Validation of an automatic contour propagation method for lung cancer 4D adaptive radiation therapy
The objective of this work is to validate a fast and reliable 4D-based adaptive treatment planning procedure for the Radiation Oncology clinic. A non-rigid B-Spline based registration is performed between CT scans at different respiratory phases. Radiotherapy contours drawn on a reference phase are...
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| Published in | 2009 IEEE International Symposium on Biomedical Imaging: From Nano to Macro pp. 1071 - 1074 |
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| Main Authors | , , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.06.2009
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| Subjects | |
| Online Access | Get full text |
| ISBN | 1424439310 9781424439317 |
| ISSN | 1945-7928 |
| DOI | 10.1109/ISBI.2009.5193241 |
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| Abstract | The objective of this work is to validate a fast and reliable 4D-based adaptive treatment planning procedure for the Radiation Oncology clinic. A non-rigid B-Spline based registration is performed between CT scans at different respiratory phases. Radiotherapy contours drawn on a reference phase are than propagated to the target phase. We present results from two novel validation methods: a validation study using a 4D anthropomorphic computational phantom, and a patient data analysis comparing auto-rater versus inter-rater variability. For the phantom study, the overlap was greater than 90%, while the diameter variation was 5.1% at exhale and 3.4% at inhale. For the patient dataset, pairwise auto-rater Dice coefficient values exceeded inter-rater values for 9 of 15 structures. Though subject to inaccuracies caused by residual motion artifacts, and manual contouring variations, the reliability of the method suggests it could be soon introduced in the clinical practice. |
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| AbstractList | The objective of this work is to validate a fast and reliable 4D-based adaptive treatment planning procedure for the Radiation Oncology clinic. A non-rigid B-Spline based registration is performed between CT scans at different respiratory phases. Radiotherapy contours drawn on a reference phase are than propagated to the target phase. We present results from two novel validation methods: a validation study using a 4D anthropomorphic computational phantom, and a patient data analysis comparing auto-rater versus inter-rater variability. For the phantom study, the overlap was greater than 90%, while the diameter variation was 5.1% at exhale and 3.4% at inhale. For the patient dataset, pairwise auto-rater Dice coefficient values exceeded inter-rater values for 9 of 15 structures. Though subject to inaccuracies caused by residual motion artifacts, and manual contouring variations, the reliability of the method suggests it could be soon introduced in the clinical practice. |
| Author | Chen, G.T.Y. Baroni, G. Sharp, G.C. Peroni, M. Spadea, M.F. Riboldi, M. |
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| Snippet | The objective of this work is to validate a fast and reliable 4D-based adaptive treatment planning procedure for the Radiation Oncology clinic. A non-rigid... |
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| SubjectTerms | 4D Treatment Planning Adaptive Radiation Therapy Anthropomorphism Biomedical applications of radiation Cancer Computed tomography Contour Propagation Deformable Registration Imaging phantoms Lesions Lungs Medical treatment Oncology Re-planning Spline |
| Title | Validation of an automatic contour propagation method for lung cancer 4D adaptive radiation therapy |
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