An orthosis device is disclosed, wherein the orthosis includes a frame comprising straps with fasteners, hinges and lateral elements connecting the straps to the hinges, each of which consists of a sleeve with an arcuate shape connected to one lateral element, and a hoop connected to the other lateral element, the hoop being placed in the sleeve with a clearance fit. The orthosis device may be provided with stops provided with grooves, and a rim provided with recesses, with a width corresponding to at least the width of the lateral elements with fit tolerance, and a protrusion situated in the central part of the stop.

A hinged ankle brace having a semi-rigid ankle cuff and a semi-rigid foot bed rotatably connected by a medial hinge and a lateral hinge provides enhanced stability and support to a wearer's ankle. The medial hinge of the ankle brace may be higher than the lateral hinge to accurately replicate the bending motion of an ankle. The ankle brace also includes ratchetably interconnected semi-rigid straps. These semi-rigid straps provide a semi-rigid structure encircling the ankle of a wearer for enhanced support. The ratchet mechanism may include a curved window that enables angular adjustment of the ratcheting straps. The ankle brace may also include a soft inner liner and a soft outer sleeve. The outer sleeve is configured to provide compression to the semi-rigid shell, which in turn provides additional compression to the ankle. The semi-rigid foot bed may include posterior extensions that cup and support the wearer's heel, and a posterior cut-out portion that receives the wearer's heel.

An orthotic strapping system that loosens all or a portion of a strap by capturing the angular movement of an orthotic joint to move the attachment point of the strap. This can be done with cabling or by using rotating cams and rigid linkages to connect them.

A leg brace isolates a lower extremity of a leg to which the brace is secured. The leg brace includes an upper leg cuff and a lower leg cuff. Two upper struts are attached to opposite sides of the upper leg cuff and extend along the upper leg cuff. Two lower struts are attached to opposite sides of the lower leg cuff and extend along the lower leg cuff. One hinge pivotally connects one upper strut and one lower strut and a second hinge pivotally connects the other upper strut and the other lower strut. The hinges can be configured to have a limited and/or selectable degree of rotation (e.g., flexion and/or extension). Bottom ends of the lower struts extend beyond a user's foot of the leg to which the leg brace is attached. A foot is attached to each bottom end of the lower struts.

A hinged ankle brace including a foot bed member and an ankle cuff which are hinged together by flexible joint members. The flexible joint members yieldably resist hinged movement between the foot bed member and the ankle cuff in a plantarflexion and dorsiflexion direction. The design of the upper ends of the medial and lateral wings of the foot bed member and the ankle cuff permit a limited amount of inversion and eversion movement between the foot bed member and the ankle cuff.

It is the object of the invention to provide a knee bracing system that bolsters the body's natural ligaments, and accommodates user's with different natural Q-angles, to reduce the knees proneness to injury or re-injury. The invention is a cable system that acts much like the body's natural way that resists the forces that cause excessive joint movement and injury to the ACL and or MCL. As the leg travels through the range of motion the cables provide external hyper extension, bending, and rotation support preventing the tibia bone from moving forward (hyper extending) or twisting (lateral rotation) and or laterally bending with respect to the femur.

It is the object of the invention to provide a bracing system that bolsters the body's natural ligaments to reduce the proneness to injury or re-injury. The invention is a cable system that acts much like the body's natural ligaments, and that resists the forces that cause excessive joint movement and injury. As the ligament travels through the range of motion the control loops formed by cables provide external hyperextension, bending, and rotation support.

A hinged ankle brace including a foot bed member and an ankle cuff which are hinged together by flexible joint members. The flexible joint members yieldably resist hinged movement between the foot bed member and the ankle cuff in a plantarflexion and dorsiflexion direction. Disc-shaped spacer-washers are positioned at the outer sides of the flexible joint members. The design of the upper ends of the medial and lateral wings of the foot bed member and the ankle cuff permits a limited amount of inversion and eversion movement between the foot bed member and the ankle cuff. The flexible joint members and the spacer-washers also permit a limited amount of inversion and eversion between the foot bed member and the ankle cuff.

The present disclosure provides various embodiments related to a proximal cuff for articulated dynamic ankle foot orthotic devices and systems for donning a proximal cuff for an articulated dynamic ankle foot orthotic device.

An orthotic device including a plurality of posterior dynamic struts and an adjustable posterior multiple strut engager, wherein the plurality of posterior dynamic struts has a first posterior dynamic strut and one or more additional posterior dynamic struts, and wherein the adjustable posterior multiple strut engager is affixed to the first posterior dynamic strut and is adapted to restrain the movement of said one or more additional posterior dynamic struts, and wherein the adjustable posterior multiple strut engager may be adjusted to engage said one or more additional posterior dynamic struts in combination with the first posterior dynamic strut, thereby forming a single posterior dynamic strut assembly of greater rigidity than the first posterior dynamic strut alone.