Abstract: The invention provides embodiments of a bone fixation system having a bone plate and a specialized screws system. The bone plate includes one or more bi-directional combination holes that can accommodate two bone screws in the same hole, the screws being oriented in non-parallel direction. In accommodating two screws in the same hole, one of the screws has a by-pass head.

Abstract: A calcaneus plate provided with two vertically-spaced plate sections, with corner-located screw holes. An intermediate wall connects the plate sections. An arcuate protrusion extends from the intermediate wall and contains an internal sliding mechanism for a compression screw. The sliding mechanism includes an arc-shaped compression hole with an elongated opening that includes a ridge upon with the compression screw head can slide.

Abstract: A tool comprises a first body shaped to detachably receive a bone implant having a first portion with a first flat surface adapted to be attached to a bone and a second portion with a second flat surface oriented at a pre-determined angle relative to the first flat surface, the bone implant having at least one fastener hole penetrating each of the first and second portions. A second body has a surface or member. The second body is adjustably connected to the first body to selectably position the surface or member relative to the bone implant.

Abstract: An anatomically customized plantar hone plate and system for an angularly stable fixation for the arthrodesis of the tarsometatarsal I joint. The bone plate has a distal plate portion which extends in the longitudinal direction and in which a distal bore is formed for receiving a bone screw at a stable angle, a proximal plate portion which extends transverse to the longitudinal direction, and a central plate portion which extends between the distal and the proximal plate portions and which is made with a curved plate portion with at least one bending zone for the purpose of anatomical customization. A plantar bore for receiving a bone screw to be fixed to the sole of the foot at a stable angle and a bore that is medially inclined for receiving a bone screw to be fixed in a medially inclined manner at a stable angle are arranged in the proximal plate portion adjacently to each other transverse to the longitudinal direction.

Abstract: A cervical fixation system and method for repairing odontoid fractures includes securing an anterior plate to caudal portion of C2 body below the odontoid neck. The anterior plate houses lag screw within a posterior shaft. A cannulated fixation device crosses the fracture site with fixation into the cephalad fragment. The lag screw can be pulled caudally into the plate with a compression screw to apply a compression force across the fracture site.

Abstract: A bone plate and method for use thereof affords use of at least two surgical approaches to attach the bone plate to a fractured bone to facilitate reduction and repair thereof. The bone plate includes two domains extending in different directions from a transition zone. The directions in which each of the two domains extend are generally opposite, and the transition zone is configured to afford portions of the two domains to be substantially disposed in planes that are transverse to one another.

Abstract: Bone fixation system, including methods, apparatus, and kits, and comprising a bone plate and at least one instrument that attaches to the bone plate and provides at least one radiopaque region to facilitate positioning the bone plate on bone visualized by radiographic imaging. The instrument may be a handle assembly and/or a targeting guide.

Abstract: Bone screws and bone plates are provided that offer the surgeon the ability to either assemble the screws to the plate, or the plate to the screws, depending on the surgeon's preference and the patient's circumstances. The bone screws and bone plates of the present invention include a combination of geometric configurations that allow the screws and plates to fit together from different assembly directions. Additionally, the bone screws and bone plates can include material resilience features to allow expansion/contraction during assembly to allow bidirectional attachment to one another.

Abstract: A bone plate having a plurality of openings for receiving a compression bone screw or a cortical screw. An end cap, threadably insertable in the opening and having a layer of polymeric material interposed between the end cap and the top of the head such that the compression of the polymeric material would allow slight axial movement of the screw. Alternatively, a locking ring adapted to attach to the head of the screw and having shape complimentary to the features formed on the head. The locking ring and the bone screw being assembled together and being insertable in the bone simultaneously using a dedicated instrument. Compression may be applied to a bone fracture by turning the bone screw alone after the locking ring has reached its final axial position.

Abstract: System, including methods, apparatus, and kits, for fixing ribs with bone plates.

Abstract: A method and apparatus for the stabilization of the trapeziometacarpal joint following the removal or partial resection of the trapezium includes an assembly for securing a first metacarpal relative to a second metacarpal. The assembly includes a suture guide having a suture anchor plate that is frangibly connected to a guide stem.

Abstract: A laminoplasty plate for securing a separated lamina portion of a desired cervical vertebra in a relief position and a method of using the same to perform a laminoplasty. In one aspect, a lamina setting tool is presented for positioning the lamina portion of the desired cervical vertebra in the relief position. In one aspect, the tool has a first sidewall section that slides in longitudinal relation to a second sidewall section.

Abstract: A spinal fixation plate that is adapted to be implanted in a variety of positions in the occiput is provided. In general, the plate has a substantially planar configuration and it includes a mid-line or central portion having several thru-bores formed therein, and first and second opposed branch portions that extend from the central portion and that also include at least one thru-bore formed therein. The configuration of the branch portions relative to the central portion, as well as the position of the mid-line thru-bores formed in the central portion in relation to the thru-bore(s) formed in each branch portion, allow the spinal fixation plate to be implanted in a variety of positions in the occiput, thus allowing the optimal implant site to be selected.

Abstract: Laminoplasty plates are engageable to at least one portion of a divided lamina to maintain a desired spacing relative to the spinal canal. The laminoplasty plates include a spacer portion having a first end and a second end that spans a gap formed by at least one of a divided lamina portion. The laminoplasty plates can include a lamina engagement portion at one end for engagement with the divided lamina portion.

Abstract: A posterior spinal prosthesis is configured to cover exposed portions of a spinal column especially, but not necessarily, as a result of a medical spinal procedure and particularly, to provide posterior coverage of an exposed spinal cord, soft tissue, Foramen and/or adipose tissue, associated with one or more vertebrae as a result of the removal the spinous processes and/or the spinous process and laminar hoods from the one or more vertebrae of the spine as a result of a spinal decompression procedure or other reason. A plate forming the prosthesis is connectable to spine rod constructs implanted on lateral sides of the vertebrae and projects in the posterior direction relative to the connection. The plate is generally curved in the superior/inferior direction to provide either a lordotic or kyphotic curvature depending on the portion of the spine to which the prosthesis is utilized.

Abstract: A bone plate configured to accommodate flexible strands (flexible loops) attached to soft tissue to be attached to bone. The bone plate has a plurality of recessed eyelets on the distal edge of the plate, to allow the user (surgeon) to pass a flexible strand through the recessed eyelets and reattach the soft tissue to the plate at the anatomical location where the tissue was dissected. The recessed eyelets may have various shapes, forms and configurations and may be provided on or within a surface of the bone plate in any number, depending on the characteristics of the fractured bone or bone segments, or of the plate design. The eyelets preferably receive a flexible strand for fixation of soft tissue to the bone plate.

Abstract: A fixation plate with a base section including apertures for fixation to one bone segment and a leg section extending from the base section and including apertures for fixation to another bone segment. The expanse of the base section tapers gradually to smoothly cojoin with the leg section.

Abstract: Orthopaedic plate and spreader apparatuses and methods for distracting and compressing bones and fractured bones in a patient. A first orthopaedic plate and tab assembly has ratcheting teeth on the plate and tab for distracting two bone surfaces to a desire wedge shape. The plate may have longitudinal and diametral curvatures. A second orthopaedic plate and tab assembly has a female plate with ratcheting teeth configured to mate with a male plate with ratcheting teeth for compression and distraction of two bone surfaces. The ratcheting teeth of the first and second orthopaedic plate and tab assemblies may be one way ratcheting teeth or two way ratcheting teeth. Surgical methods for inserting the implants within the patient.

Abstract: A spinal device in which a plate is placed on both sides of the lamina spinous process. The plates include horizontal and diagonal slots through which anchoring screws may be placed and secured. The screws may pass through the base of the spinous process and lamina structure. The plates may have cut-out portions on the ventral side to accommodate the lamina when reduction is performed. The diagonal slots preferably have an apex proximate to the dorsal side and open at the ventral side. The two plates can be mirror images of each other, and, when secured together by the screws, forms a stable construct that can sandwich the spinous process.

Abstract: In some embodiments, provided is an apparatus including a first elongated member, the first elongated member including a distal end and a proximal end. The distal end of the first elongated member is coupled to a first bone portion during use. The apparatus further includes a second elongated member including a distal end and a proximal end. The distal end of the second elongated member is coupled to a second bone portion during use. The proximal end of the second elongated member comprises a surface that is shaped complementary to a surface of the proximal end of the first elongated member. The apparatus still further includes a locking mechanism coupling the proximal end of the first elongated member to the proximal end of the second elongated member.

Abstract: An implantable prosthesis system including a selectively applied bone growth promoting agent is disclosed. The types of prostheses which may include a selectively applied bone growth promoting agent include rods, fracture plates, screws, as well as other types of prostheses. Additionally, the structural composition of many types of prostheses may be modified to help induce bone ingrowth and allow for fusion with the implantable prosthesis.

Abstract: Bone plates and methods of using the bone plates for adjoining bone fragments are disclosed herein. A device for adjoining at least two bone fragments includes a delivery catheter having an elongated shaft with a proximal end, a distal end, and a longitudinal axis therebetween, wherein the delivery catheter has an inner void for passage of at least one filling material and an inner lumen for passage of a light source; a conformable bone plate releasably engaging the distal end of the delivery catheter, wherein the conformable bone plate has a first surface, a second surface, a proximal end, and a distal end and at least one aperture extending from the first surface to the second surface for receiving a fastener; and an adapter releasably engaging the proximal end of the delivery catheter for receiving the light source and a delivery system housing the at least one filling material.

Abstract: An osteosynthesis plate is described, which is suitable for treating jaw fractures. The osteosynthesis plate has a plane of the plate as well as two plate sections 12, 14 with associated longitudinal axes 16, 18 extending substantially within the plane of the plate and inclined or staggered with respect to one another. Through openings 20, 22 inclined to the plane of the plate are formed in each of the two plate sections 12, 14. The angular alignments of the through openings 20, 22 within the plane of the plate differ with respect to a longitudinal axis 16 serving as reference line from one another by less than approximately 60°. In applications in the jaw region this slight deviation of the angular alignments permits an intraoral securement of the osteosynthesis plate. A transbuccal access through the cheek can thus be dispensed with.

Abstract: An improved olecranon fracture repair device and system. The device includes standoffs to minimize compression of a patient's triceps muscle and tendon. A buttress plate curved to approximate the olecranon process radius accepts a plurality of fixation screws is sized such that the distal end of the plate extends forward of the triceps tendon fibro-osseous junction. The system includes an installation tool having a positioning plate with a movable member. The positioning plate serves as a stabilizing device, a medullary cavity penetration drill template, and a fixture for guiding the intramedullary pins into the cavities. The movable member allows for removal of the tool following partial insertion of the repair device intramedullary pins.

Abstract: A system for securing bones together across a joint includes a transfixation screw and a plate. The plate includes an elongate spine having a transfixation screw hole disposed along the spine. The transfixation screw hole includes an inner surface configured to direct the transfixation screw through the transfixation screw hole such that the transfixation screw extends alongside the bridge portion at a trajectory configured to pass through a first position on the first bone and a second position on the second bone once the plate is placed across the joint. The transfixation screw includes a head configured to abut the inner surface of the transfixation screw hole and a shaft configured to contiguously extend through the first bone, across the joint, and into the second bone.

Abstract: An implant comprises an elongated plate having a first major face and at least one locking screw hole, to receive a locking fastener oriented normal to the major face. The elongated plate has a wall with a flat surface normal to the first major face. A non-locking screw hole is located between the locking screw hole and the wall. The non-locking screw hole is configured to receive a non-locking fastener oriented at an acute angle relative to the locking fastener.

Abstract: This invention provides a calcaneal plate implanted using a sinus tarsi approach and comprises an anterior section having two locking screw holes, an s-shaped posterior facet section having a four locking holes and which rounds toward the bone at both the inferior and superior edges and is reinforced at the superior edge, and a blade shaped posterior portion having three linearly aligned locking holes and terminating in a tapered portion. There is also, a drill guide assembly having a drill guide column inserted through a hole in a targeting guide and locking to one of the locking holes in the plate, and cannulated drill guide sleeves that lock into holes in the targeting guide in a spaced relation whereby when the targeting guide is locked into the plate, the targeting guide can be used as a handle and wherein locking screws can be implanted percutaneously.

Abstract: A posterior spinal prosthesis is configured to cover exposed portions of a spinal column especially, but not necessarily, as a result of a medical spinal procedure and particularly, to provide posterior coverage of an exposed spinal cord, soft tissue, Foramen and/or adipose tissue, associated with one or more vertebrae as a result of the removal the spinous processes and/or the spinous process and laminar hoods from the one or more vertebrae of the spine as a result of a spinal decompression procedure or other reason. A plate forming the prosthesis is connectable to spine rod constructs implanted on lateral sides of the vertebrae and projects in the posterior direction relative to the connection. The plate is generally curved in the superior/inferior direction to provide either a lordotic or kyphotic curvature depending on the portion of the spine to which the prosthesis is utilized.

Abstract: Disclosed herein are biodegradable medical devices comprising biodegradable materials (e.g., magnesium-calcium alloys) having an adjustable rate of degradation that can be used in various applications including, but not limited to, drug delivery applications, cardiovascular applications, and orthopedic applications to make biodegradable and biocompatible devices. Also disclosed herein are methods of making biodegradable medical devices comprising biodegradable materials by using, for instance, hybrid dry cutting/hydrostatic burnishing.

Abstract: The disclosure includes a bone plate extender and extension system. The system includes a first bone plate extender and may additionally include a bone fixation element and/or an additional bone plate. The bone plate extender may be affixed to a bone portion at one end, for instance, a fractured bone portion, via a bone fixation element, and associated with a second bone plate at an opposite end, so as to facilitate alignment and stabilization of the bone and thereby correct and treat a bone fracture. The bone plate extender may include an extended body, which includes a bone plate engagement portion, a bone fixation portion, and an intercalating portion there between. In certain variations, the extended body is planar, and in certain variations the extended body is angled, curved or arced. Methods of using such bone plate extension systems for the reduction, restoration and treatment of bone fractures are also provided.

Abstract: Bone fixation system, including methods, apparatus, and kits, and comprising a bone plate and at least one instrument that attaches to the bone plate and provides at least one radiopaque region to facilitate positioning the bone plate on bone visualized by radiographic imaging. The instrument may be a handle assembly and/or a targeting guide.

Abstract: Removable drill guide tips are pre-assembled into threaded holes of a bone plate. The tips may be used with an extension to together function as a conventional drill guide. After drilling, the extension or another tool is used to remove the tips from the plate. According to another use, the tip is used as a guide for a drill bit without any additional extension and then removed with a tool.

Abstract: In a method and system for corrective surgery of a bone, a bone is cut into a first bone segment and a second bone segment. A plate is positioned over the first bone segment and the second bone segment such that at least one member of the plate is positioned to engage the second bone segment. The at least one member of the plate is inserted into the second bone segment. At least one bone screw is screwed into the first bone segment through at least one compression slot of the plate causing an application of compressive force to secure the first bone segment and the second bone segment to form a corrective construct.

Abstract: A T-shaped plate for osteosynthesis, has at least three first attachment holes (124) and second attachment holes (113) including a curved linkage area (13). The epiphysis portion has a recess (34) with a curved profile from one end to the other of the T-bar when viewed from the top, and a curved profile when viewed from the side, and the diaphysis portion is straight and rigid. The plate is non-deformable at normal temperatures. The leg of the T has a rounded inner surface (56). The linkage area (13) has an S-shaped longitudinal cross-section, the ends (132, 133) of which that are adjoined with the bar and leg of the T, respectively, are substantially parallel to one another.

Abstract: The present invention relates to a bone plating system and method for fracture fixation of bone. The bone plating system includes a bone plate, at least one locking screw, and at least one non-locking screw. The bone plate has locking holes with threads and non-locking holes. The locking screws have a shaft with a thread for engaging bone and a head with a thread configured and dimensioned to mate with the thread of the locking holes. The non-locking screws have a thread for engaging bone and a non-threaded head. Both the locking and non-locking screws remain seated in their respective holes for substantially as long as the bone plate is implanted. The non-locking screws compress the bone plate against the bone and hold fracture reduction while the locking screws are secured to the plate at a fixed angular relationship. The mixed fixation achieved by this bone plating system and method is particularly useful for treatment of per-articular fractures.

Abstract: An aiming block fixation system for fixing an aiming block to a bone plate includes a bone plate having an outer surface and a bone-contacting surface for application to a bone. The aiming block has an upper surface, a lower surface engageable with the outer surface of the bone plate. A first angled aiming block bore extending from the upper surface to the lower surface along an axis which is at a non-zero degree angle to an axis of a bone plate hole. A locking element extends through the angled aiming block bore and the bone plate hole such that a central longitudinal axis of the locking element is oriented at a non-zero degree angle to the first axis, with the locking element including a radially outwardly extending camming arm selectively engageable with a camming surface of the first bone plate hole.

Abstract: An orthopedic implant with a locking element for locking a bone screw in a bone screw receiving hole of the implant.

Abstract: Elongated members for use in orthopedic procedures for supporting or correcting tissue are disclosed. Embodiments include several sections, some of which are of differing diameters than others, and such sections may be generally rod-shaped or plate-shaped.

Abstract: The invention relates to a bone anchoring device for the operative repair of fractures, comprising a fracture fixation plate which has at least one opening and at least one anchoring element for the fastening of the fracture fixation plate on the bone, wherein the anchoring element has a shaft and a head, and wherein at least one part of the shaft can be guided through the opening while the head can be fixed in the opening, and wherein the shaft is produced in at least two parts with a first part on which the head is arranged and with a second part provided for the anchoring in the bone, wherein the first part and the second part of the shaft are guided such that they move toward each other along an axis when the bone anchoring device is in the state of being fixed to the bone.

Abstract: An orthopedic screw system includes a screw with a locking head that can both lockingly engage in a fixed angle threaded screw hole to secure a plate to a bone without compression, and non-lockingly engage at a compression screw hole to provide compression between the plate and the bone. The structure of the system is particularly well adapted to plates and screw of small dimensions, such as screws smaller than 3.5 mm and is capable of providing high compressive force, on the order of 120 lbs of axial load, without significant plastic deformation between the screw and plate. Further, the screw holes are structured for arrangement in tight clusters on the bone plate, thereby facilitating a compact design on the bone plate.

Abstract: A dynamic cervical plate includes a first end section and a second end section. In embodiments, the dynamic cervical plate may include one or more middle sections positioned between the first and second end sections. Each section may be longitudinally repositionable. Each section may include a plurality of openings for receiving threaded fasteners such as a self-starting screw or a self-tapping screw. In addition, each section may include an orifice for releasably mating with a drill guide. Each of the end sections may include a notch at one end for aligning with the drill guide or fixation pins. In one embodiment, a pin is used to interconnect the sections. In other embodiments, support bars are used to limit flexure between sections. In embodiments, one or more locking elements and/or one or more support bars may operably interconnect each section.

Abstract: A single to multi-level spine plate has configured bone screw bores that cooperate with bone screws to retain a bone screw in a determinative position. In one form, the determinative position is a self-capture position wherein the bone screw is retained without the aid of any additional bone screw retention device. In another form, the determinative position is a limited angulation orientation of a bone screw relative to the spine plate. This limited angulation may be different for end plate bone screw bores than for middle plate bone screw bores. The bone screw bores may be configured to prohibit angulation once set. In another form, the determinative position is the reception of a cooperating bone screw at a centroid of the bone screw bore when installed.

Abstract: An orthopedic screw system includes a screw with a locking head that can both lockingly engage in a fixed angle threaded screw hole to secure a plate to a bone without compression, and non-lockingly engage at a compression screw hole to provide compression between the plate and the bone. The structure of the system is particularly well adapted to plates and screw of small dimensions, such as screws smaller than 3.5 mm and is capable of providing high compressive force, on the order of 120 lbs of axial load, without significant plastic deformation between the screw and plate.

Abstract: The invention relates to bone plate assembly having bone plate and bone screws for compressing and locking of bone plates for stabilizing fractured fragments of a bone.

Abstract: Device for fixing bone. In some embodiments, the device may comprise a plate member and a pair of hooks members. The plate member may have a pair of opposing edges arranged opposite each other. The pair of hook members each may project from a position adjacent the same edge of the plate member, to form a space to receive a same bone between the plate member and each of the hook members. Both hook members may be configured to contact a same side of the same bone. The plate member and a hook member may define first and second aligned apertures. The device also may comprise a fastener configured to extend from the first aperture, through the bone, and into locked engagement with the second aperture.

Abstract: Aspects of the present disclosure include a bone plate and/or a bone plate system. The bone plate includes an elongate body, which body includes a distal portion and a proximal portion. The proximal portion includes at least one projection extending there from, which projection is configured for contacting a bone portion, e.g., a fractured bone portion, so as to aid in the reduction thereof. In some variations, the proximal portion includes a plurality of projections, e.g., reduction aids. Methods of using such a bone plate having reduction aids by itself, or in conjunction with a second bone plate, for the reduction, restoration and treatment of a bone fracture are also provided.

Abstract: A bone plate system for reshaping a bone plate to conform to contours of bone surfaces. The system comprises a bone plate, a pair of spaced-apart guides removably attached to the bone plate, and a bending tool. The bending tool comprises a handle and a head attached to a distal end of the handle. The head defines a cavity sized and shaped to engage the pair of spaced-apart guides. The bone plate system is configured to transfer a leverage force applied by a user to the bending tool while the cavity of the head is fitted over the pair of spaced-apart guides to a regionalized bending moment to the bone plate through the pair of spaced-apart guides to reshape the bone plate.

Abstract: A system adapted to be implanted in a patient to stabilize a spinal column of the patient comprises an anchoring plate having a shape generally conformal with at least a portion of a lamina associated with a targeted vertebra of the spinal column. The anchoring plate is securable to the targeted vertebra by two or more screws. A mounting bracket adapted to receive an secure a rod is connected with the anchoring plate.

Abstract: Bone plate systems are provided for surgical implants and bone repair. The bone plate is multi-tiered for receiving bone anchors screws for securing a plurality of bones or bone fragments in a desired relationship. The plate members include throughbores for receiving a pivot base therein, with head ends of the bone anchors being secured in the pivot bases. The throughbores may permit and define a translation path for the pivot base and the bone anchor secured therein relative to the plate. Pivot members extending between the pivot base and the plate member facilitate pivoting and optional translation of the pivot base relative to the plate. With the bone anchor seated within the pivot base, an apparatus for inhibiting screw back out is employed.

Abstract: Apparatus and methods to facilitate fixation of a fracture are disclosed. These apparatus include a bone plate for the fixation of a fractured bone having a plurality of fastener openings so that the bone plate may be secured by a plurality of fasteners across a reduced fracture to fixate a reduced fracture. The bone plate is configured to flex in situ to conform to the surface of the bone while providing sufficient stiffness in the plane of the device to resist forces and moments in the plane. Methods of use of the present invention include fastening the bone plate to a first side of the fracture, flexing portions of the bone plate to bias against the bone surface on the second side of the fracture, fastening the portions of the bone plate so biased to the second side of the fracture, thereby fixating the fracture by fastening the bone plate to the second side of the fracture.