An energy storing brace to be worn on a limb of a user may include a primary frame and a secondary frame pivotally connected to the primary frame. An energy storage assembly may include a spring member that is spaced apart from the first hinge and the second hinge. A first energized cord path may extend from the first hinge to the energy storage assembly. A tensioning cord may extend from a first anchor section secured relative to the first primary arm, across a first peripheral surface and through the first energized cord path to the spring member. Pivoting the brace from an extended position toward a flexed position may cause (i) the first extension member to exert a tension force on the first cord segment thereby loading the spring member and the spring member applies a restorative spring force to urge the brace to return to the extended position.

An orthopedic device for supporting a lower back of a user includes a mechanical energy store, a pelvic element, an upper body element with a first force transmission element and an upper leg element with a second force transmission element. The upper leg element is arranged on the pelvic element such that it can be swivelled about a first swivel axis, the upper body element is movably arranged relative to the pelvic element, the first force transmission element can be engaged and disengaged with the second force transmission element by moving the upper body element relative to the pelvic element, and the mechanical energy store can be charged and discharged by swivelling the upper leg element relative to the upper body element when the first force transmission element is engaged with the second force transmission element.

Wearable assistive jamming apparatus and related methods are disclosed herein. An example apparatus includes a frame to be worn about a body part of a user and a jamming actuator carried by the frame. The example apparatus includes an electrode to deliver electricity from an electrical source communicatively coupled to the electrode to a muscle of the user. In the example apparatus, the jamming actuator is to transition from a flexible state to a substantially rigid state in coordination with the delivery of the electricity to the electrode to support the body part.

A motion assistance apparatus including a proximal module to be attached to a proximal part of a user, a distal module to be attached to a distal part of the user, the distal module configured to slide relative to the proximal module, and a connecting module configured to detachably connect the proximal module and the distal module is provided.

Systems, devices and methods for control of a prosthetic or orthotic device (POD) based on electromyography (EMG) signals are described. The POD may be a lower or upper limb POD having one or more joints. One or more EMG sensors may detect the EMG signals. The EMG sensors may be external, subcutaneous, intraperitoneal, epimysial, intramuscular, or other types. Control of the POD may be based on EMG and non-EMG signals, such as velocity, acceleration, position, force, etc. Voluntary and/or automatic control may be implemented, for example with voluntary muscle contractions and/or data based on velocity, acceleration, position, force, etc. In some embodiments, the neutral position of an ankle POD is adjusted based on EMG signals.

An orthopedic device for supporting a lower back of a user includes a mechanical energy store, a pelvic element, an upper body element with a first force transmission element and an upper leg element with a second force transmission element. The upper leg element is arranged on the pelvic element such that it can be swivelled about a first swivel axis, the upper body element is movably arranged relative to the pelvic element, the first force transmission element can be engaged and disengaged with the second force transmission element by moving the upper body element relative to the pelvic element, and the mechanical energy store can be charged and discharged by swivelling the upper leg element relative to the upper body element when the first force transmission element is engaged with the second force transmission element.

An orthopedic device for the orthotic or prosthetic provision of a patient. The orthopedic device includes a knee joint which has a proximal upper part and a distal lower part arranged pivotably thereon, an ankle joint, a pivoted foot part which can be fastened distally to the ankle joint, and a shin part arranged between the ankle joint and the knee joint. The upper part of the knee joint or a thigh part fastened thereto that can be attached to the patient's body and is coupled with the foot part by a force transfer device, which causes a plantar flexion of the foot part when a knee is flexed.

An assistance apparatus includes wires that couple an upper body belt to be worn on an upper body of a user to first and second knee belts to be worn above left and right knees of the user, and a motor. In a case of assisting the user in turning left, the motor generates a tension in second and fourth wires in a period of 65% or more and 100% or less of a first gait phase of a left leg and a period of 0% or more and 20% or less of a second gait phase of the left leg, and generates a tension in sixth and eighth wires in a period of 65% or more and 100% or less of a first gait phase of a right leg and a period of 0% or more and 20% or less of a second gait phase of the right leg.

The invention relates to an orthopaedic device for the orthotic or prosthetic provision of a patient witha knee joint (10), which has a proximal upper part (11) and a distal lower part (13) arranged pivotably thereon, an ankle joint (20), a pivoted foot part (23) which can be fastened distally to the ankle joint (20), anda shin part (14) arranged between the ankle joint (20) and the knee joint (10), wherein the upper part (11) of the knee joint (10) or a thigh part fastened thereto that can be attached to the patient's body is coupled with the foot part (23) by means of a force transfer device (3; 30, 31, 32, 35; 40, 41, 42), which causes a plantar flexion of the foot part (23) when a knee is flexed.

Orthopedic devices may include rigid members for coupling to portions of a limb that includes a joint, and a cable that couples to the rigid members and extends up to a powered element. The orthopedic devices are configured to produce beneficial forces using the rigid member and the cable, which beneficial forces are translated to the wearer. The orthopedic devices include control systems that generate control signals for controlling the powered element.