An exercise and massage device utilizes a substantially spherical body having a central cavity that extends to opposite sides of the spherical body so that the cavity forms openings on opposite sides of the spherical body. The spherical body has an outer core of a first resilient hardness. A single rigid handle is positioned within the cavity. The openings of the cavity are sized and configured for allowing a user to access and manually grasp the handle through either opening. A resilient outer layer surrounds the outer core of the spherical body and provides an exterior surface of the spherical body. The resilient outer layer has a second resilient hardness that is less than that of the first resilient hardness of the outer core of the spherical body to provide a cushioning effect when the device is used in a massage mode. The device is weighted to provide a total weight of the device of from 2 lbs or more.

A method for performing cardiopulmonary resuscitation (CPR) includes elevating the head, heart and shoulders of an individual from a starting elevation angle to a final elevation angle greater than zero degrees relative to horizontal while performing CPR by repeatedly compressing the chest. The method includes elevating the brain within a time period selected to be slow enough to permit a sufficient amount of blood to flow to the brain throughout the elevation time period. The method also includes regulating the intrathoracic pressure of the individual while performing CPR. The performance of chest compressions is stopped and after stopping the performance of chest compressions, the head, heart, and shoulders are promptly from the final elevation angle within a timeframe selected to prevent significant drainage of blood from the brain until the head, heart and shoulders are lowered.

A massage apparatus includes a frame defining a central opening, with a web of mesh cloth or fabric spanning the opening. A plurality of SMA wire segments span the central opening directly adjacent to the cloth or fabric. The wire segments are joined at opposed ends to a power circuit that provides ohmic heating for the wires. The wires may be actuated singly and sequentially, the contraction of each wire providing a compression of the body portion upon which it impinges. The apparatus may be a portable massage device for use with any chair, or built into a chair or bed or other furniture, or a slipcover.

The present disclosure relates to an assisted exoskeleton rehabilitation device, comprising: a back structure comprising a back crossbeam, a back supporting panel with an adjustable length, and a shoulder pneumatic muscle element mounted on the back supporting panel; an arm structure; a shoulder joint assembly, by which the arm structure is connected to an upper end of the back structure; and a waist structure. An upper end of the back supporting panel is fixedly connected to the back crossbeam, and a lower end thereof is fixedly connected to the waist structure. The shoulder joint assembly comprises a curved shoulder joint connecting panel, a shoulder traction wheel, a shoulder traction line, a first hinge mechanism and a second hinge mechanism. One end of the shoulder joint connecting panel is connected to the upper end of the arm structure by the first hinge mechanism to form a bend-stretch revolute pair of the shoulder joint, and the other end of the shoulder joint connecting panel is connected to the back crossbeam by the second hinge mechanism to form an abduction-adduction revolute pair and a medial rotation-lateral rotation revolute pair of the shoulder joint assembly, and the shoulder traction wheel is fixed to the upper end of the arm structure. The shoulder traction line is connected at one end to the shoulder traction wheel, and connected to the shoulder pneumatic muscle element at the other end.

The present invention relates to a movement-dependent stabilisation support system (100) for stabilising a moving body (200), which comprises a plurality of sensors (110), a plurality of actuators (120) and a control unit (130). The plurality of sensors (110) continuously detects movement parameters of the body (200), on which basis the control unit (130) determines whether there is an instability of the body (200). If it is determined that there is an instability, the control unit (130) selects a stabilisation strategy, according to which the actuators (120) are controlled. When controlled, the actuators (120) attached to the body (200) stiffen and limit the freedom of movement of the body (200), such that a movement in the direction of the imminent unstable state is prevented or suppressed. In this way, the body (200) is supported in its stabilisation and an imminent fall is prevented.

A method for performing cardiopulmonary resuscitation (CPR) includes elevating the heart of an individual to a first height relative to a lower body of the individual. The lower body may be in a substantially horizontal plane. The method may also include elevating the head of the individual to a second height relative to the lower body of the individual. The second height may be greater than the first height. The method may further include performing one or more of a type of CPR or a type of intrathoracic pressure regulation while elevating the heart and the head. The first height and the second height may be determined based on one or both of the type of CPR or the type of intrathoracic pressure regulation.

A spinal treatment system includes a traction device, an exercise device adapted for imparting curvature to the lumbar or sacral spine of a user and for manipulating the spine and intervertebral discs with decompression force, and a cushion coupled to the traction device and configured to bear against one or both of a head of the user and the thoracic spine of the user. The exercise device includes a frame for placement on the floor. A pad or inflatable bladder is carried by the top surface of the frame. A body strap attachment portion encompasses the thoracic-sacral spinal vertebrae region of the user and secures the frame to the user. The cushion includes one or more pad sections or inflatable bladder sections.

Disclosed herein are a massage device including a body composition measurement module for body composition measurement and a method of controlling the same. An embodiment of the present disclosure discloses a massage device including a massage module configured to provide mechanical stimuli to at least a part of the body of a user, a first body composition measurement module provided on a leg massage part to measure the body composition of the user, and a controller configured to control operation of the massage module and the first body composition measurement module.

The presently disclosed subject matter is directed to a walker comprising a portable lift toilet seat. Particularly, the walker is defined by a frame that supports a toilet seat, a cover, and a pair of actuators. The cover provides a privacy feature, hiding the toilet seat from view during normal operation of the walker. When needed, the cover can be lifted or folded away to allow the user to access the toilet seat. The toilet seat can then be lifted and/or lowered by actuators positioned on either side of the walker. In this way, a user can easily be positioned over a toilet to use the bathroom without the need for a caregiver to lift and lower him. The user can also be lifted after they are done using the bathroom to return to a standing position or sitting position.

A patient transfer and training aid includes a chassis to which a lifting unit is attached. The lifting unit includes a lifting arm assembly and an active foot support assembly fixed to the chassis. The device also includes a control unit which operates motors of the lifting arm assembly and the active foot support assembly. A patient can activate the foot support assembly to provide vibratory movement of the foot support assembly in order to provide muscle toning and training able to assist in the recovery and rehabilitation of the patient. The device can also be used to aid in the transfer of a patient from one location to another. The device can be used in a variety of different configurations to provide different forms of patient support and training.