A heel protector (100) includes a leg engaging section (101) and a foot engaging section (102) intersecting at a heel receiver (103). The leg engaging section (101) and the foot engaging section (102) define a leg insertion aperture (104). The leg engaging section (101) defines at least one aperture (203) disposed in an ankle region (205) to permit a connection tube (1002) extending from an inflatable bladder (901) of a compression device (800) to pass therethrough. The heel protector (100) and compression device (800) work together as a rehabilitation system (1300).

A device for applying compression to a patient's limb includes a sleeve and a control unit configured to supply pressurized fluid to the sleeve using the following inflation/deflation process: inflating the at least one chamber from an initial pressure to a first pressure; maintaining the at least one chamber at the first pressure for a first predetermined amount of time; changing the pressure in the at least one chamber from the first pressure to a second pressure, wherein the second pressure is greater than the initial pressure; maintaining the at least one chamber at the second pressure for a second predetermined amount of time; changing the pressure in the at least one chamber from the second pressure to the first pressure or a third pressure greater than the second pressure; maintaining the at least one chamber at the first pressure or the third pressure for a third predetermined amount of time; and deflating the at least one chamber to zero pressure or a fourth pressure.

A system is disclosed for stimulating venous and arterial circulation in a patient to prevent deep vein thrombosis, which includes a first inflatable garment sleeve configured to be wrapped around the left calf of the patient and having a first air input tube extending from an exterior surface thereof, a second inflatable garment sleeve configured to be wrapped around the right calf of the patient and having a second air input tube extending from an exterior surface of the second garment sleeve, a portable pump for cyclically inflating the first and second garment sleeves, and a bifurcated tube assembly for connecting the portable pump to the first and second air input tubes of the first and second garment sleeves.

A method for maintaining and/or increasing body temperature of a patient may involve delivering heat to a first location on a limb of the patient, delivering heat to a second location on the limb, apart from the first location, and applying intermittent compression to a third location on the limb, located between the first location and the second location. A device for maintaining and/or increasing body temperature of a patient may include a sleeve for positioning over at least part of one of the patient's limbs, first and second heat delivery members coupled with the sleeve, and an intermittent compression member coupled with the sleeve between the first and second heat delivery members.

An appendage massaging device that includes an appendage wrap having an inner band and an outer layer and one or more artificial muscles disposed between the inner band and the outer layer of the appendage wrap. Each of the one or more artificial muscles include a housing having an electrode region and an expandable fluid region, a dielectric fluid housed within the housing, and an electrode pair positioned in the electrode region of the housing. The electrode pair includes a first electrode fixed to a first surface of the housing and a second electrode fixed to a second surface of the housing. The electrode pair is actuatable between a non-actuated and an actuated state such that actuation from the non-actuated state to the actuated state directs the dielectric fluid into the expandable fluid region, expanding the expandable fluid region thereby applying pressure to the inner band of the appendage wrap.

Provided herein is an inflatable compression vest for performing compression therapy to a subject afflicted with a respiratory related condition, wherein the vest includes at least one column of inflatable bladders, linearly arranged whereby for each three consecutive bladders, a top bladder and a bottom bladder at least partially overlaps with a middle intervening bladder. Further provided are controller device configured to control operation of the compression vest in accordance with the breathing cycle of a subject, systems and methods of using the same.

A pneumatic compression assembly that includes a sleeve having an outer layer and an inner layer that defines a sleeve interior configured to receive a body part of a user, and at least a first vibration assembly configured to provide vibration to the body part of the user. A plurality of inflatable compartments are arranged longitudinally along the sleeve between the inner layer and the outer layer. The first vibration assembly includes a plurality of vibration motors positioned between the inner layer and the outer layer of the sleeve.

A cold therapy dynamic hand splint system including an electric pump, a sleeve, an inflatable bladder, a refrigeration device, and a fluid reservoir. The sleeve includes a fluid-tight cavity filled with a cold fluid pressurized by the pump, and is wrapped around the forearm of a user. The inflatable bladder has an expanded state where the bladder is charged with the fluid pressurized by the pump and chilled by the refrigeration device, and a collapsed state where the bladder is substantially empty. The bladder is small enough that a portion fits inside a palm of a contracted spastic hand while in the collapsed state, and large enough to press the spastic hand open when the bladder is in the expanded state. The fluid is maintained within a therapeutic temperature range, and is in fluidic communication with the sleeve and the bladder through the pump.

A system for controlling blood pressure includes a wearable interface having an internal contact surface, the wearable interface configured to at least partially encircle a first portion of a first limb of a subject, a sensing module carried by the wearable interface and configured to determine at least a change in blood pressure of the first limb of the subject, and an energy application module carried by the wearable interface and configured to apply energy of two or more types to the first limb of the subject.

A medical treatment device smart controller that includes a physical electrical connector for connecting to a medical treatment device with a treatment modality that can be changed when a signal is provided to the physical electrical connector. The medical treatment device smart controller also includes a processor coupled to a wireless communication channel and the physical electrical connector and configured to process the change input and send the signal on the physical electrical connection to change the treatment modality of the medical treatment device. The controller also includes memory coupled to the processor, where the processor is configured to write recovery data into the memory, and the recovery data includes the change to the treatment modality of the medical treatment device. The processor is further configured to periodically send the recovery data over the communication channel.