An adjustably tensioned roller massage system provides a pair of roller massage assemblies in opposed adjustable tensioned or spaced relation to allow engagement of each one of a pair of roller massage assemblies on a corresponding massageable portion of a body.

A releasable gripping glove is provided having one or more flexible artificial tendons extending through a finger section of a glove body. The flexible artificial tendon is configured to maintain a structurally articulated configuration when the finger section is articulated. Each tendon includes locking teeth that engages with a releasable locking tab extending form a locking mechanism configured to engage the locking teeth when the finger section is articulated. A release mechanism is provided to engage and disengage the locking mechanism. A thumb release rod is positioned within a thumb portion and connected to the release mechanism. The articulating of the finger section releasably locks the flexible artificial tendon in the articulated position, which is releasable through relaxing of the thumb portion.

A massage device for an arm of a vehicle occupant includes a hand resting region having at least one moveable hand massaging element. The massage device also includes at least one forearm resting region with at least one moveable forearm massaging element and two lateral forearm support regions each with at least one moveable forearm massaging element.

The present invention is a motorized device used to apply pressure on a specific pressure point on a person's hand known to alleviate anxiety, pain, migraines, headaches and toothaches. The pressure point is located between the thumb and index finger in the web of the hand. The device consists of a motor and mechanism attached to two contact ends producing a circular motion while applying pressure to the specified pressure point. The mechanism is enclosed in ergonomic case suitable for use on both the left and right hand. Batteries are the source power.

In a method for detecting carpal tunnel using an ultrasonic detection device, the palm is placed on a flat surface, and the fingers are naturally stretched out to form a “5” shape; a mark is placed 0.5 cm above the crease of the palm (Distal wrist crease), and the probe unit of an ultrasonic detection device is placed at the short axis position of the wrist joint. By rotating the probe unit, the probe unit, the marker, and the index finger are on the same axis (index finger axis), so that the image of the carpal tunnel section of the palm can be obtained on a display of the ultrasonic detection device. Accordingly, the detection method is accurate and efficient, correctly guides students and doctors to find the position of the carpal tunnel correctly, and avoids the purposeless search for the position of the carpal tunnel by the probe on the palm, and subsequent treatment.

An active orthotic device, e.g. a hand orthosis, is attached to one or more limbs of a human subject and comprises a respective set of actuators (21) for moving a respective limb (1A) among the one or more limbs. A method for controlling the orthotic device comprises obtaining one or more bioelectric signals, [S(t)], from one or more bioelectric sensors (10) attached to or implanted in the human subject; processing the one or more bioelectric signals, [5(t)], for prediction of an intended application force, FA(t), of the respective limb (1A) onto an object; obtaining a force signal, PA(t), from a force sensing device (22) associated with the respective set of actuators (21) and/or the respective limb (1A); and generating, as a function of a momentary difference, e(t), between the intended application force, FA(t), and the force signal, PA(t), a respective set of control signals, it(t), for the respective set of actuators (21).

A pedal assembly for an exercise and rehabilitation device can include a disk having an axis of rotation. A central aperture can be formed in the disk along the axis. Spokes can extend radially from adjacent the central aperture toward a perimeter of the disk. The disk can be formed from a first material. In addition, a crank can be coupled to one of the spokes of the disk. The crank can have a hub concentric with the central aperture. Pedal apertures can extend along a radial length of the crank. The crank can be formed from a metallic material that differs from the first material. A pedal having a spindle can be interchangeably and releasably mounted to the pedal apertures in the crank.

A conjoined handwear is provided. The conjoined handwear has a first handwear and a second handwear, each handwear having a thumb opening, wherein the first and second handwear are joined in such a way that the thumb openings are adjacent to each other, thereby a guide may engage the first handwear while a patient engages the second handwear so that former can, by moving their own hand, influence the movement of the latter's hand during manual tasks.

The present invention relates to improvements in or relating to tremor stabilisation apparatus and methods, in particular to gyroscopic devices for use in controlling tremors of parts of the body and for reducing effects of tremors on the human body. The apparatus includes a wearable element and at least one gyroscopic device mounted or mountable to the wearable element, the gyroscopic device including a gyroscope and a gyroscope housing. The at least one gyroscopic device may be mounted within the housing such that the gyroscope may precess with respect to the housing. The mount may include a hinge to which the gyroscope is mounted and a hinge plate or hinge mount to which the hinge is mounted for rotation with respect to the gyroscope housing, such as a turntable mounted to the gyroscope housing. The gyroscopic devices may include a control arrangement to control the precession of the gyroscope.

Therapeutic devices configured to be worn by an individual to apply compression, vibration, and/or heat to cartilage tissue at one or more joints of the individual. The individual dons the therapeutic device so that therapeutic units of the therapeutic device are located in proximity to the cartilage tissue, and electrical power is supplied to a control system and to the therapeutic units to operate and control each of the therapeutic units individually and simultaneously to selectively apply the compression, vibration, and/or heat to the cartilage tissue.