An extended release immunomodulatory implant operatively arranged to facilitate bone morphogenesis, including an inner portion including at least one growth factor, a first layer including at least one of one or more interleukins and capsaicin, and a second layer including an antigen operatively arranged to activate an innate immune system.

An extended release immunomodulatory implant operatively arranged to facilitate bone morphogenesis, including an inner portion including at least one growth factor, a first layer including at least one of one or more interleukins and capsaicin, and a second layer including an antigen operatively arranged to activate an innate immune system.

A method for 3D printing a patient-specific bone implant having variable density, in various aspects, comprises: (1) providing a thermoplastic polymer composition comprising: (A) between about 20% and about 50% bioactive agent by weight; (B) between about 0.5% and about 10% chemical foaming agent by weight; and (C) balance structural polymer by weight; (2) receiving, by computing hardware, a scan of a bone, the scan comprising at least a 3D image of the bone and radiodensity data for the bone; and (3) causing, by the computing hardware, a 3D printer to form the patient-specific bone implant from the 3D image using the thermoplastic polymer by modifying a 3D printing temperature of the 3D printer during printing of the patient-specific bone implant such that each portion of the patient-specific bone implant is produced at a temperature that corresponds to a desired density defined by the radiodensity data for the bone.

The present invention relates to an absorbable biomedical composite material and a preparation method therefor, wherein the absorbable biomedical composite material comprises: a substrate particle containing a calcium phosphate compound; an intermediate layer which is coated on the surfaces of the substrate particle and has a first glass transition temperature, the first glass transition temperature being not higher than a normal body temperature; and a polymer matrix which is formed on the outer surface of the intermediate layer and has a second glass transition temperature, the second glass transition being higher than the first glass transition temperature. The present invention can provide an absorbable biomedical composite material which not only increases the mechanical strength but also improves the toughness.

The present invention relates to an absorbable biomedical composite material and a preparation method therefor, wherein the absorbable biomedical composite material comprises: a substrate particle containing a calcium phosphate compound; an intermediate layer which is coated on the surfaces of the substrate particle and has a first glass transition temperature, the first glass transition temperature being not higher than a normal body temperature; and a polymer matrix which is formed on the outer surface of the intermediate layer and has a second glass transition temperature, the second glass transition being higher than the first glass transition temperature. The present invention can provide an absorbable biomedical composite material which not only increases the mechanical strength but also improves the toughness.

Provided herein are bio-absorbable, settable and homogenous multi-putty bone-adhesive compositions for medical use in tissue hemostasis, surgical repair and reconstruction. Also provided are improved methods of intraoperative use of said compositions for re-approximation of adjacent bone fragments to create a restored alignment and stabilize fracture line.

Provided herein are bio-absorbable, settable and homogenous multi-putty bone-adhesive compositions for medical use in tissue hemostasis, surgical repair and reconstruction. Also provided are improved methods of intraoperative use of said compositions for re-approximation of adjacent bone fragments to create a restored alignment and stabilize fracture line.

A multifunctional hydrogel hybrid material and a method of its preparation and use in the treatment or prophylaxis of bone tissue loss is disclosed.

A multifunctional hydrogel hybrid material and a method of its preparation and use in the treatment or prophylaxis of bone tissue loss is disclosed.

A multifunctional hydrogel hybrid material and a method of its preparation and use in the treatment or prophylaxis of bone tissue loss is disclosed.