Abstract: An orthopedic implant has a plate and bone screws. Configured bone screw pockets of the plate provide variable angling and positional locking of a received bone screw relative. Each bone screw includes distal threads, a neck, and a dual threaded head. The plate has a bone screw pocket on a distal end, a bone screw pocket on a proximal end, and a strut extending between the two bone screw pockets. The bone screw pockets are at least generally cup shaped for receipt of a bone screw. The lower periphery of the opening of each bone screw pocket has an arrangement of configured prongs with configured openings to receive threading on the underside of the dual threaded head of the bone screw. The prongs can preferably, but not necessarily, deform slightly and grab onto the threading of the bone screw head to lock the bone screw in the bone screw pocket. Each prong can act independently.

Abstract: A spine implant for use in spinal facet joint fixation or to connect distracted portions of a vertebral lamina in a laminoplasty through use or non-use of a spacer. One or two bone screw plates are angularly adjustable relative to a base plate for attachment by bone screws to vertebral bone. One form of the spine implant has a base plate, a first plate pivotally connected to the base plate for angular adjustment relative to the base plate and configured to hold one or two bone screws for attaching the first plate to first vertebral bone, and a second plate configured to hold two bone screws for attaching the second plate to second vertebral bone. The second plate may be pivotally connected to the body for angular adjustment of the second plate relative to the base plate or fixed to the base plate at a predetermined angle.

Abstract: An orthopedic implant has a plate and bone screws. Configured bone screw pockets of the plate provide variable angling and positional locking of a received bone screw relative. Each bone screw includes distal threads, a neck, and a dual threaded head. The plate has a bone screw pocket on a distal end, a bone screw pocket on a proximal end, and a strut extending between the two bone screw pockets. The bone screw pockets are at least generally cup shaped for receipt of a bone screw. The lower periphery of the opening of each bone screw pocket has an arrangement of configured prongs with configured openings to receive threading on the underside of the dual threaded head of the bone screw. The prongs can preferably, but not necessarily, deform slightly and grab onto the threading of the bone screw head to lock the bone screw in the bone screw pocket. Each prong can act independently.

Abstract: An orthopedic implant has a plate and bone screws. Configured bone screw pockets of the plate provide variable angling and positional locking of a received bone screw relative. Each bone screw includes distal threads, a neck, and a dual threaded head. The plate has a bone screw pocket on a distal end, a bone screw pocket on a proximal end, and a strut extending between the two bone screw pockets. The bone screw pockets are at least generally cup shaped for receipt of a bone screw. The lower periphery of the opening of each bone screw pocket has an arrangement of configured prongs with configured openings to receive threading on the underside of the dual threaded head of the bone screw. The prongs can preferably, but not necessarily, deform slightly and grab onto the threading of the bone screw head to lock the bone screw in the bone screw pocket. Each prong can act independently.

Abstract: A static fixation strut for constructing external orthopedic fixation constructs has a ball joint component, a piston component axially adjustably coupled to the ball joint component, and a swivel component coupled to the piston component opposite the ball joint component, the ball joint component for attachment to a first fixation ring, the swivel component for attachment to a second fixation ring, and the piston component for adjusting the overall length of the static fixation strut. The ball joint component provides a multi-axial adjustable connection to the first fixation ring, the piston component provides adjustability in axial length between the ball joint component and the swivel component via first and second cylinders, and the swivel component provides a rotationally adjustable connection to the second fixation ring. A C-clamp is disposed about the first and second cylinders to fix their axial movement and length.

Abstract: A spine implant for use in spinal facet joint fixation or to connect distracted portions of a vertebral lamina in a laminoplasty through use or non-use of a spacer. One or two bone screw plates are angularly adjustable relative to a base plate for attachment by bone screws to vertebral bone. One form of the spine implant has a base plate, a first plate pivotally connected to the base plate for angular adjustment relative to the base plate and configured to hold one or two bone screws for attaching the first plate to first vertebral bone, and a second plate configured to hold two bone screws for attaching the second plate to second vertebral bone. The second plate may be pivotally connected to the body for angular adjustment of the second plate relative to the base plate or fixed to the base plate at a predetermined angle.

Abstract: A dynamic strut for external fixation constructs has first and second sub-struts that are axially adjustable in length and rotational position relative to one another, with the first sub-strut supporting a first dual universal joint with a first attachment peg for connection to an external fixator, and the second sub-strut supporting a second dual universal joint with a second attachment peg for connection to an external fixator. The first and second dual universal joints each include first and second ball-and-socket joints, whereby the associated attachment peg is adjustable in orientation. Set screws fix orientation of the attachment peg relative to the first ball-and-socket joint and the housing. Angular orientation of the first dual universal joint is fixed while angular orientation of the second dual universal joint is adjustable. The second sub-strut supports an axially movable shaft that supports the second dual universal joint.

Abstract: The invention is a subtalar implant able to expand after implantation. The subtalar implant has two or more expansion segments or wings. In all forms, the expansion wings are hinged on the distal portion of the subtalar implant which causes only the proximal portion of the wing to expand relative to the midplane of the implant. The expansion wings and the entire subtalar implant are threaded to prevent the implant from backing out of the sinus tarsi once implanted. In one form, the subtalar implant includes an integral expansion screw that, when rotated, expands the expansion wings. In another form, the subtalar implant includes a separate expansion screw that, when rotated, expands the expansion wings. The integral and the separate expansion screw includes a socket that accepts a like driver tool for rotating the expansion screw and expanding the expansion wings.

Abstract: A static fixation strut for constructing external orthopedic fixation constructs has a ball joint component, a piston component axially adjustably coupled to the ball joint component, and a swivel component coupled to the piston component opposite the ball joint component, the ball joint component for attachment to a first fixation ring, the swivel component for attachment to a second fixation ring, and the piston component for adjusting the overall length of the static fixation strut. The ball joint component provides a multi-axial adjustable connection to the first fixation ring, the piston component provides adjustability in axial length between the ball joint component and the swivel component via first and second cylinders, and the swivel component provides a rotationally adjustable connection to the second fixation ring. A C-clamp is disposed about the first and second cylinders to fix their axial movement and length.

Abstract: A dynamic strut for external fixation constructs has first and second sub-struts that are axially adjustable in length and rotational position relative to one another, with the first sub-strut supporting a first dual universal joint with a first attachment peg for connection to an external fixator, and the second sub-strut supporting a second dual universal joint with a second attachment peg for connection to an external fixator. The first and second dual universal joints each include first and second ball-and-socket joints, whereby the associated attachment peg is adjustable in orientation. Set screws fix orientation of the attachment peg relative to the first ball-and-socket joint and the housing. Angular orientation of the first dual universal joint is fixed while angular orientation of the second dual universal joint is adjustable. The second sub-strut supports an axially movable shaft that supports the second dual universal joint.

Abstract: The invention is a subtalar implant able to expand after implantation. The subtalar implant has two or more expansion segments or wings. In all forms, the expansion wings are hinged on the distal portion of the subtalar implant which causes only the proximal portion of the wing to expand relative to the midplane of the implant. The expansion wings and the entire subtalar implant are threaded to prevent the implant from backing out of the sinus tarsi once implanted. In one form, the subtalar implant includes an integral expansion screw that, when rotated, expands the expansion wings. In another form, the subtalar implant includes a separate expansion screw that, when rotated, expands the expansion wings. The integral and the separate expansion screw includes a socket that accepts a like driver tool for rotating the expansion screw and expanding the expansion wings.

Abstract: The invention is a subtalar implantable to expand after implantation. The subtalar implant has two or more expansion segments or wings. In all forms, the expansion wings are hinged on the distal portion of the subtalar implant which causes only the proximal portion of the wing to expand relative to the midplane of the implant. The expansion wings and the entire subtalar implant are threaded to prevent the implant from backing out of the sinus tarsi once implanted. In one form, the subtalar implant includes an integral expansion screw that, when rotated, expands the expansion wings. In another form, the subtalar implant includes a separate expansion screw that, when rotated, expands the expansion wings. The integral and the separate expansion screw includes a socket that accepts a like driver tool for rotating the expansion screw and expanding the expansion wings.

Abstract: Orthopedic implants described herein are used for fractures, inter-digital fusion of the fingers, toes, and other small bones of the body, as well as other procedures. Each implant has first and second drive ends for insertion into bone. The drive ends may be on the same or separate implant component(s) and include external threading. In one form, a single component includes the first and second drive ends, while in another form, a first component has the first drive end and a second component has the second drive end. In the two component version, a head of one component receives an end of the other component to provide coupling or joining of the two components.

Abstract: An orthopedic implant has a plate and bone screws. Configured bone screw pockets of the plate provide variable angling and positional locking of a received bone screw relative. Each bone screw includes distal threads, a neck, and a dual threaded head. The plate has a bone screw pocket on a distal end, a bone screw pocket on a proximal end, and a strut extending between the two bone screw pockets. The bone screw pockets are at least generally cup shaped for receipt of a bone screw. The lower periphery of the opening of each bone screw pocket has an arrangement of configured prongs with configured openings to receive threading on the underside of the dual threaded head of the bone screw. The prongs can preferably, but not necessarily, deform slightly and grab onto the threading of the bone screw head to lock the bone screw in the bone screw pocket. Each prong can act independently.

Abstract: The invention is a subtalar implantable to expand after implantation. The subtalar implant has two or more expansion segments or wings. In all forms, the expansion wings are hinged on the distal portion of the subtalar implant which causes only the proximal portion of the wing to expand relative to the midplane of the implant. The expansion wings and the entire subtalar implant are threaded to prevent the implant from backing out of the sinus tarsi once implanted. In one form, the subtalar implant includes an integral expansion screw that, when rotated, expands the expansion wings. In another form, the subtalar implant includes a separate expansion screw that, when rotated, expands the expansion wings. The integral and the separate expansion screw includes a socket that accepts a like driver tool for rotating the expansion screw and expanding the expansion wings.