An orthopaedic joint distractor includes a stem post defining a pivoting axis, an actuator configured to cause translational movement of the stem post, a locking sleeve holding the actuator and the stem post, a distractor arc held by the locking sleeve orthogonally to the pivoting axis and having a surface, and a first locking member held by the locking sleeve that can be advanced away from and toward the surface. The first locking member prevents rotation of the distractor arc about the pivoting axis when it has advanced a sufficient distance toward the surface.

A surgical instrument with a first contact element and a second contact element for spreading tissue, bone, or the like. The instrument has a stationary base part and a sliding part, which is arranged on the base part in a longitudinally movable manner. The first contact element is integrally molded on the distal end of the base part, and the second contact element is connected to the base part and to the sliding part via a first arm and to the base part via a second arm. The first arm is arranged on the second contact element via a first pivot axis, on the base part via a second pivot axis, and on the sliding part via a third pivot axis, and the second arm is arranged on the second contact element via a fourth pivot axis and on the first contact element via a fifth pivot axis.

A forearm and wrist fracture table includes base members, vertical bars, horizontal bars, an elbow support member and a hand support member. The vertical bars includes a first vertical bar and a second vertical bar attached to the support base members. The horizontal bars are attached between the support base members and vertical bars to provide horizontal stability and length adjustment between the support base members and the vertical bars. The elbow support member is attached to the first vertical bar to provide support for the elbow. The hand support member is attached to the second vertical bar to receive and support a hand extending from the elbow, wherein the fractured arm is supported between the elbow support member and the hand support member, wherein a surgeon is allowed to modulate an amount of needing pressure required to distract fracture fragments, and thereby reducing fracture and healing the fracture site.

A forearm and wrist fracture table includes base members, vertical bars, horizontal bars, an elbow support member and a hand support member. The vertical bars includes a first vertical bar and a second vertical bar attached to the support base members. The horizontal bars are attached between the support base members and vertical bars to provide horizontal stability and length adjustment between the support base members and the vertical bars. The elbow support member is attached to the first vertical bar to provide support for the elbow. The hand support member is attached to the second vertical bar to receive and support a hand extending from the elbow, wherein the fractured arm is supported between the elbow support member and the hand support member, wherein a surgeon is allowed to modulate an amount of needing pressure required to distract fracture fragments, and thereby reducing fracture and healing the fracture site.

An electronically assisted artificial vertebral disc having an upper disc plate and a lower disc plate is disclosed. An actuator imparts movement to at least one of the upper and lower disc plates. A control device controls the actuator and the amount of movement between the disc plates. The actuator includes a plurality of either linear actuators or rotary actuators that are driven by electric motors in response to the control device. The control device includes at least a first sensor for detecting the position of the actuator and at least a second sensor for detecting the spatial orientation of at least one of the upper and lower disc plates. The control device also preferably includes a microprocessor that calculates the desired positions of the upper and lower disc plates and provides a control signal to the actuator to drive the upper and lower disc plates to their desired positions.

A crimping tool for crimping a crimp onto a cable includes a crimping unit, a housing unit, and a tensioning unit. The crimping unit includes an inner crimping tube having a distal end configured to receive the cable; and an outer crimping tube mounted around the inner crimping tube. The housing unit is configured to receive the outer crimping tube, and includes a housing having an open lower portion; a trigger-handle; and a first hinge connecting the trigger-handle to the housing. The tensioning unit is mounted to the housing, and is configured to apply tension to the cable. The trigger-handle releasably engages the open lower portion of the housing by rotation about the first hinge; and the outer crimping tube is configured to move in an axial direction relative to the inner crimping tube to crimp the cable when actuated by the trigger-handle.

Dynamic reference arrays use markers and trackers to register a patient's anatomy to computer system. Wherein the dynamic reference array may be screwed into a patient's spinous process, clamped on to a spinous process, or attached to the spinous process using posts. In embodiments, a dynamic reference array may comprise a single structure comprising and attachment member and a scaffold. In alternate embodiments, the dynamic reference array may comprise distinct structures that allow the dynamic reference array to swivel and collapse in order to facilitate registration, while not interfering with a surgical procedure.

The surgery of revision knee arthroplasty is complex one for both of one and two stages for constraint and hinged implants. The inventor create a method and device to overcome the difficulties of this surgery as determining the size of the revision prosthesis and position of it on the bone after cut and replacement of the failed primary prosthesis. This method enable the surgeons to overcome the abnormalities, distortions and artifacts on bone surface which resulted from the CT scan due to the primary implant. It enables the surgeons to detect the size and position of the implant, also uses land marks on bone surface to design and product the device which use to perform the bone cutting. The device enables the surgeon to determine and guiding the bone cuts below the cement plane in case of cemented implants. Also guiding to the bone cuts below the implant surface in case of cement-less implants.

A system, method, and device for drilling holes (420, 422) in a target bone (414) are described. For example, the system includes a cutting tool (330), a navigation system (310) configured to track a position of the cutting tool, and a computer-assisted surgical (CAS) system (340) operably connected to the cutting tool and the navigation system. The CAS system can be configured to determine an implant component (100) to be implanted on the target bone (414), determine a cutting block position for preparing the target bone to receive the implant component, determine a plurality of pin locations (420, 422) for securing the cutting block (416) based upon the determined cutting block position, and selectively provide instructions to the cutting tool to cut a hole when the cutting tool is in a position adjacent to at least one of the determined plurality of pin locations.

A clamping device for an external fixation system includes a clamp body including, a first jaw and a second jaw, wherein the first jaw and the second jaw form a groove configured to receive an external fixation component and a bore configured to receive a bone pin. The clamping device includes a locking assembly coupled to the clamp body and configured to change state between at least an unlocked state and a locked state, wherein the external fixation component is configured to translate within the groove and the bone pin is configured to translate within the bore when the locking assembly is in the unlocked state, and the first jaw and the second jaw restrict movement of the external fixation component within the groove and the bore restricts the bone pin from translating within the bore when the locking assembly is in the locked state.