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.

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 medicated patching system for positioning a plurality of medicated patches around an orthopaedic device extending through a patient's skin is provided. Each of the plurality of medicated patches includes an outer end and an opposite inner end. Each of the plurality of medicated patches also includes an upper layer and a bottom layer extending between the outer end and the inner end. A medication is positioned between the upper layer and the bottom layer. A recess extends from the inner end toward the outer end.

A medicated patching system for positioning a plurality of medicated patches around an orthopaedic device extending through a patient's skin is provided. Each of the plurality of medicated patches includes an outer end and an opposite inner end. Each of the plurality of medicated patches also includes an upper layer and a bottom layer extending between the outer end and the inner end. A medication is positioned between the upper layer and the bottom layer. A recess extends from the inner end toward the outer end.

Kits and systems are disclosed that include one or more segments of elastically deformable membrane in combination with one or more external fixation members and optionally in combination with one or more tension protector pads. Also disclosed are methods of use of the kits and systems in methods that involve stretching the elastically deformable membrane and applying the stretched membrane to the skin of a patient, and releasing the tension on the membrane, thus causing compression of the skin to which the membrane is applied. The method may further include the optional steps of inserting one or more external fixation members through the membrane/skin combination and into a bone segment, applying a distraction force to the one or more external fixation members, and separating at least a portion of the membrane so as to release a portion of the tension in the skin at a rate that is similar to a rate at which the distraction force is applied.

A system and method to receive a request for a patient-specific surgical plan, create the requested plan, and provide it to a surgeon is disclosed. A Planning server may receive information regarding a patient, such as one or more files or objects, and an order from a surgeon for a surgical plan. A Plan Development client may include a surgical planning module that accesses the one or more files or objects, and creates a computer-generated, three-dimensional model of the patient anatomy. The planning module of the Plan Development client also may create an electronic surgical plan, and may transmit the plan to the Planning server. The ordering surgeon may be notified of the availability of the plan, and may access the plan stored at the Planning server through a surgeon client. The ordering surgeon may utilize the remotely generated surgical plan during the surgical procedure on the patient.

A system and method to receive a request for a patient-specific surgical plan, create the requested plan, and provide it to a surgeon is disclosed. A Planning server may receive information regarding a patient, such as one or more files or objects, and an order from a surgeon for a surgical plan. A Plan Development client may include a surgical planning module that accesses the one or more files or objects, and creates a computer-generated, three-dimensional model of the patient anatomy. The planning module of the Plan Development client also may create an electronic surgical plan, and may transmit the plan to the Planning server. The ordering surgeon may be notified of the availability of the plan, and may access the plan stored at the Planning server through a surgeon client. The ordering surgeon may utilize the remotely generated surgical plan during the surgical procedure on the patient.

An orthopedic distraction device is provided. The orthopedic distraction device includes a first upper paddle for engaging a first bone of a joint, a lower paddle for engaging a second bone of the joint and a displacement mechanism. The displacement mechanism includes a drive assembly operable to move the upper paddle relative to the lower paddle. The lower paddle is releasably connected to the displacement mechanism.

This application describes surgical instruments and implants for building a posterior fixation construct across one or more segments of the spinal column. More specifically, the application describes instruments and methods for building a posterior fixation construct across one or more segments of the spinal column in a minimally invasive fashion.

This application describes surgical instruments and implants for building a posterior fixation construct across one or more segments of the spinal column. More specifically, the application describes instruments and methods for building a posterior fixation construct across one or more segments of the spinal column in a minimally invasive fashion.