Abstract: According to the invention, the system enables a preoperative study to be carried out wherein the tibia and/or femur is modelled on a computer (6) in 3D, the ideal cutting plane is defined and the position of the resection instruments (1, 2, 3) used to cut the bone is modelled. Additionally, according to the invention, the system enables redefinition of the ideal cutting plane and the positioning and orientation of the resection instruments (1, 2, 3) on the tibia and/or femur, in such a manner that the plane of the slot (4) of the cutting guide (3) through which the cutting tool is introduced coincides with the ideal cutting plane.
Abstract: Constitutes a pedicle screw (1), a rosette (3) that fixes the pedicle screw (1) to a tulip (6), a bar that constitutes the link with other devices and a locking cap (9) associated to the closing screw (11) that is threaded on the inside of the tulip (6) and fixes the position of the bar. The locking cap (9) incorporates protuberances (12) that fit on the tulip (6), guiding the set formed by the locking cap (9) and the closing screw (11) during the positioning and threading of the closing screw (11) on the tulip (6) pressing the bar (8) against the rosette (3). The outer face of the tulip (6) and the locking cap (9) present an essentially circular configuration that is interrupted by two opposite-facing flat indentations (13, 14) that contribute to reduce the width of the device in the axial direction of the bar (8).
Abstract: The invention relates to an intersomatic cage for intervertebral inclusion and fixing of said vertebrae, provided on its side face with at least one orifice or recess allowing it to be held by the holding clamp; this clamp is provided with hinged arms that can slide relative to one another, their sliding motion being controlled from their rear. The clamp body includes a copying device that reproduces at all times the position of the intersomatic cage as it is held by the clamp, always showing its intervertebral location. The invention is completed by the procedure for placing the intersomatic cages between the vertebrae.
Abstract: According to the invention, the system enables a preoperative study to be carried out wherein the tibia and/or femur is modelled on a computer (6) in 3D, the ideal cutting plane is defined and the position of the resection instruments (1, 2, 3) used to cut the bone is modelled. Additionally, according to the invention, the system enables redefinition of the ideal cutting plane and the positioning and orientation of the resection instruments (1, 2, 3) on the tibia and/or femur, in such a manner that the plane of the slot (4) of the cutting guide (3) through which the cutting tool is introduced coincides with the ideal cutting plane.
Abstract: The invention relates to a vertebral fixation device for the treatment of spinal conditions and more specifically spondylolisthesis. The inventive device comprises a screw (1) which is intended to be fixed to a bone and a tulip element (2) comprising vertical notches (3) in which a bar (4) moves vertically, the bar forming the connection between screws (1) belonging to other devices. The position of the aforementioned bar (4) is adjusted in relation to the bone using a support nut (15). Moreover, the bar (4) rests on the upper face of the support nut (15), such that the rotation of the nut (15) determines the vertical displacement of the bar (4) in relation to the bone, the bar remaining fixed in position by the closing screw (5). The invention further comprises a rosette element (8) having an inner housing which is used to house the head of the screw (1) in such a way that the head, and consequently the screw (1), remain connected to the tulip (2).