Abstract: A system and method for altering bone growth on and within an orthopedic implant that includes an implant body; a plurality of electrodes, wherein each electrode is at least partially embedded in the implant body, and comprises: a set of primary electrodes comprising at least one electrode, wherein a non-embedded segment of each primary electrode is proximal to a bone growth region, a set of secondary electrodes comprising at least one electrode, wherein a non-embedded segment of each secondary electrode is distal to the bone growth region, and wherein the plurality of electrodes are configured to function in a stimulation operating mode, such that a subset of primary electrodes function as cathodes and a subset of secondary electrodes function as anodes; a control system comprising a processor, and circuitry that connects to the plurality of electrodes; and a power system.

Abstract: A system and method for positioning and orienting an orthopedic implant that includes an implant body; a sensor system integrated into the implant body, the sensor system comprising of at least a plurality of electrodes positioned within the implant body such there is at least one exposed region on the surface of the implant body for each electrode of the plurality of electrodes; a sensor processing control system communicatively coupled to the sensor system, the sensor processing control system configured with instructions that when executed cause the sensor processing control system to collect sensor data from the sensor system and generate adjacency data from the sensor data; and an implant feedback system, that updates state based in part on the adjacency data.

Abstract: A system and method for positioning and orienting an orthopedic implant that includes an implant body; a sensor system integrated into the implant body, the sensor system comprising of at least a plurality of electrodes positioned within the implant body such there is at least one exposed region on the surface of the implant body for each electrode of the plurality of electrodes; a sensor processing control system communicatively coupled to the sensor system, the sensor processing control system configured with instructions that when executed cause the sensor processing control system to collect sensor data from the sensor system and generate adjacency data from the sensor data; and an implant feedback system, that updates state based in part on the adjacency data.

Abstract: A system and method for altering bone growth on and within an orthopedic implant that includes an implant body; a plurality of electrodes, wherein each electrode is at least partially embedded in the implant body, and comprises: a set of primary electrodes comprising at least one electrode, wherein a non-embedded segment of each primary electrode is proximal to a bone growth region, a set of secondary electrodes comprising at least one electrode, wherein a non-embedded segment of each secondary electrode is distal to the bone growth region, and wherein the plurality of electrodes are configured to function in a stimulation operating mode, such that a subset of primary electrodes function as cathodes and a subset of secondary electrodes function as anodes; a control system comprising a processor, and circuitry that connects to the plurality of electrodes; and a power system.

Abstract: 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.

Abstract: A system for an electrically stimulating orthopedic implant includes: a rod-like orthopedic implant, comprising a shaft of the orthopedic implant, with distinct electrode sites situated along the implant body; and an end, comprising the head of the orthopedic implant, situated at one end of the shaft; a set of electrodes, individually controllable, wherein each electrode: includes a distinct stimulation site, comprising an active exposed segment of the electrode situated on an electrode site, is conductively coupled to an implant control circuitry, and is conductively isolated from all other electrodes in the set of electrodes; and implant circuitry, situated at least partially within the end cap, comprising: implant receiver circuitry, effective to convert an electromagnetic field to an electric current and implant control circuitry, configured to control current flow through the set of electrodes.

Abstract: A system and method for altering bone growth on and within an orthopedic implant that includes an implant body; a plurality of electrodes, wherein each electrode is at least partially embedded in the implant body, and comprises: a set of primary electrodes comprising at least one electrode, wherein a non-embedded segment of each primary electrode is proximal to a bone growth region, a set of secondary electrodes comprising at least one electrode, wherein a non-embedded segment of each secondary electrode is distal to the bone growth region, and wherein the plurality of electrodes are configured to function in a stimulation operating mode, such that a subset of primary electrodes function as cathodes and a subset of secondary electrodes function as anodes; a control system comprising a processor, and circuitry that connects to the plurality of electrodes; and a power system.

Abstract: 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.

Abstract: A system and method for positioning and orienting an orthopedic implant that includes an implant body; a sensor system integrated into the implant body, the sensor system comprising of at least a plurality of electrodes positioned within the implant body such there is at least one exposed region on the surface of the implant body for each electrode of the plurality of electrodes; a sensor processing control system communicatively coupled to the sensor system, the sensor processing control system configured with instructions that when executed cause the sensor processing control system to collect sensor data from the sensor system and generate adjacency data from the sensor data; and an implant feedback system, that updates state based in part on the adjacency data.

Abstract: 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.

Abstract: A system and method for altering bone growth on and within an orthopedic implant that includes an implant body; a plurality of electrodes, wherein each electrode is at least partially embedded in the implant body, and comprises: a set of primary electrodes comprising at least one electrode, wherein a non-embedded segment of each primary electrode is proximal to a bone growth region, a set of secondary electrodes comprising at least one electrode, wherein a non-embedded segment of each secondary electrode is distal to the bone growth region, and wherein the plurality of electrodes are configured to function in a stimulation operating mode, such that a subset of primary electrodes function as cathodes and a subset of secondary electrodes function as anodes; a control system comprising a processor, and circuitry that connects to the plurality of electrodes; and a power system.

Abstract: In a device for controlling the temperature of the intake air to an internal combustion engine, the piston of a hydraulic cylinder controls the setting of a damper between the warm-air intake and the cold-air intake. A sensor body in the mixed-air duct communicates, via a hydraulic conduit, with the cylinder. The sensor body is filled above a free piston with an expansion medium of higher coefficient of thermal expansion than the hydraulic medium on the opposite side of the free piston. By allowing the temperature in the engine compartment, for example, to determine the temperature of the hydraulic conduit, the control interval is displaced so that the temperature of the intake air is higher when the engine is cold than when it is warm.