Improvements in a device that provides cardiopulmonary recitation (CPR). The portable robot extends from a base from a single side where the robot can be wheeled over a patient. The compression head of the portable CPR robot extends from only one side of the base to leave one-side of the patient open for doctors to assess the patient. The rate and force of the chest compressions can be adjusted. A plurality of sensors that can monitor and adjust in real-time based upon the condition of the patient. The device can have additional function including, but not be limited to X-ray, air/breathing function, defibrillator as well as abdominal compression capability. Communications can link the portable CPR robot to other medical information with a wired, or more preferably a wireless link to the patients records and medical diagnostic tools.

A wearable safety system for either diving, harsh or anoxic environments, or for individuals at high risk for respiratory and/or cardiac failure is disclosed. The wearable safety system includes biometric monitoring and provides cardiac and/or respiratory support in the event that the wearer experiences cardiac and/or respiratory failure. There are different configurations of the wearable safety system designed to work with different use cases, and to provide different levels of protection. In the case of diving, the wearable safety system additionally utilizes data collected by the dive computer to advise a rescue diver as to the best course of action in managing an unconscious diver's ascent and can also inflate the diver's buoyancy control device (BCD) or onboard personal flotation device.

A medical resuscitation system includes a platform for releasable coupling to a patient for delivery of mechanical chest compressions, the platform having sensor(s) for monitoring aspect(s) of compression delivery, and processing circuitry configured to control the delivery chest compressions during a patient therapy session; receive, during the session, signals from each sensor; and store, to a memory, operational data collected for use by an authorized user in troubleshooting a problem with the platform and/or gathering historic data regarding use of the platform, and clinical metrics regarding the delivery of the compressions during the session, where the clinical metrics are collected for use in a summary report accessible to a clinical user. The summary report may be transferred to a server or a portable computer readable medium. The operational data may be transferred to an accessory unit or data integrator configured to cooperate with the platform for providing the therapy.

A method for performing lower limb rehabilitation training comprises the steps of: (a) placing a training object's feet on a pedal in a limb rehabilitation training system, wherein the pedal comprises a pressure sensor and a location information sensor; (b) standing stably on the pedal to enable the pressure sensor on the pedal to record the body weight of the training object; and (c) sitting down on the saddle, thereby enabling: the pressure sensor on the pedal to monitor pressure variation between the training object and the pedal throughout the training of the training object, wherein the rehabilitation evaluating unit evaluates the physical status and rehabilitation status of the training object according to the physiological information and exercise information of the same collected by the sensing unit, and adjusts the exercise frequency and the exercise duration of the training object according to the physical status.

A rehabilitation training system for lower limb rehabilitation comprises a function module comprising: a sensing unit that collects body function data comprising pedal pressure, exercise duration, and exercise mileage; and a mechanical structure module comprising: a driving unit and a linkage unit arranged on a frame; a groove plate for supporting a cam roller, a pedal for supporting the weight of the training object and driving the lower limb of the training object to move; a link for transmitting kinetic energy to the pedal; a rocker for supporting the link; a connecting bulge driving a guide shaft to rotate; a linear bearing supporting the guide shaft and an axis pin for connecting the link and the slider.

Disclosed is a massage apparatus including a processor configurable to receive a first dataset associated with a physio-logical parameter of an individual to derive a first emotional indication of the individual; wherein the first emotional indication and the first dataset are configured as inputs to derive a second emotional indication of the individual.

A medical apparatus for standing aid includes a backrest (4) that has at least one side thereof provided with a crank rocker mechanism that includes a crank mechanism (1), a triangle linkage mechanism (2), and a rocker mechanism (3), the crank mechanism (1) is rotatably connected to the triangle linkage mechanism (2) such that an included angle between a second driven link (BE) of the triangle linkage mechanism (2) and the crank mechanism (1) is always smaller than 90°, and the crank mechanism (1) driving the triangle linkage mechanism (2), the rocker mechanism (3) and the backrest (4) connected to the triangle linkage mechanism to perform interactive movement repeatedly along a predetermined curve trajectory in response to a driving force from a drive effect of a driving unit (100), so that the backrest (4) connected to the second driven link (BE) assists a trainee in standing up repeatedly by obliquely supporting the trainee's waist.

A smart medical rehabilitation device comprises a driving unit, a linkage unit, a sensing unit and a rehabilitation evaluating unit that are mounted on a frame, wherein the linkage unit comprises a link mechanism and a slide mechanism linked thereto so that the slide mechanism can be moved together with the link mechanism, wherein the slide mechanism is driven by the driving unit to slide along the groove plate, the link mechanism is linked to move with the slide mechanism thus the link mechanism moves to the corresponding position so that the slide mechanism can assist a training object in performing lower limb rehabilitation training, and the rehabilitation evaluating unit evaluates the physical status and rehabilitation status of the training object according to the physiological information and exercise information of the same collected by the sensing unit, and adjusts the exercise frequency and the exercise duration of the training object according to the physical status in real time.

An occupant support includes a seat and a seat cover. The seat is adapted to support an occupant resting thereon. The seat cover is coupled to the seat and arranged to lie between the occupant and the seat.

Systems and devices described herein provide respiration assistance to users who have difficulty breathing on their own, and include a cuirass configured to be coupled to a thorax of the user and a ventilator fluidically coupled to the cuirass. The ventilator includes a housing, a pump including an inlet and outlet, a valve, an actuator, and a controller in communication with the actuator. The controller is configured to cause the actuator to: move the valve into a first configuration in which a first flow path of the valve fluidically couples the outlet to the cuirass and a second flow path of the valve fluidically couples the inlet to an external environment during exhalation and move the valve into a second configuration in which the first flow path fluidically couples the inlet to the cuirass and the second flow path fluidically couples the outlet to the internal volume during inhalation.