Features for a powered prosthetic thumb are described. The thumb provides for rotation of a digit that mimics the natural movement possible with a sound thumb. The thumb may attach to a full or partial prosthetic hand or socket on a residual limb. The thumb may include an upper assembly, including a prosthetic thumb digit, rotatably attached to a mount about a pinch axis and a lateral axis. The digit may rotate about only the pinch axis, only the lateral axis, or both the pinch and lateral axes simultaneously. A first actuator may actuate to cause rotation of the digit about the pinch axis. A second actuator may actuate to cause rotation of the digit about the lateral axis. The first and second actuators may be actuated together at appropriate speeds to cause rotation about both the pinch and lateral axes simultaneously. A swaying chassis may be rotatably connected with the upper assembly and a lower assembly about various offset axes to provide for rotation about the lateral axis.

A prosthesis system (10) adapted for being worn by a user (1) comprises at least a first cover (11), a prosthetic limb (12) and an adapter device (13, 14) for fixing the first cover to the prosthetic limb, wherein the adapter device comprises a first adapter part (13) configured for being attached to the first cover, a second adapter part (14) configured for being mounted onto the prosthetic limb and locking means (131, 141) for locking the cover (11) onto the prosthetic limb.

A prosthetic appendage for attachment to an outer extremity of an amputated limb that is composed of modular elements fabricated by three-dimensional printing. In one embodiment the prosthetic appendage is a leg. The prosthetic leg includes a foot portion and a plurality of modular and three-dimensionally printed limb elements. One of the plurality of limb elements is pivotally coupled to the foot portion and another of the limb elements is configured at one end to receive the outer extremity of the amputated leg. In another embodiment of the present invention the prosthetic appendage is a hand. The prosthetic hand includes a wrist element with one end configured to receive the outer extremity of an amputated hand, a base portion attached to the wrist element and a plurality of modular and three-dimensionally printed finger elements selectively coupled to adjacent finger elements or the base to form prosthetic fingers.

A method of controlling a prosthetic hand having at least one motorised component is provided. The method comprises the steps of providing the hand with a first wireless transceiver and a controller in communication with one another, storing at least one manipulation instruction relating to the at least one component, and assigning a code relating to the at least one manipulation instruction to at least one second wireless transceiver. The at least one second transceiver is placed in a location at which the at least one manipulation instruction is to be given, and the controller manipulates the at least one component in accordance with the at least one manipulation instruction when the first transceiver communicates to the controller that the at least one second transceiver is within a predetermined distance of the first transceiver. Related methods and systems for controlling a prosthetic hand are also provided.

Features for a prosthetic wrist and associated methods are described. The wrist couples with a prosthetic socket and a prosthetic hand. The wrist may rotate the hand. The wrist includes features to prevent or mitigate undesirable separation of the wrist from the socket. The wrist may have an expanding coupling, such as an expanding ring, to better secure the wrist with the socket. An actuator may cause the coupling to expand outward to prevent or mitigate undesirable separation of the wrist from the socket. Alternatively or in addition, the wrist may include torque control features to prevent undesirable or premature separation of the hand from the wrist, for example when using a quick wrist disconnect (QWD) apparatus. A torque control method may tailor or limit multiple torques to be applied by the wrist to the hand based on operational requirements and phases, such as anticipated torque loads and operational timing.

A suspension system and method for attaching a prosthetic device to a residual limb. In an illustrative embodiment, the suspension system comprises: a prosthetic socket that is attached to the prosthetic device; a socket adaptor that is incorporated into the prosthetic socket, the socket adaptor comprising a power supply, a microprocessor, and a power switch; a plurality of electromagnets, electropermanent magnets or electroadhesors that are arranged in an array and embedded in said prosthetic socket, each of said electromagnets, electropermanent magnets or electroadhesors being connected to the socket adaptor; a magnetically active liner that is adapted to be in intimate contact with said residual limb and that is fabricated from a magnetically active material; and a locking pin that protrudes from said magnetically active liner and that is adapted to attach the liner to the socket.

A system for control of a device includes at least one sensor module detecting orientation of a user's body part. The at least one sensor module is in communication with a device module configured to command an associated device. The at least one sensor module detects orientation of the body part. The at least one sensor module sends output signals related to orientation of the user's body part to the device module and the device module controls the associated device based on the signals from the at least one sensor module.

Systems and methods are disclosed for assisting body motion by attaching a plurality of rods to a body; sensing movement parameters with sensors coupled to the rods; transmitting the movement parameters to a wearable device and receiving actuation commands from the wearable device; and based on the received commands, actuating the rods with one or more actuators.

The present invention relates to a prosthesis for an arm or a leg, comprising a flexible sleeve for receiving a residual limb, a constrictor on the flexible sleeve for tightening the sleeve around the residual limb, and a rigid mount secured to the sleeve and spaced axially along the sleeve from the constrictor for mounting a tool. A sensor is provided in the mount to measure a physical parameter associated with the function performed by the tool. The prosthesis further comprises an actuator connected to the constrictor and a control circuit acting on the actuator to vary the force tightening the sleeve around the residual limb in dependence upon the measured parameter.

Disclosed herein is a control method of a wearable robot, including: generating reference gait data based on the results of sensing by a sensor unit included in a structure; estimating, when a wearer walks, the wearer's gait phase based on the results of sensing by the sensor unit; detecting a gait phase having a minimum difference from the estimated gait phase from the reference gait data; and driving a driver of the structure, according to a control signal generated based on the estimated gait phase and the detected gait phase.