024
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Article Description
Thiol-norbornene chemistry offers great potential in the field of hydrogel development, given its step growth crosslinking mechanism. However, limitations exist with regard to deposition-based bioprinting of thiol-containing hydrogels, associated with premature crosslinking of thiolated (bio)polymers resulting from disulfide formation in the presence of oxygen. More specifically, disulfide formation can result in an increase in viscosity thereby impeding the printing process. In the present work, hydrogels constituting norbornene-modified dextran (DexNB) combined with thiolated gelatin (GelSH) are selected as case study to explore the potential of incorporating the reducing agent tris(2-carboxyethyl)phosphine (TCEP), to prevent the formation of disulfides. We observed that, in addition to preventing disulfide formation, TCEP also contributed to premature, spontaneous thiol-norbornene crosslinking without the use of UV light as evidenced via H-NMR spectroscopy. Herein, an optimal concentration of 25 mol% TCEP with respect to the amount of thiols was found, thereby limiting auto-gelation by both minimizing disulfide formation and spontaneous thiol-norbornene reaction. This concentration results in a constant viscosity during at least 24 h, a more homogeneous network being formed as evidenced using atomic force microscopy while retaining bioink biocompatibility as evidenced by a cell viability of human foreskin fibroblasts exceeding 70% according to ISO 10993-6:2016.
Bibliographic Details
http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=85184290386&origin=inward; http://dx.doi.org/10.1088/1748-605x/ad2211; http://www.ncbi.nlm.nih.gov/pubmed/38266277; https://iopscience.iop.org/article/10.1088/1748-605X/ad2211; https://dx.doi.org/10.1088/1748-605x/ad2211; https://validate.perfdrive.com/9730847aceed30627ebd520e46ee70b2/?ssa=63cb1008-f363-4dc5-b622-4326bc90a4d6&ssb=27823235783&ssc=https%3A%2F%2Fiopscience.iop.org%2Farticle%2F10.1088%2F1748-605X%2Fad2211&ssi=891d4334-cnvj-49fa-b3f2-582e6f87f600&ssk=botmanager_support@radware.com&ssm=78950270189315358264700212431946926&ssn=d3e08d77c4d5374bc471eb214579ee6b484f6db1c10c-a37a-41b2-b2e14e&sso=68789205-c45fe023bb497ea03805430c3a5291bf0972fdf3a75cb28b&ssp=32750777441723754116172449702260450&ssq=04410967339979226513931741601142515565618&ssr=MzQuMjM2LjI2LjMx&sst=com.plumanalytics&ssu=&ssv=&ssw=&ssx=eyJ1em14IjoiN2Y5MDAwYTI1MzhkOWUtZTQwNC00NDUyLTgxNjQtYzRmNzFjNGE4OTRmMTAtMTcyMzczMTc0MTI1NTc0MTY1ODY4Mi04YzU5MzYyM2EzMWRmMjQwMjY0NzAiLCJyZCI6ImlvcC5vcmciLCJfX3V6bWYiOiI3ZjYwMDA1NjQyMDdlYy1iZmUwLTQzM2UtYjQ1OC1hYjM1MTQ0YzcxMDcxNzIzNzMxNzQxMjU1NzQxNjU4NjgyLWY2NGJmYTU4ZDFlODc0NzAyNjQ3MCJ9
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