TY - JOUR
T1 - Thermoresponsive hydrogels as a new ocular drug delivery platform to the posterior segment of the eye
AU - Kang Derwent, Jennifer J.
AU - Mieler, William F.
PY - 2008
Y1 - 2008
N2 - Purpose: To characterize thermoresponsive hydrogels (liquids at room temperature, gels at body temperature) as a novel drug delivery platform to the posterior segment. Methods: Thermoresponsive hydrogels were synthesized using poly(N-isopropylacrylamide) (PNIPAAm), cross-linked with poly(ethylene glycol) diacrylate (PEG-DA). Proteins were then encapsulated into the hydrogels, including bovine serum albumin (BSA), immunoglobulin G (IgG), and, finally, bevacizumab and ranibiumab. By varying the degree of cross-linker density, the rate of protein release could be adjusted. The rate of release was assessed at various time points with Bradford assay, and the bioactivity of the released anti-vascular endothelial growth factor agents was studied in an in vitro cell culture assay. Results: Cross-linked PNIPAAm hydrogel exhibited a fast and reversible phase change with alteration in temperature. The rate of protein release was examined as a function of cross-link density. Release profiles of the proteins showed that there was an initial burst of release within 48 hours, and then a steady state was reached, which was sustained for approximately 3 weeks. Hydrogels with less cross-linking showed faster release and yielded a more pliable gel for intravitreal injection via small-gauge needles. Examination of the gels after the release experiment revealed significant residual entrapped protein. Conclusion: Thermoresponsive hydrogels were successfully synthesized and exhibited fast and reversible phase changes. The gel was able to encapsulate and release various proteins. Current formulation of the gel will be modified to extend the release time and to be made fully biodegradable. Thermoresponsive hydrogels appear to be a promising, minimally invasive platform for extended drug delivery to the posterior segment.
AB - Purpose: To characterize thermoresponsive hydrogels (liquids at room temperature, gels at body temperature) as a novel drug delivery platform to the posterior segment. Methods: Thermoresponsive hydrogels were synthesized using poly(N-isopropylacrylamide) (PNIPAAm), cross-linked with poly(ethylene glycol) diacrylate (PEG-DA). Proteins were then encapsulated into the hydrogels, including bovine serum albumin (BSA), immunoglobulin G (IgG), and, finally, bevacizumab and ranibiumab. By varying the degree of cross-linker density, the rate of protein release could be adjusted. The rate of release was assessed at various time points with Bradford assay, and the bioactivity of the released anti-vascular endothelial growth factor agents was studied in an in vitro cell culture assay. Results: Cross-linked PNIPAAm hydrogel exhibited a fast and reversible phase change with alteration in temperature. The rate of protein release was examined as a function of cross-link density. Release profiles of the proteins showed that there was an initial burst of release within 48 hours, and then a steady state was reached, which was sustained for approximately 3 weeks. Hydrogels with less cross-linking showed faster release and yielded a more pliable gel for intravitreal injection via small-gauge needles. Examination of the gels after the release experiment revealed significant residual entrapped protein. Conclusion: Thermoresponsive hydrogels were successfully synthesized and exhibited fast and reversible phase changes. The gel was able to encapsulate and release various proteins. Current formulation of the gel will be modified to extend the release time and to be made fully biodegradable. Thermoresponsive hydrogels appear to be a promising, minimally invasive platform for extended drug delivery to the posterior segment.
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M3 - Article
C2 - 19277236
AN - SCOPUS:63049131601
VL - 106
SP - 206
EP - 213
JO - Transactions of the American Ophthalmological Society
JF - Transactions of the American Ophthalmological Society
ER -