Abstract: A method for determination of the mobility of a hip joint prosthesis is proposed, comprising a bearing cup that can be inserted in the hip bone and a prosthetic shaft that can be inserted in the femur and is pivotally mounted by a spherical joint surface in the bearing cup, which is characterised in that the femur with the prosthetic shaft is pivoted as far as possible in various directions, in that it is determined whether the central point of the bearing cup and the central point of the spherical joint surface move apart from one another during this process, and in that, for each pivoting direction, the maximum pivoting angle is thus determined, at which the central points begin to move apart from one another. A device for carrying out this method is also proposed.

Abstract: The present invention provides methods and apparatus that permit one to position a cutting jig or other component using a localization device to navigate different degrees of freedom of the component in discrete, sequential steps. For instance, a first mounting pin for a cutting jig that sets one or more, but fewer than all, degrees of freedom of the cutting jig is navigated into position using the localization device. For instance, the first mounting pin might set the height and the slope of the cutting plane of the jig. Next, a marker is mounted on the cutting jig and the cutting jig is slid onto the mounted pin. Then the cutting block is navigated in another degree of freedom, for instance, to set the varus-valgus angle of the cutting plane by rotating the jig about the axis of the pin. A second mounting pin for the jig is affixed to the bone based on that navigation.

Abstract: In a method for determining the angle between the femur and the tibia in the implantation of a unicondylar knee prosthesis, in order to determine in advance the influence of the implantation position of the implant on the angle between the femur and the tibia, it is proposed that the position of the unaltered joint surface on the tibia and/or the femur be determined, that the position of a bearing surface for a unicondylar implant on the tibia and/or the femur be determined, and that the angle between the femur and the tibia be calculated using these position data and the geometrical data relating to the unicondylar implant.

Abstract: In order to be able to ascertain the position of the bone in the body without complicated procedures in a process for the preoperative determination of the positioning data of endoprosthetic parts of a central joint relative to the bones forming the central joint, a respective outer articular point is determined by way or movement of the bones about a respective outer joint which is located at the end of the two bones facing away from the central joint. An articular point is determined for each of the two bones in the area of the central joint, and a direction characteristic for each of these bones is determined by way of a straight-line connection of the two articular points obtained in this manner for the two bones. The orientation of the endoprosthetic parts relative to this characteristic direction is then determined. Apparatus for carrying out the process is also provided.

Abstract: To be able to determine the insertion position of the parts of an artificial knee joint without changing the original knee joint, a method is proposed for determining the position of the tibial part and/or the femoral part of a knee-joint endoprosthesis in relation to the proximal tibial head or to the distal femur in which the position of the femur and of the tibia are monitored by means of a navigation system, in which the distal femur and the proximal tibial head are laterally and medially displaced with a defined force into a spread position by means of a distraction appliance when the knee is straightened and bent, and the relative positions of the femur and the tibia, and consequently the size of the gap between the femur and the tibia, are thereby respectively determined, in which various virtual relative positions of the femur and the tibia are calculated according to geometrical data of the knee-joint endoprosthesis and to different assumed positions of the tibial part on the tibia and/or of the femo

Abstract: In order to establish an optimum position on the upper side of the tibia for the exit point of an anterior cruciate ligament replacement, it is proposed that, with the leg bent, the position of a number of points along the front edge of the notch is detected and in this way their position and progression on the femur are also determined, that, with the leg straight, the course of this front edge of the notch is projected onto a projection plane which is perpendicular to the longitudinal axis of the tibia in the region of the upper side of the tibia, and that, within the region enclosed by this projected curve, the exit point is selected such that it maintains at least a distance corresponding to the radius of the implant from the projected curve. Furthermore, an apparatus for carrying out such a method is proposed.

Abstract: In order to be able to ascertain the position of the bone in the body without complicated procedures in a process for the preoperative determination of the positioning data of endoprosthetic parts of a central joint relative to the bones forming the central joint, a respective outer articular point is determined by way of movement of the bones about a respective outer joint which is located at the end of the two bones facing away from the central joint. An articular point is determined for each of the two bones in the area of the central joint, and a direction characteristic for each of these bones is determined by way of a straight-line connection of the two articular points obtained in this manner for the two bones. The orientation of the endoprosthetic parts relative to this characteristic direction is then determined. Apparatus for carrying out the process is also provided.

Abstract: To make available a method for checking a marking element for displacement in relation to a holding structure, in particular a bone, on which this marking element is fixed, said marking element being used for determining position in navigational surgery, and said marking element functioning with the greatest possible precision, it is proposed to choose a point of orientation which is in a unique relationship to the holding structure and to monitor the position of the point of orientation in a reference system of the marking element.

Abstract: A method and apparatus for cross checking points palpated with a localization device. Points corresponding to the palpated points are obtained from a preoperative image of an object such as an X-Ray of a tibia bone. During a surgical procedure, the accuracy of palpated points are determined based on the palpated points and corresponding points obtained from the preoperative image. If a palpated point is inaccurate, an indicator is generated to indicate the inaccuracy of the palpated point.

Abstract: In order to be able to ascertain the position of the bone in the body without complicated procedures in a process for the preoperative determination of the positioning data of endoprosthetic parts of a central joint relative to the bones forming the central joint, a respective outer articular point is determined by way or movement of the bones about a respective outer joint which is located at the end of the two bones facing away from the central joint. An articular point is determined for each of the two bones in the area of the central joint, and a direction characteristic for each of these bones is determined by way of a straight-line connection of the two articular points obtained in this manner for the two bones. The orientation of the endoprosthetic parts relative to this characteristic direction is then determined. Apparatus for carrying out the process is also provided.

Abstract: To enable the contour of a recess in a piece of material, which is worked into the material by means of a tool, in particular in a piece of bone, to also be determined without a direct view of the machining region with a method for determining this contour, it is proposed that the position of the piece of material in space is established by a navigation system, that the position of the tool in space is established by a navigation system, that the respective position of the tool in relation to the piece of material is determined from the position data obtained in this manner, that during the machining of the piece of material with the tool, the relative positions of the tool in relation to the piece of material are stored and that the prepared contour on the piece of material is determined from extreme values of these relative positions with respect to a fixed reference position of the piece of material. A device for performing this method is also specified.

Abstract: A method and apparatus for capturing information associated with a surgical procedure performed using a localization device. The localization device includes sensors that define a field of view in which a marker associated with a surgical tool is tracked. The localization device also includes a camera having a field of view that includes at least a portion of the field of view defined by the sensors. In response to the identification of a designated event (e.g., a signal generated in response to the actuation of a switch by a surgeon), the localization device captures coordinates associated with the surgical tool and captures an image acquired with the camera. In addition, a display screen and/or an endoscopic image associated with the surgical procedure may be captured in response to the designated event. The captured information provides a record of the surgical procedure for use in post operative analysis.

Abstract: A localization device display method and apparatus for recording positional parameters associated with a tool being navigated with the localization device. The localization device monitors the position of a tool and automatically records positional parameters associated with the tool when the positional parameters conform to an area of interest and the tool is stable.

Abstract: An osteotomy resection procedure for removing a wedge from a bone utilizing a localization device. The localization device being used to track reference points associated with the bone, track surgical instruments, perform calculations to determine a resection angle for the wedge, and assist a surgeon in performing the procedure.

Abstract: A localization device display method and apparatus for displaying different views, e.g., of different magnification, based on the proximity of the tip of a pointer tracked by the localization device to a reference location identified by the localization device. The display method and apparatus may be incorporated into a surgical navigation system for use in identifying a location for drilling a femoral tunnel in an ACL repair procedure.

Abstract: A non-invasive method for determining the articular point of a joint is disclosed. The method uses a surgical navigation system having a stereoscopic cameras which tracks the positions of infrared emitting or reflecting markers attached to appendages on either side of the joint. A movable marker is used to palpate known landmarks on the appendages to determine their positions. The appendages are moved to determine the trajectories of the landmarks relative to the joint. Positional information from the cameras is fed to a data processing system with resident software which uses the positional information and trajectories to mathematically determine the position of the joint articular point according to the laws of kinematics.

Abstract: In order to avoid the use of a marking element on the pelvic bone in a method for determining the mechanical axis of a femur, with which the femur is moved about the hip joint, the movement of the femur is followed via a navigation system by means of a marking element on the femur, position data of the femur obtained therefrom are stored and the position of the mechanical axis of the femur is calculated relative to the same from the various position data of the femur in various positions, it is suggested that the femur be pivoted from an initial position only through a maximum pivoting angle of 15° in various directions and that the mechanical axis of the femur be calculated from the position data of the surface area thereby covered by the marking element and from the position data of the knee joint otherwise determined. In addition, a device for carrying out this method is described.

Abstract: To make available a method for checking a marking element for displacement in relation to a holding structure, in particular a bone, on which this marking element is fixed, said marking element being used for determining position in navigational surgery, and said marking element functioning with the greatest possible precision, it is proposed to choose a point of orientation which is in a unique relationship to the holding structure and to monitor the position of the point of orientation in a reference system of the marking element.

Abstract: In order to be able to ascertain the position of the bone in the body without complicated procedures in a process for the preoperative determination of the positioning data of endoprosthetic parts of a central joint relative to the bones forming the central joint, a respective outer articular point is determined by way of movement of the bones about a respective outer joint which is located at the end of the two bones facing away from the central joint. An articular point is determined for each of the two bones in the area of the central joint, and a direction characteristic for each of these bones is determined by way of a straight-line connection of the two articular points obtained in this manner for the two bones. The orientation of the endoprosthetic parts relative to this characteristic direction is then determined. Apparatus for carrying out the process is also provided.

Abstract: In order to be able to ascertain the position of the bone in the body without complicated procedures in a process for the preoperative determination of the positioning data of endoprosthetic parts of a central joint relative to the bones forming the central joint, a respective outer articular point is determined by way of movement of the bones about a respective outer joint which is located at the end of the two bones facing away from the central joint. An articular point is determined for each of the two bones in the area of the central joint, and a direction characteristic for each of these bones is determined by way of a straight-line connection of the two articular points obtained in this manner for the two bones. The orientation of the endoprosthetic parts relative to this characteristic direction is then determined. Apparatus for carrying out the process is also provided.