ROS-responsive Hydrogel Coating Modified Titanium Promotes Vascularization and Osteointegration of Bone Defects by Orchestrating Immunomodulation

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2022 Jul 23

PMID 35870263

Authors

Xuan Li

Kun Xu

Ye He

Bailong Tao

Ke Li

Chuanchuan Lin

Jingwei Hu

Jing Wu

Yi Wu

Shaopeng Liu

Peng Liu

Huaiyu Wang

Kaiyong Cai

Affiliations

Soon will be listed here.

Abstract

Ideal titanium implants are required to participate in bone repair actively to improve in situ osteointegration. However, the traditional surface functionalization methods of titanium implants are difficult to both achieve the active regulation and long-term stability of bioactive components. Here, a novel functionalized titanium which loaded with thymosin β4 (Tβ4) and covered by a hydrogel coating was designed and evaluated. A strong adhesion between the coating and the titanium substrate was realized by the synergistic action of borate ester bonds and surface topological structure. The hydrogel coating also achieved an in vivo adhesion between implant and tissue through hydrogen bonds and borate bonds. In addition, based on the ROS response property of borate bonds, the implant can release Tβ4 in response to the immune reaction of bone healing by regulating the polarization of macrophages, thereby reducing the fibrosis formation around the implant interface and promoting vascularization and osteointegration of bone defects.

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