A fixation device comprises a first anchor portion being configured to join to a first bone portion. A second anchor portion is configured to join to a second bone portion. An intermediate component extends between the first anchor portion and the second anchor portion. The intermediate component is configured to expand and contract enabling constrained movement of the second bone portion.

A method for locating a material having thermoplastic properties in pores of bone tissue includes providing a pin having the material having thermoplastic properties and a core, wherein the material having thermoplastic properties is arranged on the circumferential surface of the core constituting an outer region of the pin. An opening is provided in the bone tissue, and the pin is positioned at least partly in the opening. The outer region of the pin is then impinged with mechanical vibration energy for a time sufficient for liquefying at least part of the material having thermoplastic properties, and, in a liquefied state, pressing it into the pores of the bone tissue surrounding the opening. The vibration energy is stopped for a time sufficient for re-solidification of the liquefied material, and then the core is removed.

A low-profile intercranial device including a low-profile static cranial implant and a functional neurosurgical implant. The low-profile static cranial implant and the functional neurosurgical implant are virtually designed and interdigitated prior to physical assembly of the low-profile intercranial device.

A bioabsorbable surgical osteosynthesis plate operable to be secured by at least one fastener through at least one fastener opening formed in the plate to a bone. The plate includes a flat section having first and second surfaces defining a main plane of the plate. The plate includes a polymer material that is oriented multiaxially and is substantially rigid and substantially deformable at a first thermochemical state. In the multiaxially oriented structure of the plate the polymer material is arranged according to at least three different orientation axes along the main plane of the plate as a result of solid state drawing of the plate. The polymer material of the plate has isotropic mechanical tear properties in different directions along the main plane of the plate.

A device is described, for fastening a cranial limb to the cranial crown adapted to be positioned both into a craniotomial hole and into a craniotomial cutting, comprising: a cortical supporting riser; first closing means operatively connected to the riser; second closing means to be fastened to the riser to complete its closing; and a handle connected to the cortical riser; wherein the first closing means are composed of at least two elastic arms operatively connected to the cortical riser and that end each one in at least one small transverse arm.

A method for locating a material having thermoplastic properties in pores of bone tissue includes providing a pin having the material having thermoplastic properties and a core, wherein the material having thermoplastic properties is arranged on the circumferential surface of the core constituting an outer region of the pin. An opening is provided in the bone tissue, and the pin is positioned at least partly in the opening. The outer region of the pin is then impinged with mechanical vibration energy for a time sufficient for liquefying at least part of the material having thermoplastic properties, and, in a liquefied state, pressing it into the pores of the bone tissue surrounding the opening. The vibration energy is stopped for a time sufficient for re-solidification of the liquefied material, and then the core is removed.

Expandable fixation assemblies, expandable cranial fixation assemblies, and expandable intervertebral implant assemblies are provided for securing structures to bone and for securing bones and/or bone segments with respect to each other. An expansion member can be moved through at least a portion of an expandable fixation body, thereby causing expansion of the expandable fixation body, such that bone engagement features of the expandable fixation body engage surrounding structure, such as bone.

The present invention relates to a medical instrument for applying a bone plate fixing device which comprises a first bone contact element with a rod-shaped connecting member protruding therefrom and defining a longitudinal direction and a second bone contact element which is movable on the connecting member towards the first bone contact element, characterized by a feed apparatus comprising a feed element for application to the second bone contact element, a guide element with a proximal and a distal end for guiding movement of the feed element and a feed mechanism for moving the feed element in the distal direction relative to the guide element.

An implant comprises a U-shaped suture channel which extends along a center line which has first and second end openings opposite each other opening to a common face. In an aspect the suture channel has a middle portion with a first size in cross section with respect to the center line of the suture channel and at least one of the end openings has a second size in cross section larger than the first size. In another aspect the first and second end openings of the U-shaped suture channel are formed by a first hole and a second hole extending into the implant from the common face in respective first and second directions extending into the implant from the common face, the first hole and the second hole communicating within the implant and providing the U-shaped suture channel through the implant, for guiding curved suture needles through the suture channel.

A device is described, for fastening a cranial limb to the cranial crown adapted to be positioned both into a craniotomial hole and into a craniotomial cutting, comprising: a cortical supporting riser; first closing means operatively connected to the riser; second closing means to be fastened to the riser to complete its closing; and a handle connected to the cortical riser; wherein the first closing means are composed of at least two elastic arms operatively connected to the cortical riser and that end each one in at least one small transverse arm.