Abstract: A fusion plate that comprises a plate body including extended portions at one end of the plate body with a slot therebetween and extended portions at an opposite end of the plate body with a slot therebetween. The fusion plate further comprises a first pair of holes in the plate body and a second pair of holes in the plate body. The fusion plate also comprises a first locking member slideably engageable to the plate body and being operable to slide over the first pair of holes and a second locking member slideably engageable to the plate body and being operable to slide over the second pair of holes.

Abstract: A suction retractor including an elongated tube that is operable to be inserted through a tubular retractor used in minimally invasive surgical procedures. One end of the tube is coupled to a handle having a chamber and the other end of the tube is coupled to a curved retractor portion, where the retractor portion allows the surgeon to hold back various anatomies during the surgical procedure. Thus, the suction retractor provides two functions that may otherwise require two different instruments. The retractor portion includes a series of parallel groves that allow liquids, such as blood, to flow along the retractor portion and into a suction port at the end of the tube. A suction device can be coupled to an outlet port in the handle that causes the blood and other surgical material to be sucked through the tube and out of the handle.

Abstract: A laminar plate that reconstructs or supports the lamina of a vertebra after lamina bone has been removed during spinal surgery and prevents bone growth material from entering the spinal canal. The laminar plate spans a gap from the removed lamina bone and is coupled to, or proximate to, and between a facet and the spinous process by screwing the plate to the bone.

Abstract: A method for attaching a laminar plate to a vertebra during spinal surgery, especially minimally invasive spinal surgery, to reconstruct the lamina of the vertebra after it has been removed during the surgery and prevent bone re-growth material from entering the spinal canal. The laminar plate can be coupled to, or proximate to, and between a facet and the spinous process by screwing the plate to the bone.

Abstract: A surgical delivery system that has particular application for providing bone graft material to an interbody device that restores disc space height during spinal fusion surgery. The bone graft delivery system includes a body portion and a shaft coupled thereto. An auger extends through a bore in the shaft and into the body portion. An end of the shaft opposite to the body portion is configured to be coupled to the interbody device, where the auger extends through a channel in the interbody device. Bone graft material is placed in a hopper coupled to the shaft, where the auger is manually or automatically rotated to deliver the bone graft material through the shaft and into the interbody device where it is dispersed into the disc space.

Abstract: A retractor device for cervical spinal fusion surgery. The retractor device includes a first post assembly having a first pin for mounting the first post assembly to a first vertebral body and a first rod coupled thereto in a multi-axial manner so that the first rod can be pivoted relative to the first pin. The retractor device also includes a second post assembly having a second pin for mounting the second post assembly to a second vertebral body and a second rod coupled thereto in a multi-axial manner so that the second rod can be pivoted relative to the second pin. The retractor device also includes a first retractor blade having a first retractor blade arm slideably engageable to the first rod, and a second retractor blade having a second retractor blade arm slideably engageable to the second rod. The first retractor blade is slid down the first rod and the second retractor blade is slid down the second rod to be positioned and separate the anatomical structures.

Abstract: A robotic surgical device positioning system that allows a surgeon to accurately and remotely position a surgical instrument relative to a patient and to provide fluoroscopic images of the instrument without exposing the surgeon to radiation. The system includes a vertical post that is slidebly coupled to an operating table, a clamp mounted to the vertical post and spaced from the table, and a translational arm mounted to the clamp. The system further includes an instrument positioning assembly mounted to the translational arm opposite to the clamp that includes a plurality of sliding elements that are slidebly mounted to the assembly to provide rotational, anterior-posterior and medial-lateral positioning of the surgical instrument. A control unit is mechanically coupled to the instrument positioning assembly at a remote location by flexible cables for controlling the position of the sliding elements.

Abstract: A pedicle screw distraction device that includes first and second pedicle screws each including a screw body portion and a ball head. The device also includes first and second screw head portions each including an internal threaded bore where the first screw is inserted in the first screw head portion and the second screw is inserted in the second screw head portion. The device also includes a connector link coupled to the first and second screw head portions where the connector link includes an outer perimeter portion having a slot therein. A spring member is positioned within the connector link between and in contact with the first and second screw head portions. A locking member including a plate and a separating portion is positioned between the screw head portions and an inside wall of the connector link where the separating portion is positioned between the screw head portions.

Abstract: An interspinous process spacer insertion device that positions an interspinous process spacer between the spinous process of adjacent vertebrae in a minimally invasive percutaneous surgical procedure. The device includes a trocar rod that extends through a cannulated sleeve. The spacer is attached to the end of the cannulated sleeve, where a trocar tip of the trocar rod extends through the spacer. The trocar rod is moved through the cannulated sleeve and an incision in the patient, and is positioned between the spinous process of the vertebra to align the device. The cannulated sleeve is then moved down the trocar rod so that the spacer slides between the spinous process, and the trocar rod is then withdrawn from the patient. The spacer is then rotated so that it locks behind the spinous process, and the cannulated sleeve is detached from the spacer and removed from the patient.

Abstract: A vertebral disc tensioning device that restores the loss of disc height as a result of disc degeneration and other factors. The device includes first and second pedicle screws each including a screw body portion and a ball head. The device also includes first and second screw head portions each including an internal threaded bore where the first screw is inserted in the first screw head portion and is pivotally mounted relative thereto and the second screw is inserted in the second screw head portion and is pivotally mounted thereto. The device also includes a rigid connector that couples the first and second screw head portions where bolts are threaded through the connector and into the internal threaded bores of the first and second screw head portions. The device also includes a spring assembly offset from the rigid connector that applies a bias to separate the pedicle screws.

Abstract: A surgical screw that includes a body portion that facilitates bone in-growth from a bone in which the screw is mounted so as to stabilize the screw in the bone. The body portion can have various configurations for facilitating bone in-growth, such as indentations, a roughened surface, such as by acid etching or abrasive media blasting, specialized coatings, such as hydroxyapetite, sintered beads, machined channels, etc. Because the body portion of the screw facilitates bone growth, the screw will be more firmly mounted to the bone so as to have a greater integrity in response to movement of the bone. The type of surgical screw can be any surgical screw that will benefit from being better anchored in bone, such as pedicle screws, long bone screws, cervical fusion screws, tendon anchoring screws, etc.

Abstract: A method for providing disc regeneration that includes at least partially restoring disc height using a vertebral disc annular fibrosis tensioning and lengthening device, and then injecting a biologic substance, such as stem cells, into the disc that differentiate into chondrocytes and/or notochordal cells that facilitate disc regeneration. Once the biologic substance has regenerated the disc, it may be possible to remove the vertebral disc annular fibrosis tensioning and lengthening device.

Abstract: An interspinous process spacer insertion device that positions an interspinous process spacer between the spinous process of adjacent vertebrae in a minimally invasive percutaneous surgical procedure. The device includes a trocar rod that extends through a cannulated sleeve. The spacer is attached to the end of the cannulated sleeve, where a trocar tip of the trocar rod extends through the spacer. The trocar rod is moved through the cannulated sleeve and an incision in the patient, and is positioned between the spinous process of the vertebra to align the device. The cannulated sleeve is then moved down the trocar rod so that the spacer slides between the spinous process, and the trocar rod is then withdrawn from the patient. The spacer is then rotated so that it locks behind the spinous process, and the cannulated sleeve is detached from the spacer and removed from the patient.

Abstract: A needle delivery device that has particular application for providing needles for minimally invasive spinal surgical procedures. The device includes an elongated pincher having opposing rails that is slidable within a channel defined in an extended base portion. Widened end portions of the rails hold the needle and push it out of an end of the device where it is released. The pincher is then retracted to a location where the end portions can pick up a next needle to be delivered.

Abstract: A disc space preparation device that has particular application for removing disc material during spinal fusion surgery. The disc preparation device includes a body portion that houses a motor having a shaft attached thereto that is rotated by the motor. The shaft extends through a chamber in a neck portion of the device and into an open head portion of the device at the end of the neck portion opposite to the housing. The head portion rotates relative to the neck portion. The head portion includes a series of blades that are used to cut-away the disc material. The shaft includes an auger that draws the cut material through the neck portion. A suction port is coupled to the chamber in the neck portion to remove the disc material therefrom.

Abstract: A spacer device that is to be inserted between the spinous process of adjacent vertebrae. In one embodiment, the spacer device is percutaneously inserted between the spinous process of adjacent vertebrae using minimally invasive surgical procedures. The spacer device includes a body portion having a channel extending therethrough, a plate member attached at one end of the body portion that is larger cross-wise than the body portion, and at least one retaining member attached proximate to an opposite end of the body portion from the plate member. The spacer device is inserted between the spinous process with the retaining member stored within the body portion. A deploying device is inserted into the channel to deploy the retaining member to lock the spacer device in place.

Abstract: A method for providing vertebral disc annular fibrosis tensioning and lengthening that restores the loss of disc height and provides disc regeneration. In one non-limiting embodiment, the method includes inserting pedicle screws into the vertebral bodies of adjacent vertebra and positioning a spring in compression between and in contact with the pedicle screws so that the spring bias forces the pedicle screws apart to provide a distractive force that increases the height of the disc space and promotes the disc regeneration.

Abstract: A vertebral disc annular fibrosis tensioning and lengthening device that restores the loss of disc height as a result of disc degeneration and other factors. The vertebral disc annular fibrosis tensioning and lengthening device includes pedicle screws having heads with cup-shaped cavities. The pedicle screws are threaded into the vertebral bodies of adjacent vertebrae through the pedicles so that open parts of the heads of the pedicle screws face each other. A spring is inserted into the cup-shaped cavities in compression so that the spring bias forces the pedicle screws apart, thus increasing the height of the disc space.

Abstract: A method for restoring a degenerated intervertebral disc. The method includes preparing a material including embryonic stem cells, placing the material in the degenerated disc and causing the material to generate notochordal cells in the disc to regenerate the disc. Preparing the material includes differentiating the embryonic stem cells into chondroprogenitors.

Abstract: A pedicle screw and rod system that has particular application for spinal fusion surgery. The system includes pedicle screws having ball-shaped heads that are threaded through pedicles of adjacent vertebra into the vertebral body. The system also includes two cannulated posts having a head portion with a planar portion and an opening for accepting the head of the pedicle screw in a secure and multi-axial engagement. The system further includes a tube portion that is coupled to the head portion and extends above the patient's skin. The system also includes a lordotic slotted rod that is slid down the tube portions to be positioned on top of the head portions of the posts so that the planar portions are locked within the slot. Bolts are then slid down the tube portions and are threaded to a threaded portion on the planar portion.