A method of performing a bunion surgery to correct an alignment between a first metatarsal and a first cuneiform may involve aligning a bone cutting guide with a joint between the first metatarsal and the first cuneiform. The bone cutting guide can have a joint plate offset from a guide feature, with the joint plate extending downwardly relative to the guide feature. The process of aligning the bone cutting guide with the joint may involve inserting the joint plate into the joint. The method may involve using the guide feature of the bone cutting guide to guide a cutting tool to cut a leading edge of the first metatarsal and adjusting an alignment of the first metatarsal relative to the first cuneiform using a bone positioning device. The method may also involve fixing a position of the first metatarsal relative to the first cuneiform with a bone connector.

A polyaxial external fixation strut including a strut member and a first ball joint coupled to an end portion of the strut member. The first ball joint includes a first ball joint body and a first ball member. The first ball member is rotatably coupled to the first ball joint body to allow for variable angle adjustable positioning of the first ball member within the first ball joint body. The first ball joint additionally includes a friction member. The friction member is configured to create friction between the first ball member and the first ball joint body.

In an example, a clamping assembly includes a longitudinal member having a first end and a second end, the second end defining a first clamp, a second clamp configured to attach to the first end of the longitudinal member and connect to a rod assembly, a clamping member including a first end, a second end defining a spherical portion, and a third clamp, where the first clamp of the longitudinal member is configured to receive the second end of the clamping member.

An external fixator system includes a proximal frame configured to restrict motion in a lower extremity of a subject, and a frame connector assembly. The proximal frame includes a first, second, and third component. The first component can support a first clamp to secure a first pin inserted within a bone extending between a foot and a knee of the lower extremity. The third component extends from a second end of the second component. The first, second and third components have longitudinal axes that are substantially coplanar. The third component includes an extension to extend over a dorsal portion of the foot of the subject and to support a second clamp to secure a second pin inserted within a bone of the foot. The frame connector assembly extends from the second component to support a third clamp to secure a third pin inserted within a third bone of the foot.

An electrical circuitry fitted to be connected or to be an integral part of a bone fixation device having at least one linear actuator coupled between two rings, including: at least one linear actuator connector, mechanically and/or electrically connectable to said at least one linear actuator; a control circuitry, wherein said control circuitry measures a value related to the movement of said at least one linear actuator and/or to the distance or change in distance between said two rings, by receiving signals from said linear actuator connector; and a memory, wherein said memory stores said value.

A clamping system includes a first clamp body including a first jaw, a second jaw, and a first aperture configured to receive a bone pin, the first clamp body is configured to receive a first connector rod between the first jaw and the second jaw, a second clamp body coupled to the first clamp body and including a third jaw, a fourth jaw, and a second aperture configured to receive the bone pin, the second clamp body configured to receive a second connector rod between the third jaw and the fourth jaw, and a securing assembly movable between a first position and a second position, such that moving the securing assembly from the first position to the second position reduces a distance between the first jaw and the second and reduces a distance between the third jaw and the fourth jaw.

The present disclosure relates to improved external fixation strut comprising: 29. an elongated body comprising a first and a second hollow tubular shaft; 30. opposite connectors respectively coupled to an end portion of the first or the second shaft and each including a ball and socket joint; 31. one shaft having an internal diameter that is slightly larger than the external diameter than the other shaft to host internally the other shaft in a slidably and telescopic manner; 32. said first and second shafts of the strut being realized by a synthetic radiolucent plastic material; 33. a clamp element provided in proximity of overlapping ends of the first and second shaft for providing a fast gripping action stopping the telescopic sliding of one shaft inside the other shaft; 34. a manually operated fixation element acting on the clamp element for exerting said fast gripping action.

A fixation system is also disclosed including at least a first and a second fixation ring and/or at least a fixation arch interconnected by at least one of the above fixation struts.

A method of performing a bunion surgery to correct an alignment between a first metatarsal and a first cuneiform may involve aligning a bone cutting guide with a joint between the first metatarsal and the first cuneiform. The bone cutting guide can have a joint plate offset from a guide feature, with the joint plate extending downwardly relative to the guide feature. The process of aligning the bone cutting guide with the joint may involve inserting the joint plate into the joint. The method may involve using the guide feature of the bone cutting guide to guide a cutting tool to cut a leading edge of the first metatarsal and adjusting an alignment of the first metatarsal relative to the first cuneiform using a bone positioning device. The method may also involve fixing a position of the first metatarsal relative to the first cuneiform with a bone connector.

A device, kit, and method for the treatment of anatomical joint dysfunctions, and more particularly, to a spring hinge comprising: a primary coil spring having a helical structure with a central cavity, wherein the primary coil spring forms a plurality of spirals layered against one another when the primary coil spring is in an unexpanded state; wherein the primary coil spring comprises surfaces that are configured to nest against each other to resist translational or shearing movement between adjoining spiral layers.

An automatic traction device for a lower limb fracture osteosynthesis includes a chassis structure, a lower leg supporting structure and an upper leg supporting structure connected two by two. The automatic traction device further includes a tibia distal position adjusting device, for adjusting a position and an angle of a distal end of a tibia, on the lower leg supporting structure and close to the first end portion of the lower leg supporting structure; and a tibia proximal position adjusting device, for adjusting a position and an angle of a proximal end of a tibia, on the lower leg supporting structure and close to the second end portion of the lower leg supporting structure.