Sagittal rotation determination

The invention claimed is: 1. A computer implemented method for determining a sagittal rotation of a patient's pelvis, the method comprising: acquiring image data describing a two-dimensional X-ray-image of the patient's pelvis made in an anterior-posterior direction; determining, based on the image data, position data describing the position of a plurality of pelvic landmarks reproduced in or derivable from the two-dimensional X-ray-image; acquiring calibration data describing the position of a calibration plane with respect to the patient's pelvis, the calibration plane being perpendicular to the anterior-posterior direction; determining, based on the position data and the calibration data, calibrated projection data describing a two-dimensional projection representing the plurality of pelvic landmarks of the patient's pelvis being projected into the calibration plane in the anterior-posterior direction; acquiring distance data describing at least one of a medial-lateral distance and a cranial-caudal distance between at least one first pelvic landmark and at least one second pelvic landmark in the calibrated two-dimensional projection; acquiring, from a database, regression data describing a linear correspondence between at least one of said medial-lateral distances and cranial-caudal distances, and a pelvic sagittal rotation; and determining, based on the distance data and the regression data, the sagittal rotation of the patient's pelvis. 2. The method of claim 1 , wherein the determining calibrated projection data involves the use of at least one calibration feature of a predetermined size and/or geometry, which is reproduced in the X-ray-image. 3. The method of claim 2 , wherein at least one calibration feature is disposed anterior to the patient's pelvis and at least one calibration feature is disposed posterior to the patient's pelvis. 4. The method of claim 1 , wherein the determining calibrated projection data comprises: acquiring source-distance data describing the distance between the X-ray-source and the calibration plane; and acquiring anterior-posterior-distance data describing the distance of each of the plurality of pelvic landmarks to the calibration plane in the anterior-posterior direction. 5. The method of claim 4 , wherein: predefined values are set for the anterior-posterior-distances of the plurality of pelvic landmarks, or wherein the acquiring anterior-posterior-distance data comprises: matching a three-dimensional pelvis model acquired from an anatomical atlas to the two-dimensional X-ray-image, the model specifying the position of the plurality of pelvic landmarks; and identifying, based on the three-dimensional pelvis model, statistical values for the anterior-posterior-distances of the plurality of pelvic landmarks to the calibration plane in the anterior-posterior direction. 6. The method of claim 1 , wherein the determining calibrated projection data comprises: acquiring reference distance data describing the distance in the anterior-posterior direction of each of the plurality of pelvic landmarks to at least one of: an anterior reference plane defined by the at least one calibration feature disposed anterior to the patient's pelvis; and a posterior reference plane defined by the at least one calibration feature disposed posterior to the patient's pelvis; acquiring plane distance data describing the distance in the anterior-posterior direction of the calibration plane to at least one of the anterior reference plane and the posterior reference plane; and determining, based on the reference distance data and the plane distance data, anterior-posterior-distance data describing the distance of each of the plurality of pelvic landmarks to the calibration plane in the anterior-posterior direction. 7. The method of claim 1 , wherein the determining position data comprises: matching a three-dimensional pelvis model acquired from an anatomical atlas to the two-dimensional X-ray-image, the three-dimensional pelvis model specifying the position of the plurality of pelvic landmarks; and identifying, based on the three-dimensional pelvis model, the position of the plurality of pelvic landmarks within the two-dimensional X-ray-image. 8. The method of claim 1 , wherein the at least one first pelvic landmark and the at least one second pelvic landmark are selected from the group consisting of: left anterior superior iliac spine, right anterior superior iliac spine; left iliosacral joint, right left iliosacral; left lateral foramen point, right lateral foramen point; cranial edge of pubic symphysis; and center of rotation of left acetabulum, center of rotation of right acetabulum. 9. The method of claim 1 , wherein the at least one of the medial-lateral distance and the cranial-caudal distance between the at least one first pelvic landmark and the at least one second pelvic landmark are selected from the group consisting of: medial-lateral distance between left anterior superior iliac spine and right anterior superior iliac spine; medial-lateral distance between iliosacral joint and line connecting anterior superior iliac spines; cranial-caudal distance between center of rotation of left or right acetabulum and line connecting anterior superior iliac spines; cranial-caudal distance between center of rotation of left or right acetabulum and intersection point of midsagittal plane and line connecting left lateral foramen point and right lateral foramen point; medial-lateral distance between center of rotation of left or right acetabulum and midsagittal plane of patient; and cranial-caudal distance between center of rotation of left or right acetabulum and cranial edge of pubic symphysis. 10. The method of claim 1 , wherein the two-dimensional X-ray-image shows the patient's pelvis of the patient taking a standing posture. 11. The method of claim 1 , wherein the regression data is based on measurements acquired from a plurality of reference patients, wherein for each one of the reference patients, a correspondence between a pelvic sagittal rotation and at least one of a medial-lateral distance and a cranial-caudal distance between the at least one first pelvic landmark and the at least one second pelvic landmark within the calibration plane is described. 12. The method of claim 1 , wherein the sagittal rotation of the patient's pelvis defines the angle between the coronal plane of the patient and an AAC-plane containing the left anterior superior iliac spine, the right anterior superior iliac spine, and at least one of the center of rotation of the left acetabulum and the center of rotation of the right acetabulum. 13. The method of claim 12 , wherein the determined AAC-plane is passed on, for further use as a reference basis, to a registration procedure for surgery. 14. A system for determining a sagittal rotation of a patient's pelvis, comprising: a computer configured to: acquire image data describing a two-dimensional X-ray-image of the patient's pelvis made in an anterior-posterior direction; determine, based on the image data, position data describing the position of a plurality of pelvic landmarks reproduced in or derivable from the two-dimensional X-ray-image; acquire calibration data describing the position of a calibration plane with respect to the patient's pelvis, the calibration plane being perpendicular to the anterior-posterior direction; determine, based on the position data and the calibration data, calibrated projection data describing a two-dimensional projection representing the plurality of pelvic landmarks of the actual patient's pelvis being projected into