A novel γ-PGA composite gellan membrane containing glycerol for guided bone regeneration

摘要

An ideal barrier membrane design should incorporate the function of a delivery vehicle for transporting drugs and osteoinductive factors to where the body is under inflammation.In the present study, a functional hydrogel-based barrier membrane is fabricated using calcium-form poly-gamma glutamic acid (gamma-PGA) and glycerol blending into gellan gum. The concentration of the calcium-form poly-gamma glutamic acid (gamma-PGA) and the glycerol ratio are studied for improving practicability in easy-handling and expanding the coverage area.Gellan gum-based membranes with uniformly distributed calcium aggregates are not only successfully manufactured but also providing excellent characteristics for protein adsorption, bioactivity, and bone cell maturation.Our composite gellan gum-based membranes were tested including to their morphology, mechanical properties, swelling behavior, protein adsorption, drug diffusion, and lysozyme degradation. The biocompatibility, proliferation, and osteoblastic response of membranes were examined by osteoblast-like (MG63) cells. Our results indicate that adequate physical cross-linking with gamma-PGA improves the original mechanical properties and delays degradation. Growing glycerol ratio not only enhances the elongation at break and diffusion rate, but it also changes the tensile strength and the remaining weight.In vitro biocompatibility tests, an adequate ratio of gamma-PGA modification significantly enhances the proliferation, the secretion of alkaline phosphatase (ALP) and mineralization. However, worth noting is the glycerol modified membrane cannot bear a close resemblance with the non-glycerol group in the high level of osteoblastic response. In general, these tunable materials with biocompatibility, biodegradability, and positive osteoblastic responses were poised to be possible candidates for bone defect repair.