Disclosed herein is a compression apparatus useful in treating pain, inflammation, or other conditions of a joint and joint area through use of compression and optionally temperature control. The compression apparatus is configured for physical and functional flexibility in that the apparatus is flexible and can be worn over or under clothing. The compression apparatus is generally suited for support of an ankle joint, a knee joint, a wrist joint, shoulder joint, elbow joint or hip joint depending on size, shape and securement configurations. In one embodiment, the compression apparatus comprises at least one flexible compression member and at least one securement means configured for adjustably providing compression to the joint area of a wearer. In certain embodiments, an apparatus of the present disclosure may comprise temperature-control means, decorative features, devices for visual display of treatment information such as elevation and temperature, as well as other information useful in treatment.

A device for supporting at least one arm of a user includes one or more arm support elements each of which has an arm shell for placing the at least one arm of the user on the arm shell. Force is applied to the arm support elements by at least one passive actuator. A counter bearing for the applied force includes a force transmission element and a counter bearing element. A force application lever is engaged by the one passive actuator and is connected to the arm support or the force transmission element. The force application lever is torque proof and confines an angle which is adjustable.

The invention provides devices and methods for performing transradial catheterization.

The present invention relates to a scoliosis brace worn on the body so as to enable the normal curvature of the spine to be restored, and a manufacturing method therefor. The scoliosis brace according to one embodiment of the present invention comprises: a support part worn so as to cover one shoulder or one side of the abdominal region of the body; and a pressure band coupled so as to connect one side and the other side of the support part, and covering one side or the other side of the abdominal region of the body or one side or the other side of the chest region of the body, with respect to the support part, so as to pressurize and support the same.

A brace configured for attachment to a joint of a subject is provided. The brace includes a first arm having a first end and a second end. The brace includes a second arm having a first end and a second end. The brace includes a hinge assembly coupling the first end of the first arm with the first end of the second arm such that the first arm and the second arm are movable to different relative angular orientations. The brace includes a potentiometer coupled to the hinge assembly. A method of monitoring a relative angular orientation of a first arm of a brace relative to a second arm of the brace is also provided. The method includes monitoring an output of a potentiometer coupled to one of the first arm and the second arm.

A boot includes a rigid outer shell including a base portion adjacent to a portion of a foot of a subject, a leg portion adjacent to a portion of a leg of the subject, and an ankle support portion integral with and coupling the base portion of the main body with the leg portion of the main body, the ankle portion of the main body being adjacent to two opposing sides of an ankle of the subject, the ankle support portion of the main body having one or more removable elements. A first one of the one or more removable elements, adjacent to a first one of the two opposing sides of the ankle, is configured to be removed from the rigid outer shell to aid in preventing contact between an incision area on the first side of the ankle of the subject and the rigid outer shell.

A foot brace to manage foot supination includes a planar member, the planar member has a proximal end and a distal end, an upper portion, a middle portion, and a lower portion. The middle portion can include an opening for the heel to protrude. A leg fastener at the proximal end of the planar member allows securing the foot brace to the leg. A foot strap at the distal end allows securing the foot brace to the midfoot or the forefoot. On an inner surface of the planar member adjacent to the distal end can be provided multi-tier cushions pads, wherein the multi-tier cushion pads can put an upward force on the arch of the foot when the foot with the foot brace is placed on the floor. The number of cushion pads can be changed for optimum stabilization effect in foot supination.

An apparatus (10) for the rehabilitation, assistance and/or augmentation of arm strength in a user (U) comprises a support arrangement (12) for supporting the apparatus (10) on the user (U), a linkage arrangement (14) coupled to the support arrangement (12) and for coupling to an arm (A) of the user (U), and an actuation arrangement (16) for operating the linkage arrangement (14) and thereby manipulating the user's arm (A) in response to a user input signal.

A system for supporting a liner on a frame element includes a liner and a frame element. A fastener connects the liner to the frame element, such that the fastener corresponds to an aperture defined by the frame element. The fastener is configured and dimensioned to removably secure to the frame element at the at least one aperture. The frame element comprises a semi-rigid or rigid base frame element, and an interface layer secured about the base frame element. The interface layer is formed from a resilient material more compressible than the base frame element, and the liner is more flexible than the interface layer.

The present disclosure is relates to an orthosis device. The orthosis device, in one embodiment, includes an actuator housing, and an electric motor coupled to the actuator housing, the electric motor including a motor stator and a motor rotor, and the electric motor further having high output torque. The orthosis device, in this embodiment, further includes a low-ratio transmission coupled to the actuator housing, the transmission including a gear system coupled to the actuator housing, and a drive system coupling the electric motor and the gear system, wherein a combination of the electric motor and transmission provide a user backdrivable orthosis device.