An articulated coupling or joint (10) for orthopedic braces or orthoses comprises a pair of bars or uprights (14, 15), a proximal end of each of these being rotatingly mounted around an axis defined by its rotation pin (25), this proximal end of the bars or uprights being toothed and engaging with a common grooved cylindrical cursor (20) translatable along an additional axis, the other distal end of the respective bars (14, 15) being fixable to a portion of the body of the patient to be treated. Each bar or upright (14, 15) is mounted on a respective element (12, 13) on which the respective rotation pin (25) is mounted and which itself is rotatingly mounted on an additional pin (18) coaxial with the additional axis; moreover, the additional pin (18) is mounted on a platform (11), a surface of which rests against the body of a patient to be treated, the two bars (14, 15) thus being able to simultaneously rotate both around their own primary centres of rotation represented by their rotation pins (25) and around a common centre of rotation represented by the additional pin (18).

The Modular Ankle Brace System discloses ankle braces that utilize modular construction and dual-hinge connections to provide support for the ankle while allowing for regular dorsiflexion and plantarflexion movements. The modular construction of the braces allow the braces to be used at various stages of recovery from an ankle injury or as a preventive brace to protect the ankle from rotation and twisting during physical activity. The components of the braces are connected with hinges that allow for support of the ankle without bulky wraps or braces over the ankle and underneath the heel. Thus, providing a more comfortable and functional ankle brace.

An orthopedic device and method for using the same are provided for applying a dynamic load on a leg of a user. The orthopedic device has a rigid or semi-rigid frame including lower and upper frames, and a hinge assembly connecting the lower and upper frames. A dynamic loading component is used to urge the load on the user's leg on the basis of flexion of the hinge assembly on the basis of tension in an elongate element connecting the dynamic loading component and at least one of the lower and upper frames. A peak load is generated at a flexion angle between extension and flexion of the hinge assembly.

A positioning device for arranging and orienting multiple securing elements on a base layer of a base body of an orthopaedic device. The positioning device includes a first holder having at least one receiving device for a securing element, and a second holder having at least one receiving device for a securing element, wherein the first holder and the second holder are mounted on one another such that they can swivel about a swivel axis about a restricted angular range starting from a starting position.

A knee brace comprising an articulation assembly connectable with a first cuff movable with respect to the articulation assembly about a first location defining a first pivot axis between the first cuff and articulation assembly, and movable about a second location defining a first rotation axis between the first cuff and articulation assembly. The knee brace may further comprise a second cuff connectable with the articulation assembly, the second cuff is movable with respect to the articulation assembly about a third location defining a second pivot axis between the second cuff and articulation assembly, and is movable about a fourth location defining a second rotation axis between the second cuff and articulation assembly. The first pivot axis and first rotation axis may intersect each other or be offset from intersecting each other, the second pivot axis and second rotation axis may intersect each other or be offset from intersecting.

An orthopedic device and method for using the same are provided for applying a dynamic load on a leg of a user. The orthopedic device has a rigid or semi-rigid frame including lower and upper frames, and a hinge assembly connecting the lower and upper frames. A dynamic loading component is used to urge the load on the user's leg on the basis of flexion of the hinge assembly on the basis of tension in an elongate element connecting the dynamic loading component and at least one of the lower and upper frames. A peak load is generated at a flexion angle between extension and flexion of the hinge assembly.

A flat foot orthosis has two bodies, and each one of the two bodies has a wearing space, a foot portion, an ankle portion, a shank portion, a substrate, and a first elastomer. The substrate and the first elastomer are disposed adjacent to each other, and surround the wearing space. The substrate extends from the foot portion to the shank portion through the ankle portion. The first elastomer extends from an instep of the foot portion at a cuboid bone of a wearer through a lateral side of the foot portion, a sole of the foot portion, and an arch of the foot portion in order, wraps over a navicular bone of the wearer, and extends outwardly combining upwardly through the ankle portion at a talus bone of the wearer toward the shank portion.

A high-arched foot orthosis has two bodies, and each one of the two bodies has a wearing space, a foot portion, an ankle portion, a shank portion, a substrate, and an elastomer. The substrate and the elastomer are disposed adjacent to each other, and surround the wearing space. The substrate extends from the foot portion to the shank portion through the ankle portion. The elastomer inwardly extends from an instep of the foot portion at a cuneiform bone of a wearer through an arch, a sole, and a lateral side of the foot portion in order, wraps over a cuboid bone of the wearer, extends through the ankle portion inwardly combining upwardly toward the shank portion, and wraps over a talus bone of the wearer.

Methods for controlling an orthopedic technical device having a top part and a bottom part, which are connected to each other by at least one joint device so as to be pivotable about a joint axis, and at least one attachment device with which the orthopedic technical device can be fixed to a limb are provided. The orthopedic technical device also has an actuator, which is fixed to attachment points on the top part and the bottom part and influences a pivoting of the top part relative to the bottom part, wherein the orientation of the bottom part can be adjusted relative to the limb which is fixable to the upper part.

A hinge for an orthopedic device includes a first part having a first end with a gear component, and a second part hingedly attached to the first part. The second part defines a cavity at a first end, and a worm is located within the cavity and engages the gear component. An adjustment element is adapted to regulate the worm relative to the gear component for articulating the first part relative to the second part.