The present invention relates to orthopaedic implants having a fenestrated hollow shell and a biologic core. These design features provide an improved interface between the implant and the surrounding tissue, aiding fixation, and provide a vehicle for applying new bone healing and enhancing modalities, such as gene therapy, tissue engineering, and growth factors.

A bone nail (1) for the heel includes: a front portion (2) determined for insertion into one or more bones (14, 15, 16) or bone fragments of the heel and having a tip (3), and an arc-shaped main portion (4) extending from the front portion (2) and having a rear end (5), wherein the main portion (4) includes a tapered shape such that a cross sectional diameter of the main portion (4) within at least one first section (20) increases towards the rear end (5). According to embodiments, a curvature of the arc-shaped main portion (4) includes a radius of curvature r.sub.c which amounts to at least 130 mm. According to other embodiments, the tapered shape is a conical shape.

The present invention relates to a device and system for fixation of intra-articular and extra-articular fractures and non-unions of small bones and other small bone fragments, and more particularly to a threaded nail with a robust length and a trailing end with a cutting tip and longitudinal cutting flutes and a stepped diameter with cutting flutes at the transition point, and an optional cannulation along the central longitudinal axis of the nail.

An intramedullary (IM) nail system for the fixation of fractured bones in a patient comprising a nail and compression screws. The length of the body is divided into a distal section and a proximal section with the distal section containing multiple interference sections having a diameter less or greater than that of the body. The threads adjacent the nail head have an apex generally greater than the diameter of the body. The compression screws are dimensioned to be inserted through the bone and contact the nail, pressing it against the bone canal. The nail, once inserted, lies below the surface of the bone.

Systems and methods for restructure and stabilization of bones that provide an anti-microbial effect are disclosed herein. A device includes a delivery catheter having an inner void for passing at least one light sensitive liquid, and an inner lumen; an expandable member releasably engaging the distal end of the delivery catheter; at least one channel positioned in the expandable member; and a light conducting fiber sized to pass through the inner lumen of the delivery catheter and into the expandable member, wherein, when the light conducting fiber is in the at least one channel, the light conducting fiber is able to disperse light energy to provide an anti-microbial effect. When the light conducting fiber is in the expandable member, the light conducting fiber is able to disperse the light energy to initiate hardening of the light sensitive liquid within the expandable member to form a photodynamic implant.

A bone anchoring device includes first and second arms defining a first slot of depth p extending along an axis. The first and second arms respectively bear a first and a second branch extending outside the first slot. The first branch defining second and third slots. In the rest position: the orthogonal projection on the axis of the bottom of each of the second and third slots is in the first slot distanced from the bottom of this slot of at least 10% of p; and the distances d1 separating the second slot bottom from the part of the end of the branch defining it which is the furthest away from it, and d2 separating the third slot bottom from the part of the end of the branch defining it which is the furthest away from it, so each of d1/p and d2/p>0.3.

An orthopaedic bone stabilisation device includes an elongate and integrally formed body having a length extending between proximal and distal ends. The elongate body includes a first threaded section having a head at the proximal end, the head configured to interface with a driver, the threaded section having external threads extending along a length of the first threaded section. The first threaded section extends between the proximal end and a first location of the elongate body. The first threaded section tapers from the proximal end to the first location such that the outer thread diameter of the first section gradually decreases from the proximal end to the first location of the elongate body. The device further includes a second threaded section having external threads, a length, and a substantially uniform thread diameter, and extends between the distal end of the elongate body and a second location of the elongate body.

A bone nail (1) for the heel includes: a front portion (2) determined for insertion into one or more bones (14, 15, 16) or bone fragments of the heel and having a tip (3), and an arc-shaped main portion (4) extending from the front portion (2) and having a rear end (5), wherein the main portion (4) includes a tapered shape such that a cross sectional diameter of the main portion (4) within at least one first section (20) increases towards the rear end (5). According to embodiments, a curvature of the arc-shaped main portion (4) includes a radius of curvature r.sub.c which amounts to at least 130 mm. According to other embodiments, the tapered shape is a conical shape.

Disclosed is a medical device having a first implant portion having a proximal end, a second implant portion connected to the first implant portion, the second implant portion having a distal end, and a driver assembly removably connected to the distal end, the driver assembly comprising a drill connected to the distal end at a connection.

A device and method for stabilizing a broken bone while it heals is disclosed. The device preferably has a (a) first (or proximal) section with a driving head, threads and a first diameter, and (b) second (or distal) section that is threaded and has a second diameter. The first section is preferably greater in diameter than the second section so that greater torque can be applied to tighten the device. The device may include one or more self-tapping structures to lessen the torque required to screw it into a bone.