An implant system includes a first portion, a second portion, and a third portion. The first portion includes a hydrogel; the second portion includes a porous material and the hydrogel in pores of the porous material; and the third portion includes the porous material. The first portion is free of the porous material and the third portion is free of the hydrogel. The third portion has non-uniform lateral cross-section.

The present invention relates to the diagnosis and treatment of joint-related diseases, in particular osteoarthritis. Based on the analysis of the microarchitecture, such as microchannels, of the subchondral bone, the present invention provides methods for evaluating the health state of a joint as well as determining whether a joint is prone to develop or has already developed a disease correlated to joint and cartilage destruction. The invention further provides for membranes and other implants mimicking healthy subchondral bone structure suitable for promoting regeneration of joint structure and function.

Methods and devices for correcting wear pattern defects in joints. The methods and devices described herein allow for the restoration of correcting abnormal biomechanical loading conditions in a joint brought on by wear pattern defects, and also can, in embodiments, permit correction of proper kinematic movement.

An injury or defect in articular cartilage is treated with a matrix implant that is applied above a barrier composition. The polymer-containing barrier composition is applied to the bottom of a cartilage lesion. The barrier composition can block migration of cells, blood, or other material from subchondral bone into the cartilage lesion.

An implant system includes a first portion, a second portion, and a third portion. The first portion includes a hydrogel. The second portion includes a porous material and the hydrogel in pores of the porous material. The third portion includes the porous material. The first portion is free of the porous material. The third portion is free of the hydrogel. Methods of making and using the implant system.

A suture anchor has a cylindrical body and an integral entry tip. The entry tip is at a distal end and the cylindrical body has a hollow proximal end portion and projections formed on an external surface of the body for retaining the anchor in a pre-drilled hole formed in bone. Two suture openings are formed extending through the body to opposed sides of the cylindrical body between the proximal end of the body and the entry tip at the distal end. Each opening is connected by slots or recesses of the body. A suture entering the hollow proximal end portion passing out through a first opening extends externally along a slot and enters a second opening extending out the second opening on an opposite side extending along an opposing slot and reentering the opposite side first opening and extending back out the hollow proximal end portion.

Disclosed is an implant for implantation in a joint that includes a first portion, a second portion, and a third portion. The first portion includes a hydrogel. The second portion includes a porous material and the hydrogel in pores of the porous material. The third portion includes the porous material. The first portion is free of the porous material, the third portion is free of the hydrogel, and the pores of the porous material in the second portion are different than the pores of the porous material in the third portion.

The present invention relates to a medical implant for cartilage and/or bone repair at an articulating surface of a joint. The implant comprises a contoured implant body and at least one extending post. The implant body has an articulating surface configured to face the articulating part of the joint and a bone contact surface configured to face the bone structure of a joint, where the said articulating and bone contact surfaces face mutually opposite directions and said bone contact surface is provided with the extending post. A cartilage contact surface connects the articulating and the bone contact surfaces and is configured to contact the cartilage surrounding the implant body in a joint. The articulating surface has a layer that consists of titanium nitride (TiN) as the wear-resistant material. The cartilage contact surface has a coating that substantially consists of a material having chondrointegration properties.

A bioinductive patch includes a patch body and a button. The patch body has an inner space. The button is disposed in the inner space of the patch body. A method for manufacturing a bioinductive patch includes step in which a patch body having an inner space is provided. The method continues with step in which a button is disposed in the inner space of the patch body.

A bioinductive patch includes a patch body and a button. The patch body has an inner space. The button is disposed in the inner space of the patch body. A method for manufacturing a bioinductive patch includes step in which a patch body having an inner space is provided. The method continues with step in which a button is disposed in the inner space of the patch body.