Automatic segmentation of lumbar vertebrae in digital videofluoroscopic images
Automatic segmentation of lumbar vertebrae in digital videofluoroscopic images
Low back pain is a significant problem in the industrialized world. Diagnosis of the underlying causes can be extremely difficult. Since mechanical factors often play an important role, it can be helpful to study the motion of the spine. Digital videofluoroscopy has been developed for this study and it can provide image sequences with many frames, but which often suffer due to noise, exacerbated by the very low radiation dosage. Thus, determining vertebra position within the image sequence presents a considerable challenge.
There have been many studies on vertebral image extraction, but problems of repeatability, occlusion and out-of-plane motion persist. In this paper, we show how the Hough transform (HT) can be used to solve these problems. Here, Fourier descriptors were used to describe the vertebral body shape. This description was incorporated within our HT algorithm from which we can obtain affine transform parameters, i.e., scale, rotation and center position. The method has been applied to images of a calibration model and to images from two sequences of moving human lumbar spines. The results show promise and potential for object extraction from poor quality images and that models of spinal movement can indeed be derived for clinical application.
Low back pain, videofluoroscopy, Hough transform, Fourier descriptors, lumbar spine
45-52
Zheng, Yalin
cf121a1d-9a54-4d7c-aeea-6354fe19d880
Nixon, M.S.
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Allen, R.
956a918f-278c-48ef-8e19-65aa463f199a
January 2004
Zheng, Yalin
cf121a1d-9a54-4d7c-aeea-6354fe19d880
Nixon, M.S.
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Allen, R.
956a918f-278c-48ef-8e19-65aa463f199a
Zheng, Yalin, Nixon, M.S. and Allen, R.
(2004)
Automatic segmentation of lumbar vertebrae in digital videofluoroscopic images.
IEEE Transactions on Medical Imaging, 23 (1), .
(doi:10.1109/TMI.2003.819927).
Abstract
Low back pain is a significant problem in the industrialized world. Diagnosis of the underlying causes can be extremely difficult. Since mechanical factors often play an important role, it can be helpful to study the motion of the spine. Digital videofluoroscopy has been developed for this study and it can provide image sequences with many frames, but which often suffer due to noise, exacerbated by the very low radiation dosage. Thus, determining vertebra position within the image sequence presents a considerable challenge.
There have been many studies on vertebral image extraction, but problems of repeatability, occlusion and out-of-plane motion persist. In this paper, we show how the Hough transform (HT) can be used to solve these problems. Here, Fourier descriptors were used to describe the vertebral body shape. This description was incorporated within our HT algorithm from which we can obtain affine transform parameters, i.e., scale, rotation and center position. The method has been applied to images of a calibration model and to images from two sequences of moving human lumbar spines. The results show promise and potential for object extraction from poor quality images and that models of spinal movement can indeed be derived for clinical application.
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Published date: January 2004
Keywords:
Low back pain, videofluoroscopy, Hough transform, Fourier descriptors, lumbar spine
Organisations:
Southampton Wireless Group
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Local EPrints ID: 258861
URI: http://eprints.soton.ac.uk/id/eprint/258861
PURE UUID: 00fe3392-8f12-419d-bf36-7b9eb5658b67
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Date deposited: 05 Mar 2004
Last modified: 15 Mar 2024 02:35
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Author:
Yalin Zheng
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