An orthosis provides a wearer at least one of forearm supination, forearm pronation, shoulder internal rotation, shoulder external rotation, shoulder adduction, shoulder abduction, shoulder flexion, shoulder extension, elbow flexion, and elbow extension. It includes a shoulder assembly adapted to be secured to a wearer's shoulder and an upper arm assembly connected to the shoulder assembly and adapted to be secured around a wearer's upper arm. The upper arm assembly defines an upper arm assembly axis. A wrist assembly is adapted to be secured around a wearer's wrist. The wrist assembly defines a wrist assembly axis. A splint arm assembly includes an upper splint arm, a lower splint arm, and a pivot pivotally connecting the upper splint arm to the lower splint arm. The upper splint arm adjustably connects to the upper arm assembly and the lower split, arm adjustably connects to the wrist assembly.

A device is provided for manipulating an arm of a user, thereby providing extension or flexion assistance to the arm about an elbow. The device has an arm engagement system, having an upper arm member with an upper arm frame having a pivot end and a distal end, a posterior elbow pad, a forearm member with a forearm frame having a pivot end and a distal end and a distal wrist pad, and a pivoting connection operatively coupled with the pivot end of the upper arm frame and the pivot end of the forearm frame. A force application system having a force applicator is connected between the distal end and the pivot end of the forearm frame. A force application mechanism is connected at or near the distal end of the upper arm frame.

A medical apparatus has a base portion shaped and configured to engage a proximal portion of a user's limb, a mobile portion shaped and configured to engage a distal portion of the user's limb, and a motor assembly configured to selectively rotate the mobile portion relative to the base portion. Related methods are disclosed herein.

An integrated functional electrical stimulation (FES) system includes a component of a mobility assistance device, and an FES system mounted within the component. The FES system includes an FES stimulator that is embedded within the component, and a plurality of FES jacks that are electrically connected to the FES stimulator and are located on the component. The FES jacks are configured to receive a plurality of FES electrodes, and an electrical stimulation output from the FES stimulator is conducted through the FES jacks to the FES electrodes. In a wireless embodiment, the FES stimulator is configured to wirelessly transmit a control signal for applying an electrical stimulation output to the plurality of FES electrodes, and the FES jacks are eliminated. The FES stimulator may be embedded within a back portion of the hip component of an exoskeleton device, and in the wired embodiment the FES jacks are located on wing portions of the hip component.

This motion assist device 100 assists with flexing and extending of fingers F1, F2 of a user, the motion assist device 100 comprising: at least one arm 10; at least one connection member 20 configured so as to be capable of connecting the at least on arm 10 to each of the fingers F1, F2; an arm support mechanism 30 that turnably supports the at least one arm 10, the arm support mechanism 30 being configured so as to be mountable on the back Hb of the hand H of the user; an arm drive means 40 that causes the at least one arm 10 to turn; and a stopper 50 that extends from the arm support mechanism 30, the stopper 50 being configured so as to restrict movement of the proximal phalanges of the fingers of the user by being in contact with the proximal phalanges. The at least one arm 10 is configured so as to turn while the distance Dr between the at least one connection member 20 and the turning center Cr of the at least one arm 10 is kept fixed.

A self-operated, or therapist assisted, apparatus particularly adapted for massaging a user's body parts affected by repetitive strain injuries such as tendinitis and carpal tunnel syndrome, comprises two clamping arms joined at a base end and provided with an opening at the other end. Flexible massaging members are mounted on opposite medial sections of the arms. A body part may be placed between the two arms of the device to be acted upon by the massaging members, whereby the body part is adjustably clamped between the pair of massaging members and massaged by translating and rotating movements of the body part along an axis perpendicular to the mounting axes of the massaging members. Alternatively, one of the arms of the apparatus may be separated from the apparatus and used independently to massage body parts that otherwise would not fit between the arms of the apparatus.

A therapy device (1) for treating a body part particularly a big toe of a patient, comprises: a base body (2) with a surface (21L, 21R) for receiving a portion of the body of the patient adjacent to the body part; a moving segment (3) having a support surface (321) for receiving the body part; and a drive unit (5) for pivoting the moving segment (3) back and forth relative to the base body (2). The drive unit (5) is fixed to the moving segment (3) and pivotable back and forth relative to the base body (2) together with the moving segment (3).

An inversion table includes a supporting stand, a tilt inversion mechanism and an operating unit. The tilt inversion mechanism includes an inversion unit including a support table assembly which is pivotally disposed on the supporting stand, and an extension assembly which is coupled with and extends from the support table assembly downwardly. A feet holding unit includes a front feet holding assembly securely and non-pivotably disposed on a lower portion of the inversion unit, and a rear feet holding assembly pivotably and movably connected to the inversion unit. The operating unit includes an operating assembly operably coupled with the front feet holding assembly, and is rotatable about a rotating axis at the front feet holding assembly to actuate the rear feet holding assembly to rotate and move toward the front feet holding assembly. In an inversion state, the users feet is firmly held on the front feet holding assembly.

A therapeutic massage device includes a pressure head configured in a therapy side of a platform. The platform may pivot or rotate to enable varying stretch and therapy angles to activate a variety of muscles. The pressure head may be pressed against a body part and in particular an appendage, such as a person's foot or hand to stimulate reflexes and massage muscles and other soft tissue for therapy. The angle of the platform may be selected to provide the best angle for pressure application via the pressure head. A platform may rotate about a pivot or have a shape to allow the platform to rotate on a curved surface. A platform may have curved therapy surfaces to enable varying degrees of stretch. A pressure head may include a vibration device and may be a massage ball that is detachably attachable to the platform.

A foot flexure device is provided. The foot flexure device includes a foot plate configured to be positioned under a user's foot and a support element configured to be worn on a user's upper leg. A first adjustable strap is attached to a first lateral side of the foot plate and the support element, and a second adjustable strap is attached to a second lateral side of the foot plate and the support element. A first length of the first adjustable strap and a second length of the second adjustable strap can be adjustable to provide for dorsiflexion, eversion, and/or inversion of the user's foot.