An implantable modular spacer device to treat an infected articular seat includes a stem element, a head or ball element, and coupling elements between the stem element and the head that include a plurality of elongated teeth, placed at pre-established distances from each other, and a plurality of housing seats for the teeth. An implantable spacer device to treat a bone seat or joint seat or for the two-step treatment of infections of joint prostheses includes a joint component adapted to be inserted in an articular zone of the patient and having an external surface, a stem component adapted to be implanted in a bone or in a residual bone bed of a preceding joint prosthesis, and adjustable connection elements, wherein at least part of the external surface of the first portion of the stem component and at least part of the external surface of the joint component define a contact surface with the bone tissue or adapted for coupling with the bone tissue. The connection elements are placed between the joint component and the stem component to adjust the distance thereof, and the contact surface in the joint component and/or in the stem component has a plurality of recesses or housing a filling material that includes a pharmaceutical or medical substance, wherein the plurality of recesses affects or is substantially placed along the entire contact surface or in proximity thereto.

An apparatus and a method are provided for performing cartilage allograft implant surgeries. The apparatus comprises an allograft plug kit comprising one or more grafts configured to treat osteochondral defects in various bone joint locations in a patient's body. Each of the grafts comprises a cartilage layer coupled with a bone portion. The cartilage layer comprises a thickness selected to closely match the thickness of existing cartilage at an implant location. The bone portion comprises surface features configured to encourage the patient's bone tissue to grow into the bone portion, thereby accelerating incorporation of the graft into the patient's bone. An instrument kit comprises a multiplicity of instruments configured for implantation of the grafts into the patient's body, including at least a graft inserter, a guidewire, a reamer, and a size gauge.

A femoral hip joint spacer including a prosthesis body having a ball head with a sliding surface, a neck, a collar and a stem. A fastening area is arranged on the stem. The femoral hip joint spacer further has a first connector for feeding a medical irrigation liquid into the body, a second connector for draining the irrigation liquid from the body, and an irrigation liquid inlet opening. The first connector is connected in a liquid-conveying manner to the irrigation liquid inlet opening and an irrigation liquid outlet opening. The second connector is connected in a liquid-conveying manner to the irrigation liquid outlet opening, an irrigation liquid discharge opening and an irrigation liquid intake opening. The irrigation liquid discharge opening is connected inside the body to the irrigation liquid inlet opening and the irrigation liquid intake opening is connected inside the body to the irrigation liquid outlet opening.

A femoral hip joint spacer. The spacer has a prosthesis body with a ball head, a neck, a stem and an anchoring sleeve which encloses the stem on a proximal side of the stem with a circumferential fastening area, irrigation liquid inlet and outlet openings in the body surface, at least one irrigation liquid discharge opening on a distal side of the stem and at least one irrigation liquid intake opening on the ball head or on the neck. The discharge opening is connected in a liquid-permeable manner to the inlet opening but not to the outlet opening and the intake opening is connected inside the prothesis body in a liquid-permeable manner to the outlet opening but not to the inlet opening. A cavity open on two sides is formed inside the anchoring sleeve and connects a proximal side to a distal side of the sleeve in a liquid-permeable manner.

An apparatus and a method are provided for performing cartilage graft implant surgeries. The apparatus comprises a graft plug kit comprising one or more grafts configured to treat osteochondral defects in various bone joint locations in a patient's body. Each of the grafts comprises a cartilage layer coupled with a bone portion. The cartilage layer comprises a thickness selected to closely match the thickness of existing cartilage at an implant location. The bone portion comprises surface features configured to encourage the patient's bone tissue to grow into the bone portion, thereby accelerating incorporation of the graft into the patient's bone. An instrument kit comprises a multiplicity of instruments configured for implantation of the grafts into the patient's body, including at least a graft inserter, a guidewire, a reamer, and a size gauge.

An augment device for a joint endoprosthesis, the device including a sleeve surrounding a channel extending through the sleeve. The sleeve is formed of porous material for ingrowth of bony material, the sleeve comprising an inner face and an outer face. The sleeve further comprises a wall surrounding the channel, the wall being made of solid material and forming a sandwich structure with the porous material, wherein the wall forms a bulkhead between the inner face and the outer face. Thereby, the bulkhead wall will stop inflow of any cement across the sleeve from its inner to its outer face. The porous material on the outer face will be kept free from cement and its capability to promote bone ingrowth is reliably preserved. The augment devices are preferably provided as a set having different sizes and straight or stepped bottoms for improved versatility and maximum preservation of natural bone matter.

An orthopedic implant in the form of a femoral component of a knee endoprosthesis has sliding tribological surfaces formed by inserts of a ceramic material based on zirconium dioxide or aluminum oxide, which are inserted and transition flushly into a metallic base body. The inserts are connected to the base body by a silicate ceramic solder, which is solidified or hardened in a ceramic firing, and by a silicate glass solder. Discharge channels in the metallic base body help to produce a homogeneous glass solder layer and to avoid an excessively intense heat treatment of the solder connection, which could lead to fractures in the titanium oxide layer of the base body. Because a coating of a softer glass solder may be additionally provided on the sliding tribological surfaces of the inserts, the abrasive wear is further reduced and the service life is further increased.

A robotic system for preparing a bone to repair a bone fracture, includes a controllable guide structure configured to guide preparation of at least one bone piece during execution of a surgical plan and a control system configured to define the surgical plan. Defining the surgical plan includes determining a desired relationship between at least a first bone piece and a second bone piece that are separated by the bone fracture and planning preparation of the first bone piece to include a prepared anatomical structure configured to align the first bone piece with the second bone piece such that when aligned, the first bone piece and the second bone piece will achieve the desired relationship. The control system is further configured to control the controllable guide structure according to the surgical plan.

A knee joint implant augmentation configured to be arranged between a knee joint implant and a tibia in an implanted state includes a first contact surface which, in the implanted state, is configured to rest at least partially flat on the knee joint implant, a second contact surface lying opposite the first contact surface and configured to rest at least partially flat on the tibia in the implanted state, and a lateral surface, which connects a rim of the first contact surface to a rim of the second contact surface. The lateral surface is configured such that a portion of the lateral surface, which is arranged in a patellar position in the implanted state of the knee joint implant augmentation, is angled at a closed angle greater than 0? with respect to an axis perpendicular to the first contact surface.

According to one example, a tibial prosthesis that optionally includes a baseplate and a tibial keel. The baseplate optionally including: a distal surface sized and shaped to substantially cover a proximal resected surface of a tibia; a proximal surface opposite the distal surface, the proximal surface having a lateral compartment and a medial compartment opposite the lateral compartment; a periphery extending between the distal surface and the proximal surface; a first pocket formed in the baseplate and recessed from the distal surface, wherein the first pocket is configured to receive a bone cement therein; a second pocket formed in the baseplate and recessed from the first pocket, wherein the second pocket is configured to receive a portion of the bone cement. The tibial keel extending distally from the distal surface to define a longitudinal tibial keel axis.