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Prospective quantitative quality assurance and deformation estimation of MRI-CT image registration in simulation of head and neck radiotherapy patients 

Published byCaio Ventura Bernardes Modified over 5 years ago

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Presentation on theme: "Prospective quantitative quality assurance and deformation estimation of MRI-CT image registration in simulation of head and neck radiotherapy patients "— Presentation transcript:

1 Prospective quantitative quality assurance and deformation estimation of MRI-CT image registration in simulation of head and neck radiotherapy patients  Kendall Kiser, Mohamed A.M. Meheissen, Abdallah S.R. Mohamed, Mona Kamal, Sweet Ping Ng, Hesham Elhalawani, Amit Jethanandani, Renjie He, Yao Ding, Yousri Rostom, Neamat Hegazy, Houda Bahig, Adam Garden, Stephen Lai, Jack Phan, Gary B. Gunn, David Rosenthal, Steven Frank, Kristy K. Brock, Jihong Wang, Clifton D. Fuller  Clinical and Translational Radiation Oncology  Volume 18, Pages (September 2019) DOI: /j.ctro Copyright © Terms and Conditions

2 Fig. 1 Illustration of study workflow. T2-weighted MRI and non-contrast simulation CT scans were both acquired in the standard RT position and thirty-five ROIs were contoured on each scan by an expert radiation oncologist. MRI was then registered to CT by one of three DIR algorithms or by RIR, and performance metrics were calculated for the alignment of MRI contours and CT contours. Clinical and Translational Radiation Oncology  , DOI: ( /j.ctro ) Copyright © Terms and Conditions

3 Fig. 2 Illustration of metrics. The DSC is computed as DSC=2A∩BA+B and may take values from 0 to 1. A larger number indicates better volume overlap. Hausdorff Distances are the minimum distances from every point in A to any point in B (e.g. red lines) and from B to A (e.g. blue lines). The maximum and mean of these distances are the HD max and HD mean. Smaller numbers indicate less extreme deviations between contour surfaces. HD max is more sensitive to projection-like deviations than DSC. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.) Clinical and Translational Radiation Oncology  , DOI: ( /j.ctro ) Copyright © Terms and Conditions

4 Fig. 3 Nonparametric Steel tests with control failed to demonstrate superiority of DIR to RIR. Steel tests were calculated comparing each DIR algorithm to RIR by individual ROI and performance metric. Resulting p-values are plotted on a heat map. No statistically significant difference exists between DIR and RIR for any ROI. Clinical and Translational Radiation Oncology  , DOI: ( /j.ctro ) Copyright © Terms and Conditions

5 Fig. 4 Nonparametric pairwise comparisons using the Wilcoxon method demonstrated improved registration fidelity for soft tissues compared to other tissue types. Selected statistically significant relationships are shown illustrating superior DSC, Hausdorff max, and Hausdorff mean results for muscle and gland ROIs compared to bone, vessel, and spinal cord ROIs. This trend is generally consistent for all registration methods. Vessel ROIs were the least conformal and exhibited the greatest variance in surface distance metrics. Clinical and Translational Radiation Oncology  , DOI: ( /j.ctro ) Copyright © Terms and Conditions

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