An implantable orthopedic wedge can include a main body having a base portion and an apical portion, the apical portion including a first end. The main body can have a thickness that tapers along a perimeter of the main body from a first thickness at the base portion to a second thickness at the apical portion. The implantable orthopedic wedge can also include a fixation member coupled to the main body and configured to receive one or more anchoring elements to anchor the wedge to an implantation site.

A tibial implant may include a plurality of implant subunits. The implant subunits may be configured for individual insertion within a wedge-shaped-void of the tibia. The implant subunits may further be configured for assembly in order to provide an implant substantially covering an exposed portion of cortical bone formed when performing a surgical osteotomy. Methods and kits for insertion and assembly of implants are further described.

An implantable, autonomously growing medical device is disclosed. The device may have an outer, braided outer element that holds an inner core. Degradation and/or softening of the inner core permits the outer element to elongate, allowing the device to grow with surrounding tissue. The growth profile of the medical device can be controlled by altering the shape/material/cure conditions of the inner core, as well as the geometry of the outer element.

An implantable, autonomously growing medical device is disclosed. The device may have an outer, braided outer element that holds an inner core. Degradation and/or softening of the inner core permits the outer element to elongate, allowing the device to grow with surrounding tissue. The growth profile of the medical device can be controlled by altering the shape/material/cure conditions of the inner core, as well as the geometry of the out element.

An orthopedic implant system including an orthopedic implant with an inferior portion having a surface configured to extend over a top surface of a tibia; a superior portion opposite to the inferior portion and configured to change a position of a patellar tendon by lifting or tilting the patellar tendon when the surface of the inferior portion is engaged with the tibia; a first lateral side disposed between the inferior portion and the superior portion; and a second lateral side disposed between the inferior portion and the superior portion opposite to the first lateral side; and a fixation system to attach the orthopedic implant to the tibia. The invention also includes corresponding methods.

An orthopedic implant with an inferior portion having a tibia contact surface configured to extend over a tibia; a superior portion opposite to the inferior portion having a tendon contact surface configured to change a position of a patellar tendon by lifting or tilting the patellar tendon when the curved surface of the first portion is engaged with the tibia; and a fixation mechanism adapted to attach the orthopedic implant to the tibia, the orthopedic implant being further configured to change shape from a first configuration to a second configuration in response to a load applied between the tendon contact surface and the tibia contact surface. The invention also addresses corresponding methods.

A device for attaching soft tissue to a prosthetic implant. The device includes a body that includes a frame and a porous section disposed within the frame, wherein the porous section permits the passage of body fluids therethrough to encourage the healing of the soft tissue as well as the growth of soft tissue into and through the porous section.

A digital bone reconstruction method that involves receiving medical image data of a bone; displaying on a user interface the bone image; automatically generating, using a processor, a first virtual 3D surface contour of a reconstructed image of the bone having a first geometry and including a plurality of editable control regions; and adjusting at least one of the editable control regions on the first virtual 3D surface contour based on user input to produce a second virtual 3D surface contour of the reconstructed image of the bone having a second geometry.

Methods for the prevention, or delayed onset or progression of, bone marrow edema or bone marrow lesion, and subchondral treatment to prevent the progression of osteoarthritis of a joint are disclosed. The methods involve treating the subchondral bone, while preserving, as much as possible, the joint's articular and cartilage surface. The methods could be performed before, during, or after an initial arthroscopic surgery to repair the joint. Associated devices and instruments for treatment of the subchondral bone are also disclosed.

A method for treating arthritis of a joint includes identifying a bone lesion in a bone adjacent to the joint; and implanting in the bone a reinforcing member in or adjacent to the bone lesion. A kit for conducting the method includes: (a) at least one reinforcing member having a proximal face adapted to face the joint, a distal face adapted to face away from the joint, and a wedge-shaped edge adapted to pierce bone, wherein the at least one reinforcing member is planar and sterile; and (b) a container adapted to maintain the at least one reinforcing member sterile. Another kit includes: (a) a sterile fluid; (b) a syringe for injecting the fluid into a bone; (c) a curing agent adapted to cure the fluid to polymerize and/or cross-link; and (d) a container adapted to maintain the sterility of contents of the container.