A knee brace comprises a medial hinge device and a lateral hinge device each including an upper arm configured to be attached to a thigh, and a lower arm configured to be attached to a shank. An assembly joins free ends of the upper arm and of the lower arm in each of the medial hinge device and the lateral hinge device, the assembly of each of the medial hinge device and the lateral hinge device including an operative set of pivot and pivot slot, and another operative set of follower and at least one follower slot. The assemblies of the medial hinge device and a lateral hinge are configured to induce a corrective constraint on leg movement. A system for generating a knee brace customized to a patient is also provided.

Disclosed is a multi-axis corrective knee brace. The knee brace comprises a thigh cuff component (101) configured to engage rear thigh area of an user, a calf cuff component (102) configured to engage with the patient's leg at the calf area below the knee, and a pair of multi-axial hinge assemblies (103) coupling the thigh cuff component (101) and the calf cuff component (102) for relative articulation. The knee brace further comprises rotating hinge elements (90) connecting the pair of multi-axial hinge assemblies (103) to the a calf cuff component (102) and to the thigh cuff component (101). Specifically, the rotating hinge elements (90) are capable of adjusted towards inner and outer side by means of key in order to treat other deformities such as Bow Legs (Genu Varum deformity) and Knock Knee (Genu Valgum deformity).

An orthopedic device comprising a first shell, a second shell, and a hinge connecting to the first and second shells. A first strap having a first end slidably connects to the first shell and a second end removably anchors to the second shell. An overlay extends over a portion of the first shell and forms a clearance with the first shell into which the first end of the first strap extends. Portions of the overlay secure to the first shell outside of the clearance.

A hip joint orthotic that can be used in stages. In the first stage the orthotic includes a stiff relatively brace assembly that can limit the amount of allowed flexion, extension, abduction, and adduction. In the second stage the relatively stiff brace can be removed and the orthotic can be used as a soft wrap. In both stages the orthotic is configured to easily mount and retain a thermal pack in a desired position or positions. In many instances the thermal pack will be a cold pack, but in some cases a hot pack may be used as well.

A knee brace includes a support module including a first body, a second body, and a hinge movably coupling the first body to the second body. The includes a pin on one of the first and second bodies, and a receptacle on the other of the first and second bodies. The receptacle is configured to receive the pin therein, such that the pin is rotatable and translatable within the receptacle. The knee brace also includes a fastener configured to releasably attach the knee brace to a leg. One of the first and second bodies couples with a first portion of the leg via the fastener, and the other of the first and second bodies couples with a second portion of the leg via the fastener. The first and second portions of the leg are separated by a knee joint of the leg.

A connector for a strap includes a buckle assembly having a base part, and a strap mount flexibly depending from the buckle assembly. The strap mount is integrally connected to the base part such that the base part is rigid when the strap mount bends relative thereto.

A connector for a strap includes a buckle assembly having a base part, and a strap mount flexibly depending from the buckle assembly. The strap mount is integrally connected to the base part such that the base part is rigid when the strap mount bends relative thereto.

A knee brace includes a support module including a first body, a second body, and a hinge movably coupling the first body to the second body. The hinge includes a pin and a receptacle in the first and second bodies. The pin defines a plurality of teeth thereon and the receptacle defines a plurality of teeth therein. The plurality of teeth on the pin are configured to engage with the plurality of teeth in the receptacle such that the pin is rotatable and translatable within the receptacle. The knee brace also includes a fastener configured to releasably attach the knee brace to a leg. The first and second bodies couples with a first portion of the leg and with a second portion of the leg via the fastener. The first and second portions of the leg are separated by a knee joint of the leg.

An exoskeleton for supporting an arm of a user includes a torso attachment device for releasably connecting the exoskeleton to a torso of the user, a bracket which is connectable to the torso attachment device, a lifting rod which is connectable to the torso attachment device via the bracket and which is reversibly movable in a first direction and a second direction relative to the bracket, a cantilever for supporting the arm of the user which is releasably connectable to the arm of the user, and a ratchet mechanism. The ratchet mechanism connects a first end of the lifting rod to a first end of the cantilever where the ratchet mechanism allows rotation of the cantilever in a first direction of rotation and blocks rotation of the cantilever in a second direction of rotation.

The invention relates to a joint for an orthopedic device, wherein the joint comprises a first element 2 and a second element 6, which are connected to one another via a connection device 10, wherein the connection device 10 is designed in such a way that the first element 2 can be swivelled relative to the second element 6 in a swivel range in a plane of movement, and can be displaced in a movement range in the plane of movement, and cannot be moved in directions outside of the plane of movement.