An apparatus includes a drive mechanism, a patient support mechanism, and an electronic system. The drive mechanism is included in a trolley and is configured to suspend the trolley from a support track. The drive mechanism includes a first sensor configured to sense an operating condition of the drive mechanism. The patient support mechanism couples to the trolley and includes a tether and a second sensor. The tether can be operatively coupled to a patient such that the patient support mechanism supports the patient. The second sensor is configured to sense an operating condition of the patient support mechanism. The electronic system is included in the trolley and has at least a processor and a memory. The processor is configured to define a gait characteristic of the patient based at least in part on a signal received from the first sensor and a signal received from the second sensor.

A mobility aid including a body assembly, a handle assembly, and electrical assembly. Said body assembly includes a base portion having wheels with locking mechanisms, a telescopic central portion, and a top portion having telescopic portions. The telescopic portions are capable of being extended a predetermined length. The handle assembly includes handles mounted on the top portion. The handles are removable by means of straps attached at the base of each handle. Said straps can be locked when extended. A controller from the electrical assembly performs preconfigured actions such as extend or contract the telescopic members, drive the wheels in a desired direction. The handles are configured to secure a patient in a supine position to the pulled the patient by means of the straps and the wheels to place the patient in a lateral position and permit a caretaker to perform personal care on the patient.

A lift and position device and adapter and methods of use therewith designed to aid attendants in moving and propping the various selected body parts of a patient from atop a support surface, for example, a mattress or hospital bed. The device utilizes a base for stability, a separately powered screw jack, radial adjustment head, a cushion cradle and a single or plurality of fitted cushion(s) configured to optimally raise and lower a particular body part of a patient such as his or her arms, torso, legs, back and the like. An adapter device may optionally re-orient the lift and positioning device, as appropriate, to suit the specific needs of an attendant wishing to the lift, shift, position or prop and secure a particular body part of a patient.

A trolley system configured to transport a patient within an MRI environment includes a patient support portion, a base portion configured for movement relative to a floor, a lift coupled to the patient support portion and the base portion, an electric motor coupled to the lift, and an electric blower coupled to the patient transfer device. The lift is configured to change the elevation of the patient support portion relative to the base portion. The motor is mounted such that the elevation of the motor is fixed relative to base portion. The trolley system is positionable adjacent an MRI apparatus within the MRI environment and the magnetic field of the MRI does not interfere with the operation of the motor or blower. The trolley system may further include a patient transfer device having an air bearing. The blower is configured to deliver air to the air bearing.

A disability standing device has a mounting bracket with strap holes, arm rests, an ankle clamp assembly, wheels with locks, a support rod, grip handles, a grip bar and a latch. The mounting bracket has a rear supporting frame, a front supporting frame, arms rests for the user, grip bars for the assistant to push the device for mobility and a latch to latch the backrest onto the support rod. The backrest has bordering holes for stability strap insertion and is connected pivotally to the rear supporting frame. The backrest includes a grip bar placed on the backside close to the top to be grasped by an assistant to pull the user in the downward or upward position they desire. The ankle clamp assembly is securely connected to the backrest to clamp a person’s ankles. The support rod is mounted on the rear supporting frame of the mounting bracket at a position opposite to the ankle clamp assembly and slightly higher.

The present invention discloses a changeable carrying device for human body based on posture changing which includes a base frame, a moving assembly, a first driving assembly and a carrying assembly for carrying a human body. The base frame has a sliding member capable of moving straight. The moving assembly is pivotally connected with the sliding member. The moving assembly includes a first rod and a crank with an end pivotally connected with the first rod and with an opposite end pivotally connected with the base frame. The first driving assembly drives the moving assembly to rotate relative to the base frame and to move together with the first sliding member.

A body weight support system includes a support track, a trolley, and a power rail. The support track has a first portion and a second portion. The trolley has a support assembly and a drive assembly. The support assembly is configured to support at least a portion of a body weight of a user. The drive assembly is configured to movably suspend the trolley from the first portion of the support track when the user moves along a first surface and is configured to movably suspend the trolley from the second portion of the support track when the user moves along a second surface separate from the first surface. The power rail is coupled to the support track and is configured to be in electrical contact with a portion of the trolley as the trolley moves along the first portion and the second portion of the support track.

A portable rehab station includes a frame having left and right frame members that have bottom ends; left and right outriggers, each having a forward end and a rearward end, the left and right outriggers being connected at the bottom ends of the respective left and right frame members; a front, ground-engageable caster connected to the forward end of each of the left and right outriggers and a rear, ground-engageable caster connected to the rearward end of each of the left and right outriggers; and a standing assist apparatus including a leg brace and connection means for variably connecting the leg brace to the frame members and at variable heights relative to the bottom ends of the frame members.

An apparatus includes a drive mechanism, a patient support mechanism, and an electronic system. The drive mechanism is included in a trolley and is configured to suspend the trolley from a support track. The drive mechanism includes a first sensor configured to sense an operating condition of the drive mechanism. The patient support mechanism couples to the trolley and includes a tether and a second sensor. The tether can be operatively coupled to a patient such that the patient support mechanism supports the patient. The second sensor is configured to sense an operating condition of the patient support mechanism. The electronic system is included in the trolley and has at least a processor and a memory. The processor is configured to define a gait characteristic of the patient based at least in part on a signal received from the first sensor and a signal received from the second sensor.

An exercise vest including a thoracic belt fitting around a person's midsection. A padded elasticized and reinforced band attached to the thoracic belt at center back designed to come from back around in front of each shoulder and connect to unweighting system. Two elasticized and reinforced straps designed to attach in the front and come around each side of patient attach in an x pattern in the back and attach to the unweighting system. The exercise vest is positioned in such a way that as the patient is unweighted it cinches and hugs the person to distribute forces uniformly throughout a patient's torso, preventing wear on the person and strain on the device. This allows us to lift a patient upright out of a wheel chair in an easy, comfortable and safe manner.