An implant containing a structurally encoded region, the implant comprising an implant body defining adjacent first and second encoded regions, the first encoded region comprising a first series of shaped inclusions in a first pattern of relatively differing opacity figures, and the second encoded region comprising a second series of shaped inclusions in a second pattern of relatively differing opacity figures, the first and second encoded regions being disposed such that, when the first encoded region and second encoded regions are viewed by reading illumination from a position wherein the first pattern and second pattern overlap, a third pattern is revealed by the reading illumination, the third pattern being different than the first and second patterns, and comprising shape or surface characteristics representing structurally encoded data. The invention further comprises systems and methods of manufacturing, using and reading the same.

A spinal implant system includes bone growth promoting material, and an electrical bone growth stimulator. The electrical bone growth stimulator includes a mesh that surrounds at least a portion of the bone growth material, and the electrical bone growth stimulator is configured to conduct an electric current to stimulate tissue growth adjacent to the electrical bone growth stimulator.

A system and method for powering a medical device that includes a fixture configured for periodic patient proximity; external electrical coupling device integrated into the fixture wherein the external electrical coupling device comprises at least one external energy coupler and is configured to detect presence of an electrical medical device implant in a transmission zone of the external electrical coupling device; an electrical medical device implant, wherein the electrical medical device implant comprises at least one implant energy coupler; and wherein the external electrical coupling device is configured to couple to the implantable medical device through a wireless energy transmission between the external energy coupler and the implant energy coupler when presence of the implantable medical device is within a transmission zone.

The present invention relates to a method of treating a hip joint of a human patient, the hip joint comprising an acetabulum, the acetabulum being a part of the pelvic bone, and a caput femur, the caput femur being the proximal part of the femoral bone, said method comprising the steps of: cutting the skin of the human patient, dissecting an area of the pelvic bone on the opposite side from the acetabulum, creating a hole in said dissected area, said hole passing through the pelvic bone and into the hip joint of the human patient, and performing an action in the hip joint, through said hole in the pelvic bone.

A surgical implant, which in use, provides a barrier between layers of tissue such that tissue on one side of the implant does not adhere to tissue on the other side, the improvement comprising that the implant is made of suitably anatomically shaped surgically acceptable sheet material.

Discloses is a system for the wireless transmission of energy and/or signals between spatially-separated regions with no electrically-conductive connection, the conversion of energy and/or signals into other forms of energy and/or forms of signal, and the application and/or detection of same in at least one peripheral region of said system. The system allows a wireless transmission of energy between at least two spatially-separated regions without an electrically-conductive connection, energy being supplied to at least one of these regions, transmitted to at least one additional region in a wireless manner, converted on demand into other forms of energy, and applied in a peripheral region of said system. Signals can be transmitted at the same time as energy is being transmitted.

A medical system comprising a patch device and a computer. The patch device is in communication with the computer. The patch device is configured for generating measurement data or providing a therapy. The patch device comprises electronic circuitry, a battery, an antenna system, one or more sensors, an IMU (inertial measurement unit), and a flexible enclosure. The antenna system can comprise a dual antenna formed on a dielectric substrate with a first antenna on a first side of the dielectric substrate and a second antenna on a second side of the dielectric substrate. The one or more sensors can comprise devices configured to provide measurement data or a therapy. The IMU is configured to measure position, movement, and trajectory of the patch device. The electronic circuitry is configured to harvest energy from one or more radio frequency signals received by the antenna system to recharge the battery.

A mechanical circulatory support system includes an implantable blood pump, an implantable prosthetic rib assembly, and an implantable drive cable. The prosthetic rib assembly includes a prosthetic rib segment and a percutaneous electrical connector mounted to the prosthetic rib segment. The prosthetic rib segment is configured to be mounted to a patient's rib in place of a resected segment of the patient's rib. The electrical connector includes a skin interface portion configured to interface with an edge of a skin aperture through the patient's skin. The electrical connector is configured to expose a connection port of the electrical connector via the skin aperture. The implantable power cable is connected with or configured to be connected with each of the blood pump and the percutaneous electrical connector for transferring electric power received by the percutaneous electrical connector to the blood pump.

A method for assessing the orthopaedic performance of a joint of a patient can comprise implanting at least a first and second RF wirelessly detectable markers in first and second bones associated with a site and determining and storing their positions before a surgical procedure is performed. The procedure can be carried out on the site and the positions of the first and second markers can be detected and stored after the procedure has been completed. The detected positions can be used to generate a representation of the orthopaedic performance of the joint after the procedure.

An implantable device includes at least one solid structure having an external surface and a volume beneath the surface. One or more of a first conductor or set of conductors is disposed externally and/or internally on or within the structure and an array of elongate electrically conductive elements are disposed radially outwardly within the volume. A breach is detected when a conductive fluid intrudes into the volume through the surface.