The invention relates to a system for the consolidation of a bone structure, comprising: a system for determining the quality of the bone structure, including a body, first and second electrodes arranged on the body, an electric generator for applying an electric current, a measurement device for measuring the electric current, and a processing device for determining an electrical magnitude representative of the aptitude of the bone structure for allowing electric current to pass therethrough and for delivering a signal representative of the quality of the bone structure, using the determined electrical magnitude; and a device selected from between an electrical stimulation device for applying an electric bone-growth stimulation and a fixation device for immobilizing the bone structure.

An implantable scaffold is provided including multiple piezoelectric films and at least one compressible intervening layer. A first of the piezoelectric films is on a first side of the compressible intervening layer and a second of the plurality of piezoelectric films is on a second side of the compressible intervening layer opposite the first piezoelectric film. Upon applying a mechanical force to the first piezoelectric film, the first piezoelectric film deforms towards the second piezoelectric film. Also provided is a method of treatment leveraging the implantable scaffold.

The present invention provides a porous composite the connected structure, method and prosthetic implant for sensor detection and drug delivery, where the porous structure is pre-connected or integrally formed with an intermediate to obtain a composite, which is connected to the substrate so that the porous structure covers the surface of the substrate. The present invention realizes the effective connection of a porous structure and a substrate, satisfying the connection requirements when the overall properties of the mechanical structure and its surface properties differ, and avoids the problem that the mechanical properties of the substrate could be greatly reduced by processes such as hot pressing. The connected structure of the present invention is provided with at least one holding space in which sensors can be placed to detect the status of the interior and exterior of the connected structure as needed, and in which drugs can also be placed and released according to the need for prevention or treatment, broadening the application scopes of the connected structure.

An implantable device includes at least one solid structure having an external surface and a volume beneath the surface. One or more of a first conductor or set of conductors is disposed externally and/or internally on or within the structure and an array of elongate electrically conductive elements are disposed radially outwardly within the volume. A breach is detected when a conductive fluid intrudes into the volume through the surface.

A spinal implant includes an implant body including a first endplate and a second endplate. A plurality of electrodes include at least one electrode disposed with the first endplate and at least one electrode disposed with the second endplate such that the electrodes conduct an electric current to stimulate tissue growth adjacent the implant body. Systems, surgical instruments and methods are disclosed.

The invention relates to a system for determining the quality of a bone structure, comprising: a body adapted for drilling through the bone structure; a first electrode arranged on the body so as to come into contact with the bone structure during drilling; a second electrode arranged on the body so as to come into contact with the bone structure at a distance from the first electrode during drilling; an electric generator adapted to apply an electric current between the first and second electrodes for a pre-determined period of time; a measuring device adapted (i) to measure the electric current, continuously and over the pre-determined period, an electrical magnitude representative of the aptitude of the bone structure for allowing electric current to pass therethrough and (ii) to deliver, continuously and over the pre-determined period, a signal representative of the quality of the bone structure between the contact surfaces of the first and second electrodes, using the determined electrical magnitude.

An orthopedic knee prosthesis includes a femoral component, a tibial bearing, a tibial component, a first magnetic portion associated with the femoral component and including a first pole having a first pole polarity the first magnetic portion not physically interrupting any articulating portion of the curved medial condyle surface or curved lateral condyle surface, and a second magnetic portion associated with one or both of the tibial bearing and/or the tibial component and including a second pole having a second pole polarity, the second pole polarity the same as the first pole polarity, the second magnetic portion not physically interrupting any articulating portion of the concave medial bearing surface or concave lateral bearing surface, wherein the first pole and the second pole are in sufficient proximity to each other such that a magnetic repulsive force is present therebetween.

An orthopedic knee prosthesis includes a femoral component, a tibial bearing, a tibial component, a first magnetic portion associated with the femoral component and including a first pole having a first pole polarity the first magnetic portion not physically interrupting any articulating portion of the curved medial condyle surface or curved lateral condyle surface, and a second magnetic portion associated with one or both of the tibial bearing and/or the tibial component and including a second pole having a second pole polarity, the second pole polarity the same as the first pole polarity, the second magnetic portion not physically interrupting any articulating portion of the concave medial bearing surface or concave lateral bearing surface, wherein the first pole and the second pole are in sufficient proximity to each other such that a magnetic repulsive force is present therebetween.