Methods, apparatuses, systems, and implementations for inductive heating of a foreign metallic implant are disclosed. A foreign metallic implant may be heated via AMF pulses to ensure that the surface of the foreign metallic implant heats in a uniform manner. As the surface temperature of the foreign metallic implant rises, acoustic signatures may be detected by acoustic sensors that may indicate that tissue may be heating to an undesirable level approaching a boiling point. Once these acoustic signatures are detected, the AMF pulses may be shut off for a time period to allow the surface temperature of the implant to cool before applying additional AMF pulses. In this manner, the surface temperature of a foreign metallic implant may be uniformly heated to a temperature adequate to treat bacterial biofilm buildup on the surface of the foreign metallic implant without damaging surrounding tissue. The AMF pulse treatment can be combined with an antibacterial/antimicrobial treatment regimen to reduce the time and/or antibacterial dosage amount needed to remove the biofilm from the metallic implant.

A therapeutic device for applying vibration, thermal and compressive therapy is disclosed. According to one embodiment, the device has a top layer and a bottom layer adapted to contact a body surface of a user. The device further includes a therapeutic element disposed between the top layer and the bottom layer, the therapeutic element including a vibration component, a thermal component, and a compression component, where, upon activation of the therapeutic element: (i) the vibration component applies a vibration force, (ii) the thermal component applies a thermal therapy, and (iii) the compression component applies a compressive force.

A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

A system and method for providing a universal wrap that can apply a thermal pack to many different regions of a patient's body. The universal wrap is provided in a standardized form. The medical provider is provided with options to modify the standardized form in order to adapt the wrap to many different applications.

A temperature therapy system and a method for temperature control for such a temperature therapy system are disclosed. According to one embodiment, a temperature therapy system has a retention mechanism and a plurality of temperature modulation systems attached to the retention mechanism, wherein each of the plurality of temperature modulation systems comprises a thermoelectric cooler. The wearable personal temperature therapy system may have a plurality of temperature sensors and a plurality of conductive flags, wherein each of the plurality of conductive flags is adhered to a respective thermoelectric cooler and a respective temperature sensor. The wearable personal temperature therapy system may have a control module electrically coupled to each of the plurality of temperature modulation systems and each of the plurality of temperature sensors, wherein each of the temperature modulation systems is controlled based on a control voltage applied to the thermoelectric cooler of the respective temperature modulation system.

A therapeutic device includes a substrate, a seal to couple the substrate to a surface, and at least one port defined in the substrate through which a therapeutic fluid is introduced between the surface and the substrate such that the therapeutic fluid directly contacts the surface.

The present invention relates to an orthopedic brace including therein a thermal treatment system useful for treating joint injuries and musculoskeletal disorders, such as osteoarthritis.

A temperature modulation assembly and a multi-layer retention mechanism for such a temperature therapy device are disclosed. According to one embodiment, a temperature modulation assembly for a temperature therapy device has a heat spreader and a mounting plate coupled to a bottom portion of a spacer, wherein the heat spreader is disposed between the mounting plate and the spacer. The temperature modulation assembly has a heatsink and a fan coupled to a top portion of the spacer, wherein the heatsink is disposed between the top portion of the spacer and the fan. The temperature modulation assembly further includes a heating and/or cooling device disposed within a central opening of the spacer, wherein the heating and/or cooling device is located between the heatsink and the heat spreader.

Systems for maintaining normothermia in a patient via compression and warming are disclosed and include a first warming element configured to apply warming to the popliteal fossa, a second warming element configured to apply warming to the sole of the foot, and a compression element configured to apply compression to the calf.