Long-Lasting Thixotropic Natural Polymeric Hydrogel Based on Silk Nanofibrils.

Abstract

Hydrogels are considered to be ideal biomedical materials as their physical properties are similar to the physiological tissue environment. In particular, thixotropic hydrogels have received increasing attention from researchers because of their injectability. Herein, a simple and rapid method was developed for the preparation of a regenerated silk fibroin (RSF) hydrogel with long-lasting and excellent thixotropy. The thixotropic RSF hydrogel was readily formed by ultrasonic treatment of the pretreated RSF solution for 2 min followed by incubation at 40 °C for 10 min. The storage modulus of the RSF hydrogels recovered to more than 90% of the original value within 20 s after withstanding 1000% shear strain. By avoiding complicated chemical or physical treatments and by addition of crosslinking agents and/or other chemical components, the obtained RSF hydrogels maintained excellent biocompatibility. Hence, the cells implanted inside the hydrogel can grow and proliferate normally. By virtue of ultrasonic treatment during the preparation, functional nanoparticles can be uniformly dispersed in the RSF solution to prepare RSF-based hybrid hydrogels with various functions. As an application example, hydroxyapatite (HAP) with osteoinductivity was mixed with RSF solution to prepare the RSF/HAP hybrid hydrogel. The RSF/HAP hybrid hydrogel maintained biocompatibility and thixotropy of the original RSF hydrogel and promoted osteoblastic differentiation of cells owing to the addition of HAP. Therefore, the RSF hydrogel prepared in this work has a strong application prospect in the biomedical field including, but not limited to, bone repair.