Abstract: A surgical instrument is configured for determining the size and/or height of an intervertebral implant insertable into an intervertebral space between two adjacent vertebral bodies of two human or animal vertebrae. The implant includes a first abutment element for abutment against an articular surface of one of the two adjacent vertebral bodies and a second abutment element supported directly or indirectly on the first abutment element for abutment against an articular surface of the other of the two adjacent vertebral bodies. The instrument includes a holding part defining a longitudinal direction and at least one test implant, which includes a first and a second test-implant abutment element each having at least one abutment surface for abutment against one of the articular surfaces. A distal end of the holding part includes at least one abutment-element holding element for detachable connection to the at least one test implant 149.

Abstract: So that a surgical instrument for inserting an intervertebral implant into an intervertebral space between two adjacent vertebral bodies of two vertebrae of a human or animal spinal column, wherein the intervertebral implant comprises a first abutment element for abutment against one of the two adjacent vertebral bodies as well as a second abutment element directly or indirectly supported in an articulated manner on the first abutment element for abutment against the other of the two adjacent vertebral bodies, wherein the instrument comprises an elongate shank, which defines a longitudinal direction and on the distal end of which at least two abutment-element holding elements are provided for detachable connection to the first and the second abutment element, and a spacer element, which projects from the distal end of the shank in extension thereof and which, when the abutment elements are connected to the instrument, engages between the abutment elements and holds them a defined spacing apart from one anothe

Abstract: In order to improve a surgical instrument for removing an intervertebral implant from an intervertebral space of a human or animal spinal column, comprising a coupling part arranged at the distal end of the instrument for placement on the intervertebral implant in a placement position, the coupling part being able to be brought from the placement position into a coupling position in which the intervertebral implant is held with force locking and/or positive locking on the coupling part, the coupling part comprising at least one first coupling element and at least one second coupling element, which are engageable with the intervertebral implant in the coupling position, so that it may also be used for removing different intervertebral implants of different sizes and shapes, it is proposed that the at least one first coupling element and the at least one second coupling element be arranged so as to be movable relative to each other in such a way that a spacing between the at least one first coupling element and

Abstract: In an intervertebral implant with a top contacting element, a bottom contacting element and arranged between these a core which with an upper, spherical bearing surface engages a spherical bearing socket, having the same radius, of the top contacting element and with a lower, spherical bearing surface engages a spherical bearing socket, having the same radius, of the bottom contacting element, in order to improve the kinematics and the endurance, it is proposed that the radius of the bearing surface and of the bearing socket receiving it differ on opposing sides of the core at least by the factor 5.

Abstract: A surgical guiding instrument for a surgical machining tool has a substantially elongated instrument body having a proximal end and a distal end and defining a longitudinal axis. The instrument body carries a guiding device for the machining tool that can be used in minimally invasive surgery. The guiding device is arranged and constructed so as to enable the machining tool to be positively guided by it along a path of movement defined by the guiding device. The path of movement corresponds to a superimposed translational-pivotal movement.

Abstract: In a kit for an intervertebral implant comprising an upper end plate and a lower end plate for placement on adjacent vertebral bodies, and bearing elements arranged between the end plates for mutually pivotally supporting these, the end plates carrying anchoring projections on their outer sides which face the vertebral bodies, to enable an anchoring of the end plates that is adapted to the anatomical conditions, it is proposed that the kit comprise end plates of a first type, which carry at least one anchoring projection configured as a fin or a rib extending parallel to the direction of insertion of the intervertebral implant, and end plates of a second type whose anchoring projections are different from fins or ribs extending parallel to the direction of insertion, and that the kit contain both end plates of the first type and end plates of the second type for each intervertebral implant. The invention also relates to an intervertebral implant assembled in this manner.

Abstract: A surgical instrument is configured for determining the size and/or height of an intervertebral implant insertable into an intervertebral space between two adjacent vertebral bodies of two human or animal vertebrae. The implant includes a first abutment element for abutment against an articular surface of one of the two adjacent vertebral bodies and a second abutment element supported directly or indirectly on the first abutment element for abutment against an articular surface of the other of the two adjacent vertebral bodies. The instrument includes a holding part defining a longitudinal direction and at least one test implant, which includes a first and a second test-implant abutment element each having at least one abutment surface for abutment against one of the articular surfaces. A distal end of the holding part includes at least one abutment-element holding element for detachable connection to the at least one test implant 149.

Abstract: In order to improve a surgical instrument for removing an intervertebral implant from an intervertebral space of a human or animal spinal column, comprising a coupling part arranged at the distal end of the instrument for placement on the intervertebral implant in a placement position, the coupling part being able to be brought from the placement position into a coupling position in which the intervertebral implant is held with force locking and/or positive locking on the coupling part, the coupling part comprising at least one first coupling element and at least one second coupling element, which are engageable with the intervertebral implant in the coupling position, so that it may also be used for removing different intervertebral implants of different sizes and shapes, it is proposed that the at least one first coupling element and the at least one second coupling element be arranged so as to be movable relative to each other in such a way that a spacing between the at least one first coupling element and

Abstract: So that a surgical instrument for inserting an intervertebral implant into an intervertebral space between two adjacent vertebral bodies of two vertebrae of a human or animal spinal column, wherein the intervertebral implant comprises a first abutment element for abutment against one of the two adjacent vertebral bodies as well as a second abutment element directly or indirectly supported in an articulated manner on the first abutment element for abutment against the other of the two adjacent vertebral bodies, wherein the instrument comprises an elongate shank, which defines a longitudinal direction and on the distal end of which at least two abutment-element holding elements are provided for detachable connection to the first and the second abutment element, and a spacer element, which projects from the distal end of the shank in extension thereof and which, when the abutment elements are connected to the instrument, engages between the abutment elements and holds them a defined spacing apart from one anothe

Abstract: In an intervertebral implant with a top contacting element, a bottom contacting element and arranged between these a core which with an upper, spherical bearing surface engages a spherical bearing socket, having the same radius, of the top contacting element and with a lower, spherical bearing surface engages a spherical bearing socket, having the same radius, of the bottom contacting element, in order to improve the kinematics and the endurance, it is proposed that the radius of the bearing surface and of the bearing socket receiving it differ on opposing sides of the core at least by the factor 5.