Abstract: A bone anchoring device includes a receiving part with a rod receiving portion having a first end, a second end, a recess for the rod, an outer surface, and a first engagement structure on the outer surface that extends farther radially outwardly than other parts of the rod receiving portion, and a flexible head receiving portion for inserting and clamping the head. The bone anchoring device also includes a locking ring configured to be arranged around the head receiving portion for locking the head, the locking ring having an outer surface and a second engagement structure on the outer surface that extends farther radially outwardly than the outer surface of the rod receiving portion. The engagement structures are configured to be engaged by an instrument to move the locking ring from a locking position to a position where the inserted head is pivotable.

Abstract: A cannula comprising a monolithic, flexible body having a central passageway bounded by a first flange and a second flange, the central passageway having an irregular shape and a diaphragm positioned therein, the first diaphragm having the same irregular shape and including at least one first diaphragm slit, and a second diaphragm positioned adjacent to or at one of the first or second flanges and having at least one second diaphragm slit.

Abstract: An intramedullary pin includes a main body having a proximal boundary and a distal boundary; a curved extension having a degree of curvature of at least 1°, the curved extension being in direct contact with the distal boundary; a distal cap having a cylindrical portion and a rounded portion, the cylindrical portion being in direct contact with the curved extension; a grip element having at least one contour, the grip element being in direct contact with the proximal boundary; and a proximal cap having a flat surface, the proximal cap being in direct contact with the grip element. Also disclosed is a clamp that includes a handle, two blades, a pivot, and a plurality of grasping elements including a notch, at least one protrusion, and a groove, where one or more grasping elements have a contour that is structurally complementary to the grip element in the intramedullary pin. A method of immobilizing a bone fracture using the intramedullary pin and/or clamp is also disclosed.

Abstract: The present invention relates to systems and methods for accessing the spine to place implants. In one embodiment, a system includes an adjustable rod structure having four rods radially surrounding a probe, a ring and a retractor. The adjustable rod structure is configured to have a closed and open profile controlled by the retractor such that the open profile creates a space between rods of the structure. The ring is configured to be placed within retracted rods to maintain the open profile after retraction. In a method embodiment, the adjustable rod structure is inserted through a percutaneous incision in the closed position until it reaches a target site. The retractor is then attached to the rods and used to retract the rods. The probe is then removed from within an opening created and a ring is advanced into the opening to hold the rods in place.

Abstract: A ratcheted spinal device including a variable-length member including a ratchet mechanism that has an operative configuration that allows a change in length of the variable-length member in one direction and prevents a change in length of the variable-length member in an opposite direction, wherein the variable-length member includes polyaxial-joint attachment members for attachment to bone, which permit pivoting movement of the attachment members about more than one pivoting axis.

Abstract: The present invention provides a sacral-iliac plate having an iliac portion with a first screw hole for receiving a first fastener to secure the iliac portion to the iliac bone. A sacral portion integrated monolithically with the iliac portion is also provided with a second and third screw holes for receiving second and third fasteners to secure the sacral portion to the sacral bone. The sacral portion also includes a tulip for receiving and securing a spinal rod.

Abstract: An interspinous stabilization device configured to fit interlaminarly between adjacent vertebrae and their spinous processes, while also cooperating with a bone graft, or bone substitute, component to facilitate fusion at that segment of the spine is disclosed. Also provided is a method for using such a device and bone graft, or bone substitute, component to stabilize a spinal segment.

Abstract: A pivoting wedge expandable spinal implant. An upper portion and a lower portion are pivotally connected together. The implant, in a collapsed position, is inserted into a disc space. A driving screw engages and applies a force to a pushing portion, driving the pushing portion toward the implant's distal end. The pushing portion engages and drives a wedge toward the implant's distal end. The wedge pivots upward against an inner surface of the lower portion. The wedge continues to pivot along an inner surface of the upper portion, translating the force to the upper portion, pivoting and expanding the upper portion to an expanded position.

Abstract: The invention is directed in various aspects to a system including anchors, anchor components, and anchor assemblies and subassemblies that are adapted for attachment to a bony structure of a clinical subject. For example, two or more such anchors in the form of screws may be affixed to bones, for example, vertebral structures such as the pedicle, and each anchor is connected to a stabilizer such as a surgical rod that is inserted between the anchors. The anchors and assemblies are novel in many respects owing to their modular nature, which in contrast to conventional systems, allows the anchors to be provided to a surgeon in modular, subassembly and fully assembled form to enable a broad array of choices in devising the optimal plane for surgical bone fixation.

Abstract: A system includes a first pedicle screw, a second pedicle screw, and an adjustable rod having an outer housing coupled to one of the first pedicle screw and the second pedicle screw, the outer housing having a threaded shaft secured to one end thereof extending along an interior portion thereof. The system further includes a hollow magnetic assembly disposed within the outer housing and having a magnetic element disposed therein, the hollow magnetic assembly having an internal threaded surface engaged with the threaded shaft, the magnetic assembly being coupled to the other of the first pedicle screw and the second pedicle screw, wherein the hollow magnetic assembly rotates in response to an externally applied magnetic field to thereby lengthen or shorten the distance between the first pedicle screw and the second pedicle screw.

Abstract: Provided is a percutaneous screw fixing rod inserting device for minimal invasive surgery, which includes: a leg unit including a plurality of support legs, each of which has a joint link provided at a lower end thereof; an aligning holder unit configured to align the plurality of support legs such that longitudinal central axes of the support legs of the leg unit are placed on one virtual plane, the aligning holder unit holding the support legs such that an angle between the longitudinal central axes of the support legs is maintained; and a rod inserting unit coupled to the aligning holder unit to rotate by a predetermined angle around a portion coupled to the aligning holder unit and configured to insert the rod into a rod insert hole provided to the joint link of the support leg, thereby eliminating the difficulty of inserting the rod caused by the misalignment of the pedicle screws and increasing the convenience or efficiency of the medical procedure.

Abstract: A surgical port is disclosed. The surgical port has a cannular channel. The surgical port also has one or more suture slots in communication with the cannular channel. The surgical port further has a pair of cam grips for each of the one or more suture slots, each pair of cam grips comprising opposing gripping arms configured to allow suture to be pulled through the opposing gripping arms in a direction away from the cannular channel and to resist suture movement in a direction towards the cannular channel.

Abstract: Lamina plates can include various features that allow a surgeon to couple the plate to a vertebra, such as a plurality of receiving holes for receiving a spinal fixation element. The plate can be shaped and the receiving holes positioned such that spinal fixation elements can be installed with reduced exposure of the spine and along a trajectory that enhances purchase with bone. The lamina plate can include one or more features for coupling at least one receiver head to the plate for receiving a spinal stabilization element. Since the receiver head can be coupled to the plate after the plate is implanted, it does not restrict the range of angles or trajectories at which the spinal fixation elements can be installed.

Abstract: A polyaxial bone anchor with a receiver, a shank, a pressure insert, a retainer for holding the shank in the receiver, and a closure. The receiver having at least one vertically aligned guide on a surface of an interior shank and insert receiving chamber. The insert having at least one shoulder that aligns with the guide and both properly positions the insert relative to the receiver during assembly and prevents the insert from axially rotating relative to the receiver.

Abstract: A reconfigurable bone adjustment device includes a first member configured for attachment to a first bone fragment, a second member configured for attachment to a second bone fragment, the second member including an elongated slot formed therein; a drive mechanism configured to move the second member relative to the first member; a threaded block fixedly coupled to the first member, the threaded block positioned within the elongated slot; and a threaded rod having a proximal end operatively coupled to the drive mechanism, an intermediate portion threadably coupled to the threaded block, and a distal end operatively coupled to the second member so that rotation of the drive mechanism rotates the threaded rod and moves the second member relative to the first member. The second member being adapted and configured to provide increased strength so that the device can withstand increased patient weight bearing.

Abstract: A bone fracture fixation system including reference pins inserted into bone fragments of a patient in a first configuration and an image capture device configured to capture an image of the reference pins, and the bone fragments. The system includes a processor configured to receive and pre-process the captured image data. The processor pre-processes the image data by virtually re-positioning the reference pins in the first configuration into a second configuration, wherein the re-positioning virtually re-positions the bone fragments into normal alignment; and virtually generating a support device. The system includes a point-of-care production apparatus that produces a three-dimensional model of the virtually generated support device in a form that can be applied to the patient.

Abstract: There is provided a pedicle screw assembly for dynamic and static fixation, which is able to be assembled during the operation and allows a doctor to make an emergency choice between fusion fixation and non-fusion fixation. The pedicle screw assembly is used for inner fixation in spine surgery. During the operation, a pedicle screw is firstly implanted in a pedicle, and then a spherical head of the pedicle screw is enclosed by a connecting claw. After a screw seat is connected to the connecting claw by means of threads, a connecting rod is inserted in a groove and finally a locking screw is tightened to complete the fixation.

Abstract: Disclosed are devices and methods used to customize the length of fasteners used during orthopedic surgeries, comprising creating a hole of the desired depth in a bone, measuring the depth of the hole using a depth measuring device, calculating, using the depth measuring device, the optimal length dimension of the fastener, transferring the calculated fastener optimal length dimension to a fastener cutting device, inserting a fastener having a length exceeding the optimal length dimension into the fastener cutting device, and cutting the fastener to the optimal length dimension using the fastener cutting device.

Abstract: A retractor is configured to manipulate for vascular structures during minimally invasive surgical procedures such as mitral valve repair. A long wire has a spring loop at one end surrounded by a helical spring coil forming a toroidal ring. The spring maintains a circular shape while expanding and shrinking under manual control to a desired size for initiating and maintaining the retraction. The looping end of the spring wire is enclosed by the helical coil spring. The other end of the long wire is mounted through a frame with two hollow support arms carrying separate sides of the long wire and guiding them through a long support tube to a proximal end of the tube where each separate portion of the long wire attaches to a coupler. The coupler includes a handle or other push/pull mechanism to adjust the size of toroidal ring.

Abstract: A bone anchoring device includes a receiving part with a rod receiving portion having a first end, a second end, a recess for the rod, an outer surface, and a first engagement structure on the outer surface that extends farther radially outwardly than other parts of the rod receiving portion, and a flexible head receiving portion for inserting and clamping the head. The bone anchoring device also includes a locking ring configured to be arranged around the head receiving portion for locking the head, the locking ring having an outer surface and a second engagement structure on the outer surface that extends farther radially outwardly than the outer surface of the rod receiving portion. The engagement structures are configured to be engaged by an instrument to move the locking ring from a locking position to a position where the inserted head is pivotable.