Abstract: The chemically cross-linked hydrogel is a hydrogel formed by reaction of silk with a crosslinking agent, and the crosslinking agent is a diglycidyl ether crosslinking agent. The hydrogel is obtained by dissolving silk fibers in a lithium bromide solution and crosslinking through the crosslinking agent. The hydrogel has good elasticity, and can recover more than 90% of its volume/height after being compressed for 100 cycles with a compressive deformation of 20%. The silk is very stable in matrix structure and mechanical properties. After incubation in PBS at 37° C. for 30 days, the content of ?-sheets in the secondary structure elements of the silk is less than or equal to 40%, and its compressive modulus is less than or equal to 100% (with a compressive deformation of 20%). The hydrogel has good biocompatibility and adjustable biodegradability, and can be used for repairing or filling tissues in subjects.

Abstract: The present invention provides use of an aromatic alcohol as a structural inducer for silk fibroin, and also provides a method for treating silk fibroin. The method includes the following steps: bringing silk fibroin into contact with an aromatic alcohol-containing vapor or liquid to induce the structural transformation of silk fibroin, to obtain a water-insoluble silk fibroin, wherein the mechanical performance of the resulting silk fibroin material and the bonding strength between the silk fibroin material and a substrate material are over 50% higher than those of a silk fibroin material obtained by a traditional treatment method (induction with methanol, ethanol, and steam).

Abstract: The invention discloses a freeze-dried powder of high molecular weight silk fibroin, preparation process and use thereof. The freeze-dried powder is obtained from silk by degumming, dissolution, dialysis, centrifugation, high temperature and high pressure treatment and freeze-drying. A method of preparing silk fibroin microspheres with polyethylene glycol comprises mixing a silk fibroin solution of 1-30 wt % with a PEG solution of 10-60 w % and incubating the resulting solution. A controlled-release or sustained-release silk fibroin gel formulation includes a gel-state carrier and a drug dispersed/adsorbed therein, the carrier is a silk fibroin gel formed by blending with LMW-PEG.

Abstract: The invention discloses a freeze-dried powder of high molecular weight silk fibroin, preparation process and use thereof. The freeze-dried powder is obtained from silk by degumming, dissolution, dialysis, centrifugation, high temperature and high pressure treatment and freeze-drying. A method of preparing silk fibroin microspheres with polyethylene glycol comprises mixing a silk fibroin solution of 1-30 wt % with a PEG solution of 10-60 w % and incubating the resulting solution. A controlled-release or sustained-release silk fibroin gel formulation includes a gel-state carrier and a drug dispersed/adsorbed therein, the carrier is a silk fibroin gel formed by blending with LMW-PEG.