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Glucose-Responsive Injectable Thermogels via Dynamic-Covalent Cross-Linking of Pluronic Micelles.

Authors :
Xian S
VandenBerg MA
Xiang Y
Yu S
Webber MJ
Source :
ACS biomaterials science & engineering [ACS Biomater Sci Eng] 2022 Nov 14; Vol. 8 (11), pp. 4873-4885. Date of Electronic Publication: 2022 Nov 01.
Publication Year :
2022

Abstract

Stimuli-responsive hydrogels are an area of active discovery for approaches to deliver therapeutics in response to disease-specific indicators. Glucose-responsive delivery of insulin is of particular interest in better managing diabetes. Accordingly, hydrogels have been explored as platforms that enable both a rate and dose of insulin release aligning with the real-time physiological disease state; materials often include glucose sensing by dynamic-covalent cross-linking between phenylboronic acids (PBAs) and diols, with competition from ambient glucose reducing cross-link density of the material and accelerating release of encapsulated insulin. Yet, these materials historically have challenges with insulin leakage, offer limited glucose-responsive release of the insulin payload, and require unreasonably high injection pressures for syringe administration. Here, a thermogel platform prepared from temperature-induced micelles formed into a network by PBA-Diol cross-linking is optimized using a formulation-centered approach to maximize glucose-responsive insulin delivery. Importantly, the dual-responsive nature of this platform enables a low-viscosity sol at ambient temperature for facile injection, solidifying into a stable viscoelastic hydrogel network once in the body. The final optimized formulation affords acceleration in insulin release in response to glucose and enables single dose blood glucose control in diabetic rodents when subjected to multiple glucose challenges.

Details

Language :
English
ISSN :
2373-9878
Volume :
8
Issue :
11
Database :
MEDLINE
Journal :
ACS biomaterials science & engineering
Publication Type :
Academic Journal
Accession number :
36317822
Full Text :
https://doi.org/10.1021/acsbiomaterials.2c00979