MX ORTHOPEDICS CORP. Patent applications |
Patent application number | Title | Published |
20130211533 | POROUS COATING FOR ORTHOPEDIC IMPLANT UTILIZING POROUS, SHAPE MEMORY MATERIALS - A porous coating for a medical implant, wherein the porous coating comprises a porous, shape memory material. | 08-15-2013 |
20130123785 | OSTEOSYNTHETIC SHAPE MEMORY MATERIAL INTRAMEDULLARY BONE STENT AND METHOD FOR TREATING A BONE FRACTURE USING THE SAME - A method for providing stabilization and compression of a bone fracture, the method comprising:
| 05-16-2013 |
20120123554 | Proximally Self-Locking Long Bone Prosthesis - A femoral stem hip implant for insertion into a surgically created aperture in a femur includes a monolithic femoral stem made of shape memory material. The stem is configured to be inserted into the aperture, has a proximal portion and a longitudinal axis. The shape memory material within the proximal portion has a cross-section perpendicular to the longitudinal axis. At least a portion of the shape memory material within the proximal portion is in a compressed state by application of a plurality of compressive forces at a temperature below an austenitic finish temperature of the shape memory material so that the cross-section expands through shape memory effect via the formation of austenite in response to a temperature increase after insertion into the aperture thereby causing a locking-force to be exerted against an inner surface of the aperture, the locking force being sufficient to stabilize the implant in the aperture. | 05-17-2012 |
20110192563 | Proximally Self-Locking Long Bone Prosthesis - A method for arthroplasty includes using a self-locking prosthesis that has a member structured to transfer a load produced by the weight of a patient to a bone. An expandable bone-locking portion that is integral to the member includes a shape-memory material and expands to produce a locking force. A portion of the bone is removed to form an aperture in the bone. The bone-locking portion is inserted into the aperture, and a temperature increase causes a change from a contracted state to an expanded state resulting in expansion of the bone-locking portion so as to contact the inner surface. The expanding is sufficient to create a locking force at the junction between the inner surface and the bone-locking portion of the prosthesis and the majority of the locking force is applied at or above the metaphysis. The length/width ration of the prosthesis may be less than or equal to 5. The resulting reconstructed long-bone may have improved primary and long-term stability. | 08-11-2011 |
20110071633 | Coating a Shape-Memory Prosthesis - Illustrative embodiments of the present invention are directed to a method for coating a shape-memory prosthesis. The method includes providing a prosthesis with an expandable portion. The expandable portion comprises a shape-memory material having a contracted phase and an expanded phase. A temperature increase past a phase transition temperature causes a change from the contracted phase to the expanded phase. The method also includes applying a coating to at least a portion of the shape-memory material using a thermal deposition application and simultaneously cooling the shape-memory material and the coating with a cryogenic vapor to prevent at least a portion of the shape-memory material from transitioning to the expanded phase. | 03-24-2011 |
20090204226 | Proximally Self-Locking Long Bone Prosthesis - A method for arthroplasty includes using a self-locking prosthesis that has a member structured to transfer a load produced by the weight of a patient to a bone. An expandable bone-locking portion that is integral to the member includes a shape-memory material and expands to produce a locking force. A portion of the bone is removed to form an aperture in the bone. The bone-locking portion is inserted into the aperture, and a temperature increase causes a change from a contracted state to an expanded state resulting in expansion of the bone-locking portion so as to contact the inner surface. The expanding is sufficient to create a locking force at the junction between the inner surface and the bone-locking portion of the prosthesis and the majority of the locking force is applied at or above the metaphysis. The length/width ration of the prosthesis may be less than or equal to 5. The resulting reconstructed long-bone may have improved primary and long-term stability. | 08-13-2009 |