A proximal-femur intraosseous release device includes a release mechanism, wherein a primary fixing mechanism is provided at one end of the release mechanism, the primary fixing mechanism includes a first shell, and a second shell, a first triangular block and a second triangular block are arranged inside the first shell; the second shell is screwed to the first shell through threads, a bottom of the second shell is rotatably connected with the first triangular block, the first triangular block is slidably connected with the first shell, a bottom surface of the first triangular block is an inclined surface, the second triangular block is located at a bottom of the first triangular block, a top surface of the second triangular block is an inclined surface, and a through hole matched with the second triangular block is formed in the first shell.

The present invention relates to an improved intramedullary fracture fixation device, the device including a first fastener comprising a head and an at least partially threaded shaft extending from the head, a tiltable load spreading element adapted to couple to the first fastener and having a bone-contacting surface defining bone engagement features and a head-contacting surface, and a second fastener having external threads and a central bore for receiving the threaded shaft of the first fastener. The central bore defines an inner wall surface which is at least partially threaded, the inner wall surface being configured for mating engagement on the outer surface of the shaft of the first fastener such that rotation of the first fastener relative to the second fastener causes the translation of the first fastener relative to the second fastener along the shaft. The load spreading element is configured and dimensioned to interact operatively with at least a surface of the bone and at least a surface of the head to spread the load exerted by the head on the bone over a large bone surface area and, optionally, to prevent the head from completely passing through the bone. The present invention permits a minimally invasive repair of bone fractures that may otherwise be treated through larger incisions. The present invention also relates to the method of fixation of the device.

An intramedullary bone fixation device is disclosed herein. The device includes a first longitudinally extending member, a second longitudinally extending member, and a coupling member. The first longitudinally extending member includes a connector end and a bone engagement end opposite the connector end. The second longitudinally extending member includes a connector end and a bone engagement end opposite the connector end. The coupling member is configured to engage the connector ends of the respective longitudinally extending members, thereby coupling the first longitudinally extending member to the second longitudinally extending member. The device may be provided in an kit form at least partially unassembled. The device may be delivered into a fracture and fully assembled within the fracture or adjacent bone via percutaneous or minimally invasive surgical procedures. The device, on account of its configuration and assembly, may be considered modular in some cases.

An intramedullary implant system, and method for placement within a bone system are provided by the invention. The implant includes a body with at least one pair of beams arranged about a longitudinal axis of the body. The beams are each fixed to the body and each have an end. The end of one of the beams of a pair is releasably coupled to the other beam of the pair by a k-wire from one end of which extends a flexible tail. The beams are each deflectable between (i) a coupled and biased position for insertion of the beams into a respective bone, and (ii) an uncoupled position for gripping bone. The beams of each pair in the uncoupled position being arranged so as to compressively engage the bone.

In one embodiment, the present invention is a fixation device including a median zone having a substantially triangular shape; a first fixation zone including first and second tabs that, in a separated configuration, extend away from each other from an end of the median zone, the first fixation zone having a first region adjacent the median zone and a second region adjacent the first region. Also, within the first region of the first fixation zone, an inner surface of each of the first and second tabs of the first fixation zone extends outwardly and proximally from the median zone to a first point to form an arch, and from the first point, the inner surface of each of the first and second tabs extends toward a second point. Further, within the second region of the first fixation zone, the inner surface of each of the first and second tabs of the first fixation zone extends outwardly from each second point to a respective third point so that the inner surface of each of the first and second tabs from the second point to the third point is arcuate and convex.

An intramedullary bone device which has an internal lumen defined by a sidewall is described. The sidewall includes first and second perforated regions having respective first and second openings. The device also includes fluid flow directing features to direct the flow of a fluid from the internal lumen of the device through the openings in the sidewall of the device. The device may be part of a system with a fluid introducer member inserted through the internal lumen of the device. A method of securing and/or stabilising a bone including a fractured bone is also described.

A bone stent facilitates bone fixation via interior contact, as may be useful for flexible entry into a sidewall of an elongated bone. As consistent with one or more embodiments, a stent includes proximal and distal end caps connected by a plurality of elongated members extending longitudinally between the end caps, and a flexible cable extending through the proximal end cap and connected to one of the end caps. The flexible cable, end caps and elongated members are responsive to the end caps being moved toward one another by laterally bending the elongated members outwardly away from one another, with the cable fixing the elongated members in the compressed state (e.g., while applying pressure to the interior sidewalls of a bone). When the end caps are released from the compressed state, the longitudinal compressive force is released and the elongated members elastically return to the uncompressed state.

An intramedullary implant, system, and method for placement within a bone system are provided by the invention. The implant includes a body with at least one pair of beams arranged about a longitudinal axis of the body. The beams are each fixed to the body and each have an end. The end of one of the beams of a pair is releasably coupled to the other beam of the pair. The beams are each deflectable between (i) a coupled and biased position for insertion of the beams into a respective bone, and (ii) an uncoupled position for gripping bone. The beams of each pair in the uncoupled position being arranged so as to compressively engage the bone.

A proximal-femur intraosseous release device includes a release mechanism. A primary fixing mechanism is provided at one end of the release mechanism, the primary fixing mechanism includes a first shell, and a second shell, a first triangular block and a second triangular block are arranged inside the first shell; the second shell is screwed to the first shell through threads, a bottom of the second shell is rotatably connected with the first triangular block, the first triangular block is slidably connected with the first shell, a bottom surface of the first triangular block is an inclined surface, the second triangular block is located at a bottom of the first triangular block, a top surface of the second triangular block is an inclined surface, and a through hole matched with the second triangular block is formed in the first shell.

Intramedullary systems, expandable intramedullary nails, expandable anchors, and methods of using the same. The intramedullary system may include an expandable intramedullary nail configured to extend into an intramedullary canal of a long bone and/or one or more expandable anchors configured to extend at an angle transverse to the intramedullary nail. The intramedullary nails and/or anchors may include one or more integrated expansion mechanisms that allow for insertion in a contracted configuration and expansion into a deployed configuration to lock the relative position and prevent axial rotation and translation of the system.