In various embodiments, provided herein are systems, methods, processes, and devices for providing locomotive rehabilitation to a subject via one or more gait motions that substantially accurately mimic motions performed in healthy, natural gait cycles. The system may mimic natural gait motions via footplates and handles, and one or more linkage systems. In particular embodiments, the system may further include a motor unit and/or clutch for providing controlled forces assisting or resisting motions of a linkage system. Further, the system may include a tower for operating in a standing or seated position. In at least one embodiment, the system includes a body weight support system that provides offloading forces to a subject.

The invention relates to the field of medicine. A device for relieving the load on the human musculoskeletal system during work or leisure comprises a base, a supporting bed mounted at an angle to the base, a foot rest and a spring mechanism. The spring mechanism allows the support bed to rock relative to the base. The device is equipped with a rocking force adjustment mechanism, as well as with height-adjustable armrests and a table. The table is adjustable with respect to its position relative to a person. This provides for an improvement in the performance of the device for users of different builds, allows users to be more comfortably accommodated irrespective of their height or weight, improves levels of efficiency, reactivity and endurance in users, and provides a greater sensation of well-being and relaxation than sitting.

A stretch bar for an inversion therapy table. The stretch bar has two support bars that are connected at one end by a connecting beam and has handles at the other ends of the support bars. The handles are located above the user and enable the user to pull or push on the handles to increase or decrease the amount of inversion therapy. The support bars may be adjustable in length, such as by using a pin and hole adjustment configuration. The support bars may be connected by a second connecting beam.

Methods and system to partially support the weight of a human user engaged in task performance at ground level are presented herein. An upper body support system includes multiple degrees of freedom to adapt the physical geometry of the support system to meet the demands of the task at hand. Each degree of freedom of the upper body support system is passively controlled by the human user from a convenient user interface. In some embodiments, each end-effector of the support system is positioned and fixed in three degrees of freedom over a relatively large workspace by manually controlling the brake torque of two rotational joints and the state of a locking mechanism of a linear joint. In another aspect, an end-effector is removeably attached to the support system with a quick-change coupler. In some embodiments, a swivel joint mechanism compensates for misalignment with the work environment.

An inversion table that incorporates additional therapies, such as massage, traction, and heat. Therapeutic elements of the inversion table may be programmable, so that settings are cycled automatically through preprogrammed patterns. The table may have one or more back massage elements that travel along tracks in the table to massage different portions of the back, and similar neck massage elements that massage different portions of the neck. Traction actuators may apply traction forces to the head and the legs. One or more heating pads may apply heat to any portion of the body. Settings for the therapeutic elements may be controlled by a processor that may execute stored therapy programs, or may respond to user input from a controller or a smartphone.

A device with anti-gravity suspension is provided, comprising: a base, a torso support unit and a torso-wearing unit; wherein, the base is provided with two rails erected on two opposite sides; the torso support unit is connected to and movable up and down along the two rails, the torso support unit has a torso-holding portion for accommodating a torso, and the torso-holding portion is acted on by at least one actuating element disposed on the torso support unit to move up and down vertically; the torso-wearing unit is worn on the torso of a user, and a second coupling element disposed on the torso-wearing unit is connected to a first coupling element disposed on the torso-holding portion. When the user is held by the torso-holding portion, the torso weight load on the lower limbs can be reduced.

A surgical patient interface including a patient support platform having a first end and a second end and configured for secure placement with respect to at least one surface of a building structure, wherein the patient support platform is configured to interface with a patient such that at least the torso of the patient extends in a generally vertical direction between the first end and the second end of the patient support platform, and one or more patient supports coupled to the patient support platform and configured to secure the patient to the patient support platform, such that the at least the torso of the patient is held in a substantially static condition, and such that a target portion of the patient's skin is accessible for surgical puncture or incision.

In a first aspect, the present invention relates to a hoist for facilitating a transition between firstly a seated or lying position and secondly a standing position of an individual, comprising: a movable lifting arm for exerting a lifting force, a connecting element for transferring the lifting force from the lifting arm to the individual, and a movable handle suitable for supporting the hands of the individual during operation of the hoist, wherein the movable handle is configured to shift during operation of the hoist, wherein during operation of the hoist, the movable handle also executes a movement relative to the lifting arm.

A complex rehabilitation technology system includes a frame and a complex rehabilitation technology device. This frame is movable between a collapsed carriable position and an expanded support position to facilitate portability or storage. The complex rehabilitation technology device is coupled to the frame. And, the complex rehabilitation technology device is configured to be operable when the frame is in the expanded support position. The complex rehabilitation system can be portable (e.g., configured for one-handed carrying).

A decompression device and a method using the decompression device are provided. The device includes a support structure having a longitudinal brace, and a cross brace that may be coupled to or part of the longitudinal brace. A harness may be coupled to the cross brace, and the harness may have a traction surface. An adjustable fastener may control the harness length therein controlling the distance between the traction surface and the first cross brace. The base positioned on a surface or structure, and portions of the harness positioned around the body of a user, such as under the arms and around the back. The user may manipulate the adjustable fastener to position portions of the harness a desired distance from the cross brace. The user may then leans forwards tilting the decompression device and the harness will provide lift, and therefore decompression, to the back of the body of a user.