The object of the present invention is to provide an antibacterial material capable of sustaining antibacterial properties for a long time. The object can be solved by a silver-containing calcium phosphate sintered body having silver particles therein, wherein an average particle diameter of the silver particles is 0.01 to 0.5 m.

Provided are an implanted medical device (1) and preparation method thereof, and an implanted medical device preform for preparing the implanted medical device (1). The implanted medical device (1) comprises a metal basal body (21) and a polymer film layer (22) covering the surface of the metal basal body (21) and preventing endothelium growth and covering, wherein at least a part of the surface of the metal basal body (21) is provided with a surface-modified layer (211) which contains doped ions, and the metal basal body (21) is connected to the polymer film layer (22) by the doped ions. Since the metal basal body (21) may be bonded to the polymer film layer (22) by the doped ions, the polymer film layer (22) is unlikely to separate during delivery, therefore effectively preventing endothelium growth and covering in vivo.

Provided are an implanted medical device (1) and preparation method thereof, and an implanted medical device preform for preparing the implanted medical device (1). The implanted medical device (1) comprises a metal basal body (21) and a polymer film layer (22) covering the surface of the metal basal body (21) and preventing endothelium growth and covering, wherein at least a part of the surface of the metal basal body (21) is provided with a surface-modified layer (211) which contains doped ions, and the metal basal body (21) is connected to the polymer film layer (22) by the doped ions. Since the metal basal body (21) may be bonded to the polymer film layer (22) by the doped ions, the polymer film layer (22) is unlikely to separate during delivery, therefore effectively preventing endothelium growth and covering in vivo.

A resorbable bone graft scaffold material, including a plurality of overlapping and interlocking fibers defining a scaffold structure, plurality of pores distributed throughout the scaffold, and a plurality of glass microspheres distributed throughout the pores. The fibers are characterized by fiber diameters ranging from about 5 nanometers to about 100 micrometers, and the fibers are a bioactive, resorbable material. The fibers generally contribute about 20 to about 40 weight percent of the scaffold material, with the microspheres contributing the balance.

The present disclosure provides improved compositions comprising a solution of a platelet-derived growth factor and a biocompatible matrix that are useful for bone fusion procedures, such as spine fusion procedures. The compositions advantageously comprise a the PDGF solution and biocompatible matrix in about a 2:1 volume to weight (mL:g) ratio such that the compositions can be readily applied to a site of bone fusion using a syringe or cannula. In particular embodiments, the composition is useful in conjunction with a spine fusion cage in a spine fusion procedure. The present disclosure also provides methods of performing fusion procedures, such as spine fusion, and kits for fusion procedures.

A bone replacement material having reinforcing elements and a modelable mass which is curable on contact with water or an aqueous liquid. as well as a process for producing a bone replacement material, to a further bone replacement material and to medical kits for treatment of bone defects.

A bone replacement material having reinforcing elements and a modelable mass which is curable on contact with water or an aqueous liquid. as well as a process for producing a bone replacement material, to a further bone replacement material and to medical kits for treatment of bone defects.

Provided is a compression resistant implant configured to fit at or near a bone defect to promote bone growth. The compression resistant implant comprises a biodegradable polymer in an amount of about 0.1 wt % to about 20 wt % of the implant and a freeze-dried oxysterol in an amount of about 5 wt % to about 90 wt % of the implant. Methods of making and use are further provided.

Provided is an implant configured to fit at or near a bone defect to promote bone growth, the implant comprising: a biodegradable polymer in an amount of about 0.1 wt % to about 20 wt % of the implant and an oxysterol in an amount of about 20 wt % to about 90 wt % of the implant. The implant has a high oxysterol load. Methods of making and use are further provided.

To provide a bioimplant capable of controlling a rate of an antibacterial agent and an antibiotic to be eluted from the coating film. An evanescent coating film made of a calcium phosphate-based material having crystallinity of 10% to 90% is formed at a predetermined area of the bioimplant and an antibacterial agent or an antibiotic is contained in the coating film to suppress adhesion of bacteria.