B(12)-mediated, long wavelength photopolymerization of hydrogels

B(12)-mediated, long wavelength photopolymerization of hydrogels

Medical hydrogel applications have expanded rapidly over the past decade. Implantation in patients by noninvasive injection is preferred, but this requires hydrogel solidification from a low viscosity solution to occur in vivo via an applied stimuli. Transdermal photo-cross-linking of acrylated biop...

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Veröffentlicht in:Journal of the American Chemical Society 2015-03, Vol.137 (9), p.3372-3378
Hauptverfasser: Rodgers, Zachary L, Hughes, Robert M, Doherty, Laura M, Shell, Jennifer R, Molesky, Brian P, Brugh, Alexander M, Forbes, Malcolm D E, Moran, Andrew M, Lawrence, David S
Format: Artikel
Sprache:eng
Schlagworte:
Acrylates - chemistry
Cell Survival
Hep G2 Cells
Humans
Hydrogels - chemistry
Light
Materials Testing - methods
Melanins - chemistry
Photochemistry - methods
Photolysis
Polyethylene Glycols - chemistry
Polymerization
Propane - analogs & derivatives
Propane - chemistry
Skin
Vitamin B 12 - chemistry
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Zusammenfassung:Medical hydrogel applications have expanded rapidly over the past decade. Implantation in patients by noninvasive injection is preferred, but this requires hydrogel solidification from a low viscosity solution to occur in vivo via an applied stimuli. Transdermal photo-cross-linking of acrylated biopolymers with photoinitiators and lights offers a mild, spatiotemporally controlled solidification trigger. However, the current short wavelength initiators limit curing depth and efficacy because they do not absorb within the optical window of tissue (600-900 nm). As a solution to the current wavelength limitations, we report the development of a red light responsive initiator capable of polymerizing a range of acrylated monomers. Photoactivation occurs within a range of skin type models containing high biochromophore concentrations.
ISSN:1520-5126
DOI:10.1021/jacs.5b00182