An orthopedic device includes a frame, a brace component, and a suspension element supporting the brace component and connecting the brace component to the frame. The suspension element is suspended relative to the frame and capable of independent movement relative thereto in a controlled manner.

A rear-entry ankle brace includes an elastomeric component defining an inside elbow channel configured to span an ankle joint. A channel opening extends the length of the elastomeric component for direct insertion on top of a leg. One or more leg straps are used to adjustably tension first and second rear edges of the channel opening toward one another and secure the brace to the lower leg. Two foot straps are used to adjustably tension first and second bottom edges of the channel opening toward one another and secure the brace to the mid-foot. The foot straps overlap on the bottom to define a plantar surface of the brace and cross over each other on the topside of the elastomeric component and are secured to a leg strap. A pair of stabilizing stirrups optionally are included on the inside surfaces of the elastomeric component and receive the malleoli.

A joint for an orthopedic device, the joint comprising: a first element; a spring support mounted to the first element and having at least one spring element; and a second element, the second element being pivotally mounted to the first element in a first swiveling direction counter to a first force applied by the at least one spring element and in an opposite second swiveling direction counter to a second force applied by the at least one spring element.

Devices, systems, and methods for maintain a preselected tension between a first portion and a second portion of an orthotic brace include a controlled tension unit that includes a housing coupled to a first portion of the orthotic brace, the housing having a cavity formed therein, one or more constant-force spring mounted at or near a first end of the cavity, and a connector cable having a first end connected to an end of the one or more constant-force spring and a second end extending out of the housing through a second end of the cavity. The second end of the connector cable is configured to connect with a coupling element coupled to a second portion of the orthotic brace. In this arrangement, the controlled tension unit is configured to maintain a preselected tension between the first portion and the second portion of the orthotic brace.

The present invention relates to a scoliosis brace worn on the body so as to enable the normal curvature of the spine to be restored, and a manufacturing method therefor. The scoliosis brace according to one embodiment of the present invention comprises: a support part worn so as to cover one shoulder or one side of the abdominal region of the body; and a pressure band coupled so as to connect one side and the other side of the support part, and covering one side or the other side of the abdominal region of the body or one side or the other side of the chest region of the body, with respect to the support part, so as to pressurize and support the same.

Cervical collars, components thereof, and methods of using them overcome issues with conventional cervical collars.

A wearable assistance device, such as an exosuit/exoskeleton, for providing assistance (e.g., assistive force or assistive torque) while reducing lower back muscle stress, fatigue, injury risk and/or pain is disclosed. The wearable assistance device includes adjustable modular straps and/or elastic bands. The modular straps allow swapping of different straps to achieve a custom fit of the wearable assistance device. The modular elastic bands allow swapping of different elastic bands to achieve a preferred level of assistance by the wearable assistance device.

A medical device for assessing and/or rehabilitating a human joint of an extremity includes a joint brace comprising a first support for coupling to an upper part of the extremity, a second support for coupling to a lower part of the extremity, and a rotatable joint connecting the first and second supports, and a mechanical device coupled to the first and second supports, the mechanical device configured for moving one or more of the first and second supports so as to rotate about the joint. In another alternative the medical device can include sensors located for making angle measurements between the first and second supports and for recording movement data and a computing device for receiving and storing the angle measurements and the movement data and for transmitting said data via a radio transmitter.

The present disclosure relates to a technical field of medical exercise apparatus. A non-surgical reduction exercise therapy apparatus for rupture of anterior cruciate ligament or achilles tendon includes a thigh immobilization device, a calf immobilization device, an adjustable knee joint hinge and a foot immobilization device, a boot heel being provided under a rear of the boot sole. The present disclosure has a reasonable and compact structure and is convenient to use, and also has characteristics of low treatment cost, no surgery, whole process activities, pleasant dance, no influence on work and study during treatment, and fast healing of the anterior cruciate ligament or achilles tendon.

A rear-entry ankle brace includes an elastomeric component defining an inside elbow channel configured to span an ankle joint. A channel opening extends the length of the elastomeric component for direct insertion on top of a leg. One or more leg straps are used to adjustably tension first and second rear edges of the channel opening toward one another and secure the brace to the lower leg. Two foot straps are used to adjustably tension first and second bottom edges of the channel opening toward one another and secure the brace to the mid-foot. The foot straps overlap on the bottom to define a plantar surface of the brace and cross over each other on the topside of the elastomeric component and are secured to a leg strap. A pair of stabilizing stirrups optionally are included on the inside surfaces of the elastomeric component and receive the malleoli.