Abstract: A device for applying a medical element has a housing defining a longitudinal axis with a channel disposed therethrough. The housing has a proximal and a distal opening. The device also has at least one sensing device positioned adjacent to the distal opening. The device also has a signaling device disposed adjacent the housing. The at least one sensing device interogates a bone location for one or more variables of the bone location as the device is moved over the bone location. The at least one sensing devices outputs a signal to the device and the signaling device signals an identification of a homogenous bone region. The medical element is applied to the homogenous bone location coaxially from the proximal opening through the channel and through the distal opening without removal of the device from the homogenous bone region.

Abstract: A spinal disc implant delivery device includes a blocking component having opposed distal and proximal ends. The proximal end of the blocking component includes an anchor member configured and adapted for movement between an undeployed position in which the anchor member can pass into and out of an opening in a disc annulus, and a deployed position in which the anchor member anchors the blocking component to the opening of the disc annulus. In the deployed position, the anchor member is configured to prevent extrusion of implant material from the opening of the disc annuls. An implant delivery needle is located radially within the blocking component and has opposed proximal and distal ends. The needle is configured to deliver implant material from the distal end thereof to an interior of a disc annulus.

Abstract: An Anterior Capsule Remover (“ACR”) device allows an ophthalmologist to safely and efficiently remove an anterior portion of the lens capsule at the beginning of cataract surgery. The device allows the surgeon to safely, efficiently and consistently create a circular central opening of a predetermined diameter in the top of the lens capsule. An exemplary anterior capsule remover apparatus includes a handle and a distal shaft that holds a blade or cutter. One or more o-rings attached to a thumbwheel and to the blade allow the surgeon to easily create a circular, central opening in the anterior capsule of predetermined diameter.

Abstract: The subject devices and methods retain surgical instruments and sterile portions of any accompanying cables within sterile surgical fields. One such surgical device includes a surgical instrument for performing surgical procedures within a sterile field. A cable is attached to the surgical instrument for connecting the surgical instrument located within the sterile field to support equipment located outside the sterile field. A self-retracting coil is operatively connected to the surgical instrument. The self-retracting coil is adapted and configured to be anchored within the sterile field to ensure that the surgical instrument and the sterile portion of the cable remain within the sterile field during performance of the surgical procedure.

Abstract: A spacer device for spinal fixation, such as in corpectomies and discectomies, includes a core and two end plates mounted to the core. One end plate is mounted to each respective end of the core. The core can be configured and adapted to be adjustable to allow for contraction and/or distraction of the end plates. The end plates can include apertures therethrough to facilitate osseointegration of the spacer device within a patient's spine. The angle of the endplates can each be adjusted with respect to the core of the spacer device, for example to accommodate lordosis. A containment mesh is included around the spacer device, wrapping circumferentially around the end plates, and spanning from end plate to end plate. The containment mesh defines a containment volume between the end plates for containing bone replacement materials such as allograft or man-made materials.

Abstract: The subject devices and methods retain surgical instruments and sterile portions of any accompanying cables within sterile surgical fields. One such surgical device includes a surgical instrument for performing surgical procedures within a sterile field. A cable is attached to the surgical instrument for connecting the surgical instrument located within the sterile field to support equipment located outside the sterile field. A self-retracting coil is operatively connected to the surgical instrument. The self-retracting coil is adapted and configured to be anchored within the sterile field to ensure that the surgical instrument and the sterile portion of the cable remain within the sterile field during performance of the surgical procedure.

Abstract: A surgical system for stabilizing a first bone segment to a second bone segment, the system comprising a plate having a first end and a second end, wherein the first end is configured to be secured to the first bone segment and the second end is configured to be secured to the second bone segment, and further wherein the plate has a structural integrity sufficient to stabilize the first bone segment to the second bone segment. Further embodiments comprise a supplemental plate for stabilizing a third bone segment to the second bone segment.

Abstract: An orthopedic implant system includes an implant configured and adapted for orthopedic applications. The implant defines a bore therethrough having a bore entrance defined along a first axis and a bore exit defining a second axis that is angled with respect to the first axis to facilitate implantation of the implant. A flexible screw is mounted in the bore of the implant. The screw includes a head at one end configured to receive a driver tool for turning the screw within the implant, and a screw tip at an opposite end from the head configured for engaging bone. A portion of the screw between the tip and the head is flexible to allow bending of the screw while passing into the bore of the implant along the first axis and out of the bore of the implant along the second axis.

Abstract: An instrument includes a distraction mechanism having a proximal end and an opposed distal end. The distal end includes opposed first and second end members. A first vertebral endplate spreader includes a proximal spreader section mounted to the first end member of the distraction mechanism. The first spreader also includes a distal spreader section operatively connected to the proximal spreader section for lateral movement relative to the proximal spreader section. A second vertebral endplate spreader is mounted to the second end member of the distraction mechanism. The distraction mechanism is configured and adapted to distract the spreaders apart and to retract the spreaders together along a distraction axis. The distal spreader section of the first spreader is configured to move relative to the second spreader in a lateral direction relative to the distraction axis for correction of vertebral alignment, as in treatment of spondylolisthesis, scoliosis, and the like.

Abstract: An insert for receiving a bone screw includes an elongate sleeve having opposed proximal and distal ends and a wall defined by an outer peripheral surface configured for engaging bone and an inner peripheral surface configured for receiving a bone screw extended therethrough. At least one elongate slot is formed in the wall of the sleeve for promoting flexure of the insert. A tool for affixing an orthopedic screw insert within bone tissue includes a socket portion configured and adapted to engage a proximal section of an outer peripheral surface of an orthopedic screw insert. A driver extends distally from the socket portion. The driver is configured and adapted to engage a section of an inner peripheral surface of the orthopedic screw insert distal from the socket portion.

Abstract: An insert for receiving a bone screw includes an elongate sleeve having opposed proximal and distal ends and a wall defined by an outer peripheral surface configured for engaging bone and an inner peripheral surface configured for receiving a bone screw extended therethrough. At least one elongate slot is formed in the wall of the sleeve for promoting flexure of the insert. A tool for affixing an orthopedic screw insert within bone tissue includes a socket portion configured and adapted to engage a proximal section of an outer peripheral surface of an orthopedic screw insert. A driver extends distally from the socket portion. The driver is configured and adapted to engage a section of an inner peripheral surface of the orthopedic screw insert distal from the socket portion.

Abstract: A spacer device for spinal fixation, such as in corpectomies and discectomies, includes a core and two end plates mounted to the core. One end plate is mounted to each respective end of the core. The core can be configured and adapted to be adjustable to allow for contraction and/or distraction of the end plates. The end plates can include apertures therethrough to facilitate osseointegration of the spacer device within a patient's spine. The angle of the endplates can each be adjusted with respect to the core of the spacer device, for example to accommodate lordosis. A containment mesh is included around the spacer device, wrapping circumferentially around the end plates, and spanning from end plate to end plate. The containment mesh defines a containment volume between the end plates for containing bone replacement materials such as allograft or man-made materials.

Abstract: A device and method for forming an adaptive optic in the capsule of a human eye is disclosed, comprising a capsular interface enclosing an optically acceptable medium. The device establishes a physiologic range of optical power in response to a range of ciliary contractile states. The preferred bi-phasic medium of the device is comprised of a solid three dimensional polymeric network suspended in a liquid aqueous phase and bonded to a capsular interface. The polymeric network provides shape to the capsular interface, optical power, and a physiologic response to the suspensory ligament. The three dimensional network of the bi-phasic medium mimics the stacked fiber configuration and elasticity of a natural lens. An alternative embodiment utilizing a single phase medium is also disclosed with associated structural features provided in the capsular interface.

Abstract: An Anterior Capsule Remover (“ACR”) device allows an ophthalmologist to safely and efficiently remove an anterior portion of the lens capsule at the beginning of cataract surgery. The device allows the surgeon to safely, efficiently and consistently create a circular central opening of a predetermined diameter in the top of the lens capsule. An exemplary anterior capsule remover apparatus includes a handle and a distal shaft that holds a blade or cutter. One or more o-rings attached to a thumbwheel and to the blade allow the surgeon to easily create a circular, central opening in the anterior capsule of predetermined diameter.

Abstract: A spinal disc implant delivery device includes a blocking component having opposed distal and proximal ends. The proximal end of the blocking component includes an anchor member configured and adapted for movement between an undeployed position in which the anchor member can pass into and out of an opening in a disc annulus, and a deployed position in which the anchor member anchors the blocking component to the opening of the disc annulus. In the deployed position, the anchor member is configured to prevent extrusion of implant material from the opening of the disc annuls. An implant delivery needle is located radially within the blocking component and has opposed proximal and distal ends. The needle is configured to deliver implant material from the distal end thereof to an interior of a disc annulus.

Abstract: The subject devices and methods retain surgical instruments and sterile portions of any accompanying cables within sterile surgical fields. One such surgical device includes a surgical instrument for performing surgical procedures within a sterile field. A cable is attached to the surgical instrument for connecting the surgical instrument located within the sterile field to support equipment located outside the sterile field. A self-retracting coil is operatively connected to the surgical instrument. The self-retracting coil is adapted and configured to be anchored within the sterile field to ensure that the surgical instrument and the sterile portion of the cable remain within the sterile field during performance of the surgical procedure.

Abstract: A spinal implant has a first bone-engaging member, a second bone-engaging member, and a linkage coupling the first bone-engaging to the second bone-engaging member. The implant includes means for receiving a tensile force to extend the implant.

Abstract: A surgical system for stabilizing a first bone segment to a second bone segment, the system comprising a plate having a first end and a second end, wherein the first end is configured to be secured to the first bone segment and the second end is configured to be secured to the second bone segment, and further wherein the plate has a structural integrity sufficient to stabilize the first bone segment to the second bone segment. Further embodiments comprise a supplemental plate for stabilizing a third bone segment to the second bone segment.

Abstract: The subject devices and methods retain surgical instruments and sterile portions of any accompanying cables within sterile surgical fields. One such surgical device includes a surgical instrument for performing surgical procedures within a sterile field. A cable is attached to the surgical instrument for connecting the surgical instrument located within the sterile field to support equipment located outside the sterile field. A self-retracting coil is operatively connected to the surgical instrument. The self-retracting coil is adapted and configured to be anchored within the sterile field to ensure that the surgical instrument and the sterile portion of the cable remain within the sterile field during performance of the surgical procedure.

Abstract: An insert for receiving a bone screw includes an elongate sleeve having opposed proximal and distal ends and a wall defined by an outer peripheral surface configured for engaging bone and an inner peripheral surface configured for receiving a bone screw extended therethrough. At least one elongate slot is formed in the wall of the sleeve for promoting flexure of the insert. A tool for affixing an orthopedic screw insert within bone tissue includes a socket portion configured and adapted to engage a proximal section of an outer peripheral surface of an orthopedic screw insert. A driver extends distally from the socket portion. The driver is configured and adapted to engage a section of an inner peripheral surface of the orthopedic screw insert distal from the socket portion.