Abstract: An implant comprises a deformable gas tight sack. The sack comprises a first chamber in fluid communication with an obturatable opening, the chamber filled or fillable with a filling material filling the first chamber. The implant is configured such that when one or both of a gas and fluid surrounding the filling material is removed from the first chamber through the opening, a wall of the first chamber forms around and holds the filling material. This causes the implant to transition from a relatively flexible insertion state to a relatively rigid fixation state in which the implant is fixable in the target portions of bone.

Abstract: There is disclosed a method for implanting a device in a fractured bone. The device has an elongated shape and includes a thermo-chemically activated portion including a polymer having a glass transition temperature greater than 37 degrees Celsius. The thermo-chemically activated portion is deformable at a first thermo-chemical state in which the temperature of the polymer is greater than the glass transition temperature. The thermo-chemically activated portion is hard at a second thermo-chemical state in which the temperature of the polymer is lower than the glass transition temperature. The method includes transforming the thermo-chemically activated portion from the second to the first thermo-chemical state. The method includes inserting the device into an intramedullary canal.

Abstract: The present invention provides a deformable implant and a deformation apparatus. The implant has an elongated shape and may be inserted into the intramedullary canal of a fractured bone. The implant may have a support structure and thermo-chemically activated matrix material, deformable at a first state and hardened at a second state, surrounding the support structure. The deformation apparatus is shaped to be inserted co-axially into the implant, and includes a tube co-axially positioned inside a balloon, and a set of hoses connected to the tube and the balloon. A heat source, a cartridge and a pump may be connected to the apparatus to supply heat, and regulate temperature and pressure of a liquid or gas and circulate it through the balloon. Liquid or gas is introduced through the hoses into the balloon to inflate the balloon and cause the surrounding implant to expand radially, providing support to the fractured bone.

Abstract: An intramedullary nail (10, 110, 210, 310, 410, 510, 610) suitable for insertion in a fractured elongate bone (12), of the type comprising a stem (14, 114, 214, 314, 414, 514, 614) extended between a proximal end (16, 116, 216, 416, 516, 616) and a distal end (18, 118, 218, 418, 518, 618). The nail comprises a plurality of elements (20, 120, 220, 320, 420, 520, 620) realized with at least one shape-memory material, a plurality of seats (19, 119, 219, 319, 419, 519, 619) formed in the stem (14, 114, 214, 314, 414, 514, 614) for housing the elements (20, 120, 220, 320, 420, 520, 620). The elements (20, 120, 220, 320, 420, 520, 620) are suitable to take a first shape wherein they are retractably housed in the respective seats (19, 119, 219, 319, 419, 519, 619) and a second shape wherein they project from the respective seats (19, 119, 219, 319, 419, 519, 619).

Abstract: Systems for bone fracture repair are disclosed. One system includes a biocompatible putty that may be packed about a bone fracture to provide full loadbearing capabilities within days. The disclosed putties create an osteoconductive scaffold for bone regeneration and degrade over time to harmless resorbable byproducts. Fixation devices for contacting an endosteal wall of an intramedullary (IM) canal of a fractured bone are also disclosed. One such fixation device includes a woven elongated structure fabricated from resorbable polymer filaments. The woven elongated structure has resilient properties that allow the woven structure to be radially compressed and delivered to the IM canal using an insertion tube. When the insertion tube is removed, the woven structure expands towards its relaxed cross-sectional width to engage the endosteal wall. The woven elongated structure is impregnated with a resorbable polymer resin that cures in situ, or in the IM canal.

Abstract: Systems and methods are provided for fixation of a fractured bone with an intramedullary bone fixation device. During an implantation procedure, the fixation device may be guided by a removable guidewire which is not coupled to the fixation device. The guidewire and device may be inserted into an intramedullary canal along a pathway which is not parallel to the intramedullary canal. The fixation device may be composite, formed of a support structure and a matrix material. The matrix material may be thermo-chemically activated, transformable from a deformable first thermo-chemical state to a hardened second thermo-chemical state. The fixation device may be radially expandable to deform to the shape of the intramedullary canal, to provide support to the fractured bone.

Abstract: An intra-corporal expandable device incorporating a screw operating under traction. A first elongated part (1) receives a second telescopic part (2). Each of these parts comprises links (61), (62) to the organism at a first end (11), (21) and is linked to a rod (3) comprising at least one thread at a second end (12) and (22). The rotation of the rod (3) controlled by means (4) causes a relative displacement of the two parts (1) and (2). The rod (3) is thus assembled between two ends (12) and (22) which come closer when the device is elongated, the length of the loaded rod (7) is reduced when the device is elongated and the length of loaded rod (7) operates only under traction. The device according to the invention is intended in particular for the production of osseous lengthening nails and growth prostheses.

Abstract: An intramedullary fixation device for fractures having a core guide wire, and distal and proximal petal segments mountable on the core guide wire and being able to be moved towards each other. Each petal segment has multiple petals able to be expanded for gripping an internal wall of a medullary canal; expansion segments are also mountable on the core guide wire, each expansion segment having a tapered engagement surface for engaging with and expanding the petals of the distal and proximal petal segments. A corresponding method is also disclosed.

Abstract: A medical device for fixing bone parts or for fixing stabilizing elements to bone parts. A rigid outer tube is provided with at least two opposed recesses on the side that is positioned in the bone. A second inner tube is accommodated in the rigid outer tube. The inner tube is provided with at least two strips extending in the longitudinal direction of the inner tube on the side that is positioned in the bone. The medical device is provided with a device for loading the inner tube in the axial direction, in such a manner that a pressure force is exerted on the strips, which pressure force causes the strips to bend outwards through the recesses.

Abstract: An arrangement for internal bone support. The arrangement includes a support device insertable in a cavity of the bone to be supported. The support device includes a frame having first and second end sections, the frame including a plurality of longitudinally arranged strips. The frame is capable to expand from a reduced configuration to an expanded configuration in a direction perpendicular to the longitudinal centre line of the frame.

Abstract: Systems and methods for repairing a weakened or fractured bone are disclosed herein. A system for 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 bone cement components and an inner lumen for passage of a mixing element; an internal bone fixation device releasably engaging the distal end of the delivery catheter, wherein the internal bone fixation device moves from a first compact state to a second expanded state when the bone cement components are delivered to the internal bone fixation device and mixed within the internal bone fixation device; and a spinning mechanism engaged to a rotatable shaft, wherein the spinning mechanism is inserted into the internal bone fixation device.

Abstract: An intramedullary bone device comprises a distal outer member, a proximal outer member for positioning in substantial axial alignment with the distal outer member, the distal and proximal outer members each having at least one opening in a wall thereof. The distal outer member and the proximal outer member each have a passage therein. The device also has a distal inner member sized to be slideably received within the passage of the distal outer member and a proximal inner member sized to be slideably received within the passage of the proximal outer member. An extender/retractor is able to selectively extend or retract to selectively lengthen or shorten, respectively, the device. The device has pins movable between a retracted position and an extended position, wherein the pins extend through the at least one opening in the distal and proximal outer members to fix the device to a bone during use.

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 length-adjustable IM nail system includes a telescoping IM nail with proximal and distal bodies. An inner magnet within the proximal body is connected to a threaded rod which, in turn, is connected to the distal body. The threaded rod passes through a threaded block which is connected to the proximal body. The position of the distal end of the threaded rod is fixed with respect to the distal body, but may rotate freely within this fixed position. An actuator is also disclosed that includes a pair of rotating magnets disposed in an angular relationship with each other and the axis of the IM nail and the patient's limb. Rotation of these outer magnets in the same direction results in rotation of the inner magnet and threaded rod and a telescoping axial movement of the threaded block and proximal body with respect to the distal body.

Abstract: An internal bone fixation sizing device and methods for using this device during a procedure for repairing a weakened or fractured bone are disclosed herein. A medical device for determining a depth and a diameter of a medullary cavity of a bone includes an outer shaft having a proximal end engaging an activation mechanism, a distal end having a first opening at an upper surface and a second opening at a lower surface, and a longitudinal axis between the proximal end and the distal end, wherein the longitudinal axis of the outer shaft includes a plurality of markers; and an inner shaft having a proximal end engaging the activation mechanism, a distal end terminating in two sizing arms, and a longitudinal axis therebetween, wherein the two sizing arms are able to move from a retracted position to an extended position extending beyond the outer shaft.

Abstract: A method and devices for facilitating fixating and joining of bone fractures utilizing expandable devices that are positioned within the bone and across the fracture site. The stress from the expanded may enhance and expedite bone healing.

Abstract: A bone fixation device is provided with an elongate body having a longitudinal axis and having a flexible state and a rigid state, a plurality of grippers disposed at longitudinally spaced locations of the elongated body, a curved rigid hub connected to the elongated body, and an actuator operably connected to the grippers to deploy the grippers from a first shape to an expanded second shape. Methods of repairing a fracture of a bone are also disclosed. One such method comprising 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 curved rigid hub on another side of the fracture, and operating an actuator to deploy a plurality of grippers of the fixation device to engage an inner surface of the intramedullary space to anchor the fixation device to the bone.

Abstract: The invention concerns an intramedullary nail to be inserted into a fractured long bone, for example a femur, comprising: a rod (2) extending between a proximal part (3) and a distal part (4); a tubular sleeve (5) into which said rod (2) is inserted coaxially; at least a first pair of expansion means (12) located in the distal part (4) of said rod (2), said expansion means (12) being made of a shape-memory material in order to assume a first configuration of rest in which they are disposed inside recesses in the lateral wall of the nail (1), and a second configuration of use in which said means (12) are located projecting from the lateral wall of the nail (1); slots (55) are present on the tubular sleeve (5) in correspondence with the shape-memory means (12) to allow for the fastening onto the bone when the means assume said second configuration of use; where said rod (2) comprises in correspondence with the proximal end (3) a transversal channel (6) for the passage of a stop screw (S), said tubular sleeve (5

Abstract: Intramedullary implants having variable fastener placement are disclosed herein. In an embodiment, an intramedullary implant includes a non-compliant expandable portion having an outer surface and an inner cavity, wherein a hardened light-sensitive liquid is contained within the inner cavity of the expandable portion; and at least one fastener penetrating the expandable portion at a first location along the outer surface of the expandable portion and into the inner cavity of the expandable portion, wherein the at least one fastener penetrates the expandable portion at a user selected location anywhere along a length of the expandable portion, and wherein the at least one fastener penetrates the expandable portion at any angle relative to the expandable portion.

Abstract: A method of repairing a bone fracture comprises accessing a fracture along a length of a bone through a bony protuberance at an access point near an end of a bone. A bone fixation device is advanced into a space through the access point at the end of the bone. A portion of the bone fixation device is bent along its length to traverse the fracture. The bone fixation device is locked into place within the space of the bone.

Abstract: A reamer for reaming a portion of a long bone cavity for use in implanting a joint prosthesis. The reamer is used in cooperation with a portion of an orthopaedic implant component and includes an expandable body that is adapted to adjust between a plurality of diameters. A plurality of cutting edges are also included and extend outwardly from the body, the edges adapted for cooperation with bone, and the cutting edges expanding as the expandable body expands.

Abstract: The present invention relates to a device at fixing means for fixation of bone fragments at bone fractures, the fixing means (1) preferably being a spike for fixation of bone fragments at trochantery hip fractures. The fixing means (1) comprises a sleeve (5) and a pin (7) which is insertable into the sleeve (5) and displaceable in the longitudinal direction thereof. The pin (7) has a rear part (8) and at least two front parts (9, 10) with bent points or tips. Front parts of the sleeve (5) have openings (13, 14) through which the front parts (9, 10) of the pin (7) can be forced.

Abstract: A bone fixation device is provided with an elongate body having a longitudinal axis and having a flexible state and a rigid state, a plurality of grippers disposed at longitudinally spaced locations of the elongated body, a curved rigid hub connected to the elongated body, and an actuator operably connected to the grippers to deploy the grippers from a first shape to an expanded second shape. Methods of repairing a fracture of a bone are also disclosed. One such method comprising 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 curved rigid hub on another side of the fracture, and operating an actuator to deploy a plurality of grippers of the fixation device to engage an inner surface of the intramedullary space to anchor the fixation device to the bone.

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: 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: A device is introduced into the vertebral body through a percutaneous access path. The device is manipulated to modify the cancellous bone volume for introduction of bone filling material. Bone filling material is introduced into the cancellous bone volume modified by the device along the percutaneous path. Discharge of the bone filling material is directed into the cancellous bone volume through an opening that is oriented at an angle relative to the axis of the access path.

Abstract: The present invention relates to a device for reducing a bone fracture (1, 100, 200, 300, 400, 500, 600, 700) comprising a main body (2) and one or more anchoring elements (3) suitable for being moved by actuating means (4) from a position at rest inside the main body (2) to a working position outside the main body (2). Said device also comprises elastic means that cooperate with said anchoring elements (3) to push said anchoring elements (3) outside the main body (2) through corresponding openings (5) when the actuating means (4) are operated.

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 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: 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: 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: A device for radial expansion in an endoluminal cavity in a bone is disclosed. The device can be used to treat bone fractures. The device can have a first radially expandable portion and a second radially expandable portion.

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: The present invention provides method and device for fixating a fractured bone by inflating an intramedullary nail using a manually operated nail inflation syringe. Optionally, the nail is provided attached to an insertion device that may also function as the inflation syringe. The two attached items are preferably provided as a single detachable element—sterile and ready for use.

Abstract: A method and apparatus configured to strengthen and support a portion of a bone, such as the femoral head of the proximal femur, for example. The apparatus may include a housing or base member and a movable support member connected to the housing and configured to move between a first, undeployed position in which the support member is disposed proximate the housing or base such that the apparatus may be inserted into bone, and a second, deployed position in which the support member extends away from the housing or base for supporting the femoral head. The support member may be a rod, one or more wires, a leaf spring, a bladder, or an expandable mesh material, for example.

Abstract: Provided is an accumulator that may store energy within a pressurized inflatable nail to compensate for small changes or losses in a system volume. Alternatively, the accumulator may be external to a pressurized inflatable nail and attached to the nail after the nail is implanted. The accumulator may be comprise a piston or a pressurized bladder. The energy may be stored in a spring, compressed air, or other pressure source. The accumulator may stabilize a system pressure by supplying fluid to the closed system. Alternatively, the accumulator may stabilize a system pressure by replacing the volume of the lost fluid.

Abstract: Bone length adjustment method and system includes a two-part telescopic device connected to bone parts whose length between the connection points is to be adjusted, with each part of the telescopic device being secured to the bone part, and a rod with an embedded permanent magnet which is in threaded engagement at one or both of its ends with one or both of the parts of the telescopic device. The permanent magnet in the rod is excited by an external solenoid arrangement to cause a radial force to develop at the rod thereby causing it to rotate. Rotation of the rod is converted via the threads at one or both of its ends to axial motion or movement of the telescopic parts relative to each other and thereby causes an increase or decrease in the bone length depending on the direction of axial movement between the telescopic parts.

Abstract: An expandable drug delivery device that can be implanted or otherwise delivered in and/or adjacent to a bone and/or soft tissue (e.g., connective tissue) for orthopedic applications is disclosed. Devices and methods are described herein for delivering agents for orthopedic and other uses. In particular such devices and methods can be useful for delivering agents to heal damaged tissue or prior to more invasive and traumatic orthopedic procedures.

Abstract: A system and method for repairing fractured long bones. A guide wire is inserted through an opening drilled in a proximal bone segment and pushed through the intramedullary cavity of the proximal bone segment, across the fracture site and into the intramedullary cavity of a distal bone segment. A dilator is inserted over the guide wire and pushed through the intramedullary cavity into the distal bone segment to a stop at the distal end of the guide wire. A flexible tube having a radially expandable distal portion is then pushed over the guide wire into the distal bone segment and against the dilator. A compression nut is threaded over the proximal end of the guide wire to engage the proximal bone segment and compress the flexible tube. Compression of the flexible tube deploys the radially expandable distal portion to anchor the device in the distal bone segment.

Abstract: An intramedullar distraction device for bone elongation that is completely mechanical in operation, wherein a novel rotating button system allows inverting the device ratchet movement, thereby enabling the reduction of the length of the device, if needed, in order to offer the surgeon operating flexibility before finally anchoring the device on the bone. Furthermore, a locking system allows for locking the ratchet once the desired elongation has been reached, thus avoiding potential mistaken elongations. In addition, a unique alignment hole provides a simple, precise tool to easily and correctly align the device within the bone. The present device operates without the assistance of external mechanisms, motors, or tools, and once inserted, the user can actuate the device without assistance. This device is available in a wide variety of diameters and lengths, and is useful in all long bones.

Abstract: The present invention relates to a bone fixation device having a fixation member using a shape memory effect to secure bone fractures, including but not limited to, femur, tibia and humerus fractures. The fixation member can be malleable at a room temperature, but become rigid at a body temperature because of the shape memory effect, such as derived from a super-elastic property found in such as a nickel titanium alloy. The fixation member can be formed on one or more of the shaft portion and the two end portions of a nail member for securing bone fractures, such as by providing translational and rotational stabilities. The fixation member is also capable of providing a continuous and controllable compression force over the fractured bone, if needed.

Abstract: Fracture fixation devices for placement within the intramedullary canal of a bone are disclosed. The devices disclosed include a tubular support including a liquid impermeable portion and a plurality of elongated members. The devices are typically used with a hardenable cement. Apparatus and methods for removing such devices are also disclosed.

Abstract: Inflatable medical devices and methods for making and using the same are disclosed. The inflatable medical devices can be medical balloons. The balloons can be configured to have a through-lumen or no through-lumen and a wide variety of geometries. The device can have a high-strength, non-compliant, fiber-reinforced, multi-layered wall. The inflatable medical device can be used for angioplasty, kyphoplasty, percutaneous aortic valve replacement, or other procedures described herein.

Abstract: A device for stabilizing bone includes a tubular body having first and second end regions defining a longitudinal axis therebetween. A plurality of splines extend from the first end region, the splines including first ends coupled to the first end region, and second ends disposed away from the first end region, the second ends being directable from a generally axial collapsed state to a substantially transverse expanded state. A plurality of support arms are coupled to the splines, and an actuator is coupled to the support arms, the actuator movable axially relative to the elongate body for causing the support arms to direct the second ends of the splines from the collapsed state to the expanded state. Optionally, the device includes another set of splines extending from the second end region or located at an intermediate region of the tubular body.

Abstract: A planetary roll system, in particular for a device for extending bones. The system comprises two elements that can be displaced in opposition to one another and that are interconnected by at least one drive element. A hosing is designed to receive at least one planetary roll which comprises at least one radial cavity.

Abstract: A device for preventing a hip fracture includes: a shaft having a first end and a second end and an expanding means for engaging the femoral head at the first end. The shaft is positioned in a hole of a predetermined depth in a femur. The hole extends from the greater trochanter to the femoral head of the femur, such that the first end is positioned in the femoral head and the second end is positioned in the greater trochanter. The device is oriented substantially perpendicular to the long axis of the femoral shaft.

Abstract: A bone fixation device and a method of securing the same in a fractured bone. The device has a rod and at least one bone engaging member The rod and at least one bone engaging member bridge a region of fracture with the end of the at least one bone engaging member engaging with the bone of a patient to secure the device across the fracture.

Abstract: Intramedullary rod and blade assemblies and methods of implanting said assemblies are disclosed herein. The assemblies provided herein are useful in treating distal, proximal fractures, among other conditions, in large bones including, but not limited to: femurs, tibias, and humeri. Preferred assemblies can include an intramedullary rod having a proximal end and coupling means configured to securely attach to a blade, such that no portion of the rod or the coupling means extend into the fractured fragment beyond the blade. Further preferred assemblies include intramedullary rods that connect in the center of the internal blade, or substantially so, such that the rod and blade form a “T-shape,” or substantially so.

Abstract: A shape and depth template for incisions with laser tips, usable in bone surgery, comprising a guiding body for a laser tip provided with two mutually opposite end faces arranged at a preset distance and a lateral surface, one of the end faces being arrangable at the laser tip incision region and with a hole that of preset shape that passes there through from one end face to the other.

Abstract: The present invention relates to a reforming device. A reforming device according to the present invention includes a main body that is locked to bones of a human body and of which a length is extensible depending on growth of the human body; an external controller that transmits a wireless control signal for a length of the main body to be extended inside of the human body; and an internal controller that is mounted inside of the human body and extends the length of the main body depending on the wireless control signal.