A method for creating a segmented alignment rod, the method including receiving a request for a segmented alignment rod, receiving at least one image of a deformed spine, generating, a normal spinal curvature, and generating a segmented alignment rod design.

In one embodiment, a non-invasively adjustable spinal system for treatment of a subject having spondylolisthesis includes a first implantable actuator having at least one anchoring structure, the anchoring structure configured to facilitate securement of the first implantable actuator to a portion of the sacrum of the subject. The non-invasively adjustable spinal system can further include an adjustment element, configured to be coupled to the first implantable actuator, the adjustment element having an engagement structure configured to engage at least one transverse process of a lumbar vertebra of the subject. The non-invasively adjustable spinal system can further include a driving element, wherein remote activation of the driving element causes movement of the adjustment element in relation to the first implantable actuator.

Disclosed is a bone repair system, in particular for treatment of fractures or defects of the pars interarticularis. In an embodiment, the bone repair system comprises a support member and a fastening member. The support member is configured to be fixed to a first bone or bone fragment. The fastening member includes a first and a second end portion and an elongate portion extending between the first and the second end portions. The first end portion is coupled to the support member, and the elongate portion is configured to loop around at least one second bone or bone fragment. The support member includes fixation means for adjustably securing the second end portion of the fastening member so as to stabilize and/or fix the first and the second bone or bone fragment with respect to each other.

A coupling device for coupling a rod to a bone anchoring element includes a receiving part with a head receiving portion for receiving a head of the bone anchoring element, a rod receiving portion for receiving the rod, a downwardly facing surface, and an upwardly facing surface below and monolithically formed with the downwardly facing surface, and a locking member movable relative to the receiving part from a first position where the head is insertable into the head receiving portion to a second position where the head is prevented from being removed from the head receiving portion. At least part of the locking member is held to the receiving part between the downwardly and upwardly facing surfaces, and wherein the receiving part and the locking member are only separable from one another by permanently deforming or damaging at least one of the receiving part or the locking member.

Embodiments of architecture, systems, and methods to develop a learning/evolving system to robotically perform and model one or more activities of a medical procedure where the medical procedure may include diagnosing a patient's medical condition(s), treating medical condition(s), and robotically diagnosing a patient's medical condition(s) and performing one or more medical procedure activities based on the diagnosis without User intervention where the activities may be performed in computer-based environment formed by the learning/evolving system, live, or a combination thereof.

Embodiments of architecture, systems, and methods to develop a learning/evolving system to robotically perform and model one or more activities of a medical procedure where the medical procedure may include diagnosing a patient's medical condition(s), treating medical condition(s), and robotically diagnosing a patient's medical condition(s) and performing one or more medical procedure activities based on the diagnosis without User intervention where the activities may be performed in computer-based environment formed by the learning/evolving system, live, or a combination thereof.

A persuader instrument for advancing a fixation rod into a vertebral implant includes a housing and at least one arm. The at least one arm can include detents for detachable connection to the vertebral implant. The persuader instrument can also include a shaft coupled to an anchor. The anchor can include a fixation rod engagement surface. The shaft can be axially displaceable through the housing to axially displace the anchor and a rod engaged by the anchor. The persuader instrument can further include an auto-locking ratchet assembly in releasable engagement with the shaft. The auto-locking ratchet assembly can control axial displacement of the shaft through the longitudinal passage of the housing.

A dynamic interspinous process device for implantation with respect to a first vertebra and an adjacent second vertebra is provided. The dynamic interspinous process device may include a first attachment side and a second attachment side. Each of the first attachment side and second attachment side may include a central portion, a first wing extending from the central portion, a second wing extending from the central portion, and one or more slots extending from an interior side of the respective attachment side to an exterior side of the respective attachment side. The one or more slots of the respective attachment side may be configured to allow the first wing and the second wing to move relative to one another in a direction of a longitudinal axis of the dynamic interspinous process device.

Devices and methods for protecting the neurovascular structures about the vertebral column are provided. One embodiment of the invention comprises a neuroprotective stent or device adapted for placement in an intervertebral foramen of a vertebral column and configured to resist compression or impingement from surrounding structures or forces. The stent or device may further comprise a flange or hinge region to facilitate attachment of the device to the vertebrae or to facilitate insertion of the device in the foramen, respectively.

An instrument includes an outer sleeve and an inner sleeve positioned in the outer sleeve. The inner sleeve defines a cavity. The shaft extends through the inner sleeve and includes a drive. A latch is positioned in the cavity. An inner sheath extends through an outer sheath and has a proximal end positioned between the inner sleeve and the shaft and a distal end comprising a threaded surface. The proximal end of the inner sheath includes a groove. The inner sleeve is movable relative to the outer sleeve to move the instrument between a first orientation in which the latch is positioned in the groove and the sheaths are prevented from translating relative to the outer sleeve and a second orientation in which the latch is spaced apart from the groove and the sheaths are translatable relative to the outer sleeve. Systems, implants and methods are disclosed.