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Gelatin-Alginate Coacervates Optimized by DOE to Improve Delivery of bFGF for Wound Healing

Byung-Wook Kim, Eunmi Ban, Aeri Kim

2021Pharmaceutics12 citationsDOIOpen Access PDF

Abstract

Metabolic disorders in diabetic patients are associated with altered protein and lipid metabolism and defects in granulation tissue formation, resulting in non-healing wounds such as diabetic foot ulcers (DFU). Growth factors have essential roles in tissue re-epithelization and angiogenesis during wound healing. In this study, a complex coacervate was evaluated as an enhanced delivery system for fibroblast growth factor (bFGF) to control its release rate and protect it from proteases. Coacervates composed of gelatin Type A (GA) and sodium alginate (SA) were optimized by the Design of Experiments (DOE), with the polymer ratio and the medium's pH as the independent variables, and turbidity, particle size, polydispersity index, and encapsulation efficiency (EE, %) as the responses. The optimized coacervate protected bFGF from trypsin digestion and showed controlled release compared with bFGF in solution or a physical mixture of GA and SA. It enhanced the viability, migration, and procollagen I C-terminal propeptide synthesis of human dermal fibroblasts in hyperglycemic conditions. In summary, the DOE approach was successfully applied to optimize bFGF GA-SA coacervates as a potential novel therapeutic modality to treat DFU.

Topics & Concepts

CoacervateGelatinBasic fibroblast growth factorGranulation tissueWound healingChemistryAngiogenesisTrypsinDispersityBiomedical engineeringPharmacologyChromatographyBiochemistryGrowth factorSurgeryMedicineEnzymeCancer researchPolymer chemistryReceptorWound Healing and TreatmentsPeriodontal Regeneration and TreatmentsElectrospun Nanofibers in Biomedical Applications