Title :
3-D repositioning and differential images of volumetric CT measurements
Author :
Munch, B. ; Ruegsegger, P.
Author_Institution :
Inst. for Biomed. Eng., Federal Inst. of Technol. of Zurich, Switzerland
fDate :
9/1/1993 12:00:00 AM
Abstract :
In quantitative computed tomography (QCT), time serial measurements are performed to detect a global bone density loss or to identify localized bone density changes. A prerequisite for an unambiguous analysis is the comparison of identical bone volumes. Usually, manual repositioning is too coarse. A mathematical procedure that allows matching two three-dimensional image volumes is presented. The algorithm is based on correlation techniques. The procedure has been optimized and applied to computer-tomographic 3-D images of the human knee. It has been tested with both artificially created and in vivo measured image data. Typical differential images calculated from real bone measurements are presented
Keywords :
biomedical measurement; bone; computerised tomography; medical image processing; volume measurement; 3D repositioning; artificially created image data; differential images; global bone density loss; human knee; in vivo measured image data; localized bone density changes; mathematical procedure; medical diagnostic imaging; quantitative computed tomography; time serial measurements; volumetric CT measurements; Bones; Computed tomography; Density measurement; Humans; Knee; Loss measurement; Performance evaluation; Testing; Time measurement; Volume measurement;
Journal_Title :
Medical Imaging, IEEE Transactions on
