Abstract: The invention relates to a resorptive intramedullary implant between two bones or two bone fragments. The implant includes a single-piece body (1) having a generally elongate shape and having, at each end, areas for anchoring to the bone portions in question, characterised in that one of said areas (A1) has a cylindrical cross-section while the other area (A2) has a flat cross-section.

Abstract: An intramedullary fixation assembly for bone fusion includes an implant member positioned at a proximal end of the intramedullary fixation assembly, a lag screw member positioned at a distal end of the intramedullary fixation assembly and a circular member frictionally coupled to the lag screw member. The lag screw member is slideably coupled to the implant member and provides for an interference fit with the implant member.

Abstract: A biologic intramedullary fixation device for treating a bone fracture includes an internal tubular wall formed of a bioabsorbable synthetic material; and an outer wall coupled with and surrounding the internal tubular wall with an annular space therebetween. The outer wall is at least partially fenestrated and is formed of the bioabsorbable synthetic material. A biologically replaceable cement material is injectable into the annular space between the internal tubular wall and the outer wall.

Abstract: A method for applying compression to a joint includes providing an intramedullary fixation assembly having a proximal screw member positioned at a proximal end of the intramedullary fixation assembly and a lag screw member positioned at a distal end of the intramedullary fixation assembly. Medullary canals are drilled in a first and second bone and the medullary canals are reamed. The proximal screw member is inserted into the first bone and a drill is used create a dorsal hole in the first bone. The lag screw member is slideably coupled to the dorsal hole and to the proximal screw member and into the second medullary canal. A torque is applied to the lag screw member to apply compression to the joint.

Abstract: An Intra-Medullary implant includes: an elongated rigid body having a first end and a second end, adapted to be inserted longitudinally into a bony canal, the body having a generally axial passage through at least a portion of said body; at least one movable slide, movably received in said passage and adapted to be transfixed by engagement with a transverse member penetrated through the bone, said slide also adapted to receive tension from an elongated tensile member disposed longitudinally within said passage; and an anchor, adapted for fixation to the body near its first end and to said tensile member, to hold the elongated tensile member under tension between the anchor and the movable slide.

Abstract: The IM Rod extension is a metallic device, similar in size and shape to the proximal end of an IM Rod, meant to be attached to the distal end of an existing IM rod by distal exposure, and its purpose is to allow enhanced distal fixation of fractures, usually in the distal femur, by having variable sizes and greater option for direction and size of distal interlocking screw placement, and by being integrated with the existing IM Rod which maintains length and continuity with the rest of the femur.

Abstract: A system for fixing a fracture near a joint of a bone comprises (a) an intramedullary device including a longitudinal body and a head, the longitudinal body extending from a proximal end to a distal end, the head being attached to the proximal end of the longitudinal body; and (b) a plate implantable into a head portion of the bone to provide support to a joint zone, the plate engageable with the intramedullary device. The plate is substantially U-shaped and includes a midsection and a pair of arms extending from the midsection, the pair of arms forming a space therebetween, the space sized and shaped to accommodate the head of the intramedullary device.

Abstract: Novel compositions, as well as related methods, coatings, and articles, are disclosed.

Abstract: A humeral fracture fixation system is provided and includes a nail-plate fixation device having a plate-like head portion, an intramedullary nail portion, and a bent neck portion therebetween which creates an angle between the plate and nail portions. The upper surface of the nail portion is substantially straight for contact with the endosteum and the nail portion includes threaded holes for machine screws. The head portion includes locking holes for receiving fixed-angle bone support elements, and K-wire alignment holes. The front of the head portion includes suture holes while presenting a smooth profile. A specific implantation jigs and a screw guide cannula are also provided.

Abstract: Systems, including apparatus, methods, and kits, for reaming bones with bone reamers.

Abstract: A bone fixation device is provided with an elongate body having a longitudinal axis and having a first state in which at least a portion of the body is flexible and a second state in which the body is generally rigid, an actuateable gripper disposed at one or more locations on the elongated body, a hub located on a proximal end of the elongated body, and an actuator operably connected to the gripper(s) to deploy the gripper(s) from a retracted configuration to an expanded configuration. Methods of repairing a fracture of a bone are also disclosed. One such method comprises inserting a bone fixation device into an intramedullary space of the bone to place at least a portion of an elongate body of the fixation device in a flexible state on one side of the fracture and at least a portion of a hub on another side of the fracture, and operating an actuator to deploy at least one gripper of the fixation device to engage an inner surface of the intramedullary space to anchor the fixation device to the bone.

Abstract: Systems, devices and methods are disclosed for treating fractures and other bone maladies. The systems, devices and methods may include one or both of a stabilizing structure, such as an implant, bone plate, or other device and a fastening assembly, such as an engaging member and a compression member. The stabilizing structure in some embodiments has a proximal section with a transverse aperture and a cross-section that may be shaped to more accurately conform to the anatomical shape of cortical bone and to provide additional strength and robustness in its lateral portions, preferably without requiring significant additional material. The fastening assembly may be received to slide, in a controlled way, in the transverse aperture of the stabilizing structure.

Abstract: An expandable rod is provided that is sized for insertion into a patient's bone. A method for using the expandable rod to prepare the patient's bone to receive an orthopedic implant is also provided. The expandable rod is adjustable between a first, contracted state and a second, expanded state, the expansion member expanding radially outwardly from the contracted state to the expanded state.

Abstract: An intramedullary anchoring stem (7) for an orthopaedic implant head. The stem is in one piece, is made of biocompatible material and is movable in relation to the head, with which it has connecting means (16), and it has a truncated or substantially truncated peg shape (11) at least partially recessed (21) longitudinally, and parallel or substantially parallel to the dorso-palmar plane (22).

Abstract: Apparatus for bone reinforcement, fixation and treatment of diseased or fractured bones including a supporting structure optionally coated with therapeutic agent is provided. The supporting structure or device may be collapsible upon deployment at the surgical site, and include fixation features such as anchors to securely position in place once deployed. Bone cement or other material may be provided to alternatively secure the positioned supporting structure for treatment. A lockable bone fixation device is described that comprises: a sleeve adapted to be positioned in a space formed in a bone; a guidewire adapted to guide movement of the sleeve; and an actuable lock adapted to secure the sleeve within the space of the bone from an end of the device.

Abstract: System, including methods and apparatus, for treating orthopedic conditions using a rod member structured for placement in a medullary canal of a bone and including at least one locking aperture with an internal thread structure. In some embodiments, the internal thread structure may include two or more thread leads disposed adjacent the same end of the locking aperture, two or more interspersed internal threads, and/or a thread depth substantially less than that of a corresponding threaded fastener for the locking aperture.

Abstract: An orthopedic assembly for stabilizing a fractured bone. The orthopedic assembly includes a support structure and an anchor. The anchor includes a first portion and a second portion moveably coupled to the first portion to adjust an angular orientation of the anchor relative to the femur.

Abstract: An intramedullary lengthening device includes a housing and a distraction shaft. The intramedullary lengthening device is placed within a cavity of two bone sections (either already separated or purposely separated for insertion of the device). The distraction shaft of the intramedullary lengthening device is attached to the one of the bone sections using, for example, one or more attachment screws. The housing of the intramedullary lengthening device is attached to the second bone section using, for instance, one or more attachment screws. Over the treatment period, the bone is continually distracted, creating a new separation into which osteogenesis can occur. In one embodiment, the intramedullary lengthening device includes an actuator and an extension rod, which can be attached to one other.

Abstract: An intramedullary nail and a targeting and/or nailing instrument includes a connector end which has an axially parallel projection which cooperates with an axially parallel recess on the hollow connection end of the nail. The engagement of the projection and recess fastens the nail under axial engagement on the connection end of the instrument in predefined rotational position on the instrument. A quick-fastener element engages in the connection end of the nail and has a first coupling element and the connection end of the nail has a second coupling element. The coupling elements are configured so that in a first rotational position relative to the axially parallel projection the instrument can be introduced into the connection end of the nail and in a second rotational position the coupling elements cooperate so that the nail is held axially fixedly on the instrument.

Abstract: An intramedullary fixation device having a distal section; a proximal section; a connecting member for adjustably securing the distal and proximal sections end to end along a longitudinal axis; means for securing the proximal section to a first bone; and means for securing the distal section to a least one different bone. The connecting member is rotated to provide compression across a bone arthrodesis site to be stabilized and fused. Also described is a method of utilizing the intramedullary fixation device with an outrigger assembly.

Abstract: A humeral fracture fixation system is provided and includes a nail-plate fixation device having a plate-like head portion, an intramedullary nail portion, and a bent neck portion therebetween which creates an angle between the plate and nail portions. The upper surface of the nail portion is substantially straight for contact with the endosteum and the nail portion includes threaded holes for machine screws. The head portion includes locking holes for receiving fixed-angle bone support elements, and K-wire alignment holes. The front of the head portion includes suture holes while presenting a smooth profile. A specific implantation jig and screw guide cannula are also provided.

Abstract: A system and method for attaching soft tissue to bone is provided. In general, the apparatus includes an expandable body that is configured to expand into bone, and an expander pin that is adapted to be driven into the expandable body. The device can also include a tissue attachment apparatus that can be used to secure tissue to the device, thereby providing a method for attaching tissue to bone.

Abstract: An intramedullary nail having a distal end is introducible into a medullary space. A medullary nail segment which is oriented towards the distal end and has a diameter D, a proximal end, at least two cross holes having a borehole axis and a central line formed by a line connecting centers of gravity of the axially successive transversal surfaces orthogonal with respect to the intramedullary nail, without taking into account the cross holes. The borehole axis of at least one cross-hole is shifted at a gap d1>0 with respect to the central line.

Abstract: A lagwire system and method for facilitating the fixation of bone fractures is disclosed. The lagwire system includes an anchor component, a wire, a sleeve and a cap. The sleeve and cap are operable to slide along the length of the wire and also operable to be used to fixate a fracture individually by using a canal prepared by the anchor and wire.

Abstract: An apparatus includes: a member configured to be received within an intramedullary canal, the member having an opening therethrough; a flexible elongate element sized to extend through the opening; a section having a first bone-engaging surface and a coupling structure for fixedly securing the section to the elongate element; and a further section having a bone-engaging surface and a coupling structure for fixedly securing the further section to the elongate element. In another form, an apparatus includes a first section having spaced first and second surface portions to engage a bone and a second section configured to extend into a bone. The first surface portion exerts a first force in a direction that is at an angle with respect to a force exerted by the second surface portion. Yet another form involves methods of using each apparatus.

Abstract: The present invention in a first aspect relates to an element having a nonporous hollow body and a filling, wherein the nonporous hollow body is formed from bioresorbable magnesium and/or a bioresorbable magnesium alloy and the filling comprises a biocomposite material, wherein the biocomposite material comprises at least one biocompatible polymer component A and one ceramic component B. In a further aspect, the present invention is directed to a method for producing this element, which is especially suitable for use in bone surgery.

Abstract: Systems, devices and methods are disclosed for treating fractures. The systems, devices and methods may include one or both of an implant, such as an intramedullary nail, and a fastening assembly, such as a lag screw and a compression screw assembly. The implant in some embodiments has a proximal section with a transverse aperture and a cross-section that may be shaped to more accurately conform to the anatomical shape of cortical bone and to provide additional strength and robustness in its lateral portions, preferably without requiring significant additional material. The fastening assembly may be received to slide, in a controlled way, in the transverse aperture of the implant. In some embodiments, the engaging member and the compression device are configured so that the compression device interacts with a portion of the implant and a portion of the engaging member to enable controlled movement between the first and second bone fragments.

Abstract: A bone anchoring element is provided which has a shaft for anchoring in a bone. The shaft includes a tubular body having two open ends. At least one barb element is connected to the shaft. The barb element is cut into the tubular body. The barb element includes a free end and a base connecting the barb element to the shaft. The barb element has a first portion adjacent to the base and a second portion adjacent to the free end. The second portion is inclined relative to the first portion in a direction off said shaft.

Abstract: A soft tissue fixation system, most typically applicable to orthopedic joint repairs, such as anterior cruciate ligament (ACL) knee repair procedures, comprises an implant which is placeable in a tunnel disposed in a portion of bone, wherein the tunnel is defined by walls comprised of bone. A first member is deployable outwardly to engage the tunnel walls for anchoring the implant in place in the tunnel, and a second member is deployable outwardly to engage tissue material to be fixed within the tunnel. The second member also functions to move the tissue material outwardly into contact with the tunnel walls to promote tendon-bone fixation. Extra graft length is eliminated by compression of the tendon against the bone at the aperture of the femoral tunnel, which more closely replicates the native ACL and increases graft stiffness. The inventive device provides high fixation of tendon to bone and active tendon-bone compression.

Abstract: System, including methods, apparatus, and kits, for fixation of a bone, such as the clavicle, using an intramedullary pin. The pin may be threaded in a leading region of the pin and may define one or more transverse apertures in the trailing region of the pin to receive one or more fasteners. In some embodiments, the system may include the pin and a jig for installation of the pin. The jig may include a sleeve that connects to the pin and is configured to be advanced toward the pin and against bone to compress the bone, to permit at least one fastener to be placed into a transverse aperture of the pin while the bone is compressed.

Abstract: A femoral intramedullary rod system capable of treating a variety of femoral bone fractures using a uniform intramedullary rod design. The system generally comprising an intramedullary rod defining an opening having an upper surface and a transverse member including a bone engaging portion and a connection portion defining a thru-hole with the nail sized to pass therethrough. A pin is selectively coupled to the transverse member to rigidly assemble the transverse member to the nail when the nail is passed through the thru-hole and the pin is received within the opening. In an alternative design, an epiphyseal stabilizer is joined to the nail by a locking member.

Abstract: A modular implant system includes a set of anatomically-designed diaphyseal fitting and filling modular implant components and adapters for connection to another implant component such as a modular articular component, a segmental component or an intercalary component. The other end of each diaphyseal component is a tapered porous surface. The tapered porous surface is received with a tapered bore in the bone diaphysis that is prepared to match the size and shape of the tapered porous surface. The diaphyseal implant is easy to insert and remove, does not bind before fully seating, and is designed to prevent stress shielding. The diaphyseal sleeve eliminates the long lever arm created when fixation occurs only at the tip of the stem, and should therefore eliminate related stem loosening.

Abstract: Intramedullary medical devices (e.g., intramedullary nails) and methods for their use and manufacture are described herein. The intramedullary medical devices described herein may provide sustained compressive forces across a bone fusion site despite bone resorption processes. Through various embodiments, the intramedullary medical devices described herein may provide non-linear force curves relative to displacement. Intramedullary medical devices are described with multiple elements made of different materials. Examples of intramedullary medical devices are described with shape memory alloys.

Abstract: Internal bone fixation devices and methods for using the devices for repairing a weakened or fractured bone are disclosed herein. A device for use in repairing a fractured bone 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 reinforcing material and an inner lumen for passage of a light source; a conformable member releasably engaging the distal end of the delivery catheter, wherein the conformable member moves from a deflated state to an inflated state when the at least one reinforcing material is delivered to the conformable member; and an adapter releasably engaging the proximal end of the delivery catheter for receiving the light source and the at least one reinforcing material.

Abstract: Treating fractures using one or both of an implant, such as an intramedullary nail, and a fastening assembly, such as a lag screw and compression screw assembly. The implant in some embodiments has a proximal section with a transverse aperture having a non-circular cross-section that may be shaped to selectively constrain the fastening assembly within the transverse aperture. Two or more components of the fastening assembly may be received to slide, in a controlled way, in the transverse aperture of the implant, and to cooperate to resist a force moment applied thereto. Without the presence of one of the components, such as the lag screw, another component, such as the compression screw may not resist a force moment applied thereto.

Abstract: A bone treatment device comprises a shaft having a tubular wall, a lumen extending within the tubular wall, openings through the tubular wall, and anchoring elements adjacent the openings that can be deployed out of the openings in the presence of an actuating force within the shaft lumen. The bone treatment device may further comprise an actuator configured to be received within the shaft lumen to deploy the anchoring elements out of the openings.

Abstract: A multi-articular fracture fixation device having a adjustable modulus of rigidity. The implant apparatus includes modular tensioning elements that can be disposed in a ball-and-socket linear array along a length of connecting wire within a medullary canal or percutaneously. The connecting wire includes a threaded end and a stop member at the opposite end, and when a lock nut is threadably disposed on the threaded end and tightened, at least two of the tensioning elements in the array may be swiveled relative to one another and arranged to introduce curvature as desired along the length of the array. Tightening the lock nut is also employed to adjust the modulus of rigidity to be retained during healing.

Abstract: An intramedullary fixation assembly for bone fusion includes a first member positioned at a proximal end of the intramedullary fixation assembly, and a second member positioned at a distal end of the, intramedullary fixation assembly. The first member is slideably coupled to the second member and provides for an interference fit with the second member. The intramedullary fixation assembly includes an optional cannulated threaded screw member having a plurality of threads on an external surface of the threaded screw member.

Abstract: The present disclosure relates to an internal fixation device including an interface portion, a polymer material coupled to the interface portion, wherein the polymer material includes at least one feature on a surface of the polymer material, and means for allowing adequate expansion of the polymer material on each side of the bone fracture site. A method of fixating the internal fixation device to a bone and other internal fixation devices and methods for fixating are also disclosed.

Abstract: An bone screw with comprising a sleeve, a shaft reciprocally received within the sleeve, and a compressive device is disclosed. The bone screw may be extended, placing a fracture in tension, after insertion into a bone and then retained in place by a setscrew that is retained by an intramedullary rod. The shaft of the bone screw may have a blade thread that allows the bone screw to be installed into a bone by tapping the bone screw with a hammer.

Abstract: An intramedullary device for repairing defects of a bone is provided. The intramedullary device is configured to be inserted into the medullary canal of a bone and includes a stud protruding from the end. The stud includes a portion that is tapered from a first cross-sectional area to a second cross-sectional where the second cross-sectional area is smaller than that of the first cross-sectional area and the second cross-sectional area defines a region of concentrated stress. The stud also includes a portion configured to engage the internal threads of a fastener retained within an intramedullary device assembly, such as a guide member adapter. The external threads of the stud engage the internal threads of the fastener to secure the intramedullary device to the intramedullary assembly when a first torque is applied to the fastener.

Abstract: Apparatus for bone reinforcement, fixation and treatment of diseased or fractured bones including a supporting structure optionally coated with therapeutic agent is provided. The supporting structure or device may be collapsible upon deployment at the surgical site, and include fixation features such as anchors to securely position in place once deployed. Bone cement or other material may be provided to alternatively secure the positioned supporting structure for treatment. A lockable bone fixation device is described that comprises: a sleeve adapted to be positioned in a space formed in a bone; a guidewire adapted to guide movement of the sleeve; and an actuable lock adapted to secure the sleeve within the space of the bone from an end of the device.

Abstract: An intramedullary nail (20) and related method for fixing a fracture in a long bone. The nail (20) comprises an elongate member (22) having a longitudinal axis (54), a proximal end section (32), a distal end section (34) and a solid central section (24) extending between the proximal and distal end sections (32, 34). The proximal and distal end sections (32, 34) respectively include proximal and distal fastener receiving areas (28, 30) of greater cross sectional dimensions than the central section (24). Each fastener receiving area (28, 30) includes at least one hole (50, 52) extending transverse to the longitudinal axis for receiving a cross fastener (110) adapted to secure to the bone on opposite sides of the elongate member (22). The proximal and distal end sections (32, 34) thereby provide rigid anchoring locations relative to the central section (24) and the central section provides flexibility to promote healing of the fracture.

Abstract: An assembly includes a plate holder having a body. The assembly further includes a stop structure movable in relation to the body between a first location and a second location. In addition, the assembly includes a bone plate assembly including (i) a bone plate having a plurality of fastener openings defined therein, the bone plate being attached to the body, and (ii) a fastener guide. One of the bone plate and the fastener guide includes a channel, and the other of the bone plate and the fastener guide includes a projection configured to be received in the channel.

Abstract: A femoral instrument for use in the intramedullary canal is described and includes an intramedullary rod having a tip at a free end. A body is attached to the intramedullary rod and has a face with a bone abutting portion. A centraliser mechanism is located within the rod and is operable to deploy and retract a plurality of members to engage and disengage an inner surface of the intramedullary canal.

Abstract: A method for repairing a fractured bone includes providing a bone fracture fixation assembly including a plate, an elongated shaft, and a rod. At least a portion of the shaft is threaded, and the shaft has a hole extending therethrough. The hole has an axis transverse to a longitudinal axis of the shaft. The method further includes positioning the plate adjacent the surface of the fractured bone, extending the shaft into the bone, cooperatively engaging the threaded portion of the shaft with a screw receiving aperture of the plate, extending the rod into the bone, and inserting the rod into the hole of the shaft.

Abstract: Embodiments of a method for introducing a substance near a fracture of a bone include installing an osteosynthesis nail into a canal of the bone, the osteosynthesis nail including a fixation aperture, coupling an alignment device with the osteosynthesis nail, the alignment device including an alignment sleeve having a longitudinal axis passing through the fixation aperture, drilling a hole through a wall of the bone and into the canal using the alignment sleeve, inserting an injector through the alignment sleeve, the injector having an injector body with an injection nozzle and a plunger, and moving the plunger to push the substance from within the injector body through the injection nozzle and into the canal.

Abstract: A bone segment positioning device including a base shaft, wherein the base shaft includes a base mating structure and an anchoring thread for securing the base shaft to a distal portion of a broken bone. Additionally, a collar shaft is provided, wherein the collar shaft includes a stabilizer base and a collar mating structure configured for associating with the base mating structure to secure the base shaft to the collar shaft. Moreover, a stabilizing device is provided, wherein the stabilizing device includes a collar configured for associating with the stabilizing base to secure the collar shaft with a proximal portion of the broken bone.

Abstract: This invention relates generally to devices, systems and methods for the internal fixation of bone fractures, and particularly, to intramedullary fracture fixation devices such as those used in, for example, the treatment of long bone fractures. An IM rod preferably is provided with multiple curved sections in different planes preferably designed to conform with the long bones of a patient, both during insertion and in the rod's final position in the long bone. In addition, the overlap of portions of the curved sections results in a co-planar curvature of portions of the IM rod which assist in the insertion process by guiding the proper rotation of the IM rod as it is inserted into the bone. Spiraling flutes extending down the distal portion of the rod also assist in properly guiding and orienting the rod about its longitudinal axis during insertion such that the appropriate segment of the curved rod conforms with the appropriate portion of the long bone at the appropriate place.

Abstract: An intramedullary nail and targeting and/or nailing instrument are provided, whereby a connection end of the targeting and/or nailing instrument has an axially parallel protrusion and a connection end of the nail has an axially parallel recess in order to couple the targeting and/or nailing instrument. The coupling system couples the targeting/nailing instrument and nail in their rotational position when they contact axially and whereby a connector is also provided in order to connect the targeting and/or nailing instrument and the nail in an axially fixed but also releasable manner. The connection end of the targeting and/or nailing instrument has an end section that engages approximately in one end of the bore-hole section of the nail and the end section and bore-hole section have a deformable element for a releasable snap connection of the parts with the simultaneous contact of the axially parallel protrusion and the axially parallel recess.