A drug delivery system is provided. The drug delivery apparatus including at least one sensor configured to detect at least one of a drug delivery parameter and patient data and a portable communication device communicatively coupled to the drug delivery apparatus. The portable communication device includes an input device configured to receive data from the drug delivery apparatus, wherein the data includes at least one of a drug delivery parameter and patient data and an output device coupled to the input device and configured to display the received data.

The invention discloses a wire-driven wrist three-degree-freedom training mechanism for rehabilitation of upper limbs, and relates to the field of upper limb rehabilitating mechanical structures. The wire-driven wrist three-degree-freedom training mechanism comprises a wrist executing mechanism, a wrist linking mechanism, a forearm mechanism and an elbow linking mechanism. The wire-driven wrist three-degree-freedom training mechanism disclosed by the invention adopts a wire-driven design, through comprehensive utilization of two rotation pairs in the training mechanism, wrist three-degree-freedom passive training is realized through two driving motors; through the implementation of the wire-driven wrist three-degree-freedom training mechanism, a patient can adopt a passive training manner to perform rehabilitating training of the upper limbs; the wire-driven wrist three-degree-freedom training mechanism is provided with a position compensation mechanism, and can be adapted to individual differences of different patients, so that the training effect and user experience of the patient are improved; the mechanism is simple, the radiation and noise of the motors are low, and mental pressure of the patient can be reduced.

A system and method for transmission of a signal for a powered assistive device has a sensor node with a wireless transmitter adapted for digitally transmitting a transmitted signal, the sensor node adapted for receiving and monitoring a sensor signal from a sensor attached to a user, and a master node with a controller and a wireless receiver for receiving the transmitted signal from the wireless transmitter. The master node processes the transmitted signal and communicates a control signal to the powered assistive device. The wireless transmitter transmits the transmitted signal at a first rate when the wireless transmitter adapted to transmit the transmitted signal at a first rate when the sensor signal is indicative of the rest state and to transmit the transmitted signal at a second rate when the sensor signal is indicative of the active state, the second rate being greater than the first rate.

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.

An orthotic device includes an upper arm section for receiving an upper portion of an arm of a subject, a forearm section for receiving a forearm section of the arm, and at least one elbow joint rotatably coupling the upper arm section and the forearm section. In the orthotic device, the forearm section includes a release control operatively coupled to the at least one elbow joint, where the release control is configured to transition the at least one elbow joint from a restricted motion state to a free motion state when the release control is activated.

An exercise device for stretching muscles, fascia and joints includes a rear base that transitions to a front nipple made from a solid and firm material. The device is attachable rigidly to a stationary structure such as a door jam in numerous different positions for use in a variety of exercises. The device may be attachable via a clamp unit that can be tightened laterally or other attachment means to attach to the door jam. The exercise device may be modular in form made from a plurality of pieces that are attachable to one another to form the device in a solid unitary structure.

Examples of a device for guiding and detecting a motion of a target joints and a motion assistance system such motion guiding devices are described. The motion guiding and detecting device comprises a motion generator and a motion transfer and target interfacing unit to transfer the motion generated by the motion generator to the target joint. The system further includes a motion detection and feedback unit that interfaces with the target, and a controller that interfaces with both the feedback unit and the motion generator to control and coordinate the motion of the motion generator and the target joint.

A method for exercising a joint and a limb including the following: preventing movement of an exercise device actuation member in a first direction unless pressure exerted by the limb against the actuation member is equal to or greater than a predetermined first target pressure; permitting movement of the actuation member in the first direction at a first predetermined speed when pressure exerted by the limb against the actuation member is equal to or greater than the predetermined first target pressure; preventing movement of the actuation member in a second direction unless pressure exerted by the limb against the actuation member is equal to or greater than a predetermined second target pressure; and permitting movement of the actuation member in the second direction at a second predetermined speed when pressure exerted by the limb against the actuation member is equal to or greater than the predetermined second target pressure.

A motion assistance apparatus including a first support configured to support a waist of a user, a side frame connected to the first support and configured to cover at least a portion of a side of the waist, and a joint assembly connected to the side frame such that a location of the joint assembly is adjustable in a longitudinal direction of the side frame, and configured to be located at a part of a hip joint of the user is disclosed.

A muscle-strengthening passive and active motion device includes: a joint supporter supporting a body part that is bendable or stretchable with a joint region; a driver driving the joint supporter by being combined to the joint supporter; and a controller controlling the driver, wherein the controller is capable of accelerating or decelerating a driving speed of the joint supporter.