Evaluation and mitigation of deformable image registration uncertainties for MRI‐guided adaptive radiotherapy

Zhong, Hualiang; Kainz, Kristofer K.; Paulson, Eric S.

doi:10.1002/acm2.14358

J Applied Clin Med Phys

2024

DOI: 10.1002/acm2.14358

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Evaluation and mitigation of deformable image registration uncertainties for MRI‐guided adaptive radiotherapy

Hualiang Zhong,

Kristofer K. Kainz,

Eric S. Paulson

Abstract: PurposeWe evaluate the performance of a deformable image registration (DIR) software package in registering abdominal magnetic resonance images (MRIs) and then develop a mechanical modeling method to mitigate detected DIR uncertainties.Materials and MethodsThree evaluation metrics, namely mean displacement to agreement (MDA), DICE similarity coefficient (DSC), and standard deviation of Jacobian determinants (STD‐JD), are used to assess the multi‐modality (MM), contour‐consistency (CC), and image‐intensity (II)… Show more

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Deformable dose accumulation is required for adaptive radiotherapy practice

Zhong,

Pursley,

Rong

2024

J Applied Clin Med Phys

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Adaptive Radiotherapy (ART) aims to optimize treatment plans by adapting to daily anatomical changes, potentially improving therapeutic outcomes, and reducing toxicity to surrounding tissues. One of the unaddressed questions regarding ART is whether the fractional adapted dose should be accumulated voxel by voxel through deformation to document the final dose summation. By accurately summing doses from different treatment sessions,Deformable Dose Accumulation (DDA) helps in maintaining optimal dose delivery and ensures that both maximum and volumetric dose constraints are respected. However, inaccuracies in deformable image registration (DIR), due to the complexities of mapping anatomical changes, can lead to errors in dose accumulation. This article presents a detailed point-counterpoint discussion on the role of DDA in ART. Dr. Hualiang Zhong advocates for DDA, emphasizing its ability to enhance the accuracy of cumulative dose calculations. Conversely, Dr. Jennifer Pursley raises significant concerns about the uncertainties and practical limitations of DDA, as well as the challenges of implementing DDA in a clinical setting. Both sides present compelling arguments, contributing to a comprehensive analysis of the benefits and challenges associated with implementing DDA in clinical practice. This debate offers valuable insights for medical physicists and radiation oncologists, encouraging a deeper understanding of the complexities involved in ART. Dr. Zhong is an associate professor and board-certified physicist in the Department of Radiation Oncology at the Medical College of Wisconsin (MCW). He received his PhD in Mathematics from the University of Western Ontario in 2000. After completing his postdoctoral training in Medical Imaging at the Robarts Research Institute in Canada,he was appointed as an assistant professor of Medical Physics at Virginia Commonwealth University in 2006 and later served as a staff physicist at Henry Ford Health System until he Hualiang Zhong and Jennifer M. Pursley contributed equally to this manuscript.

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Deformable dose accumulation is required for adaptive radiotherapy practice

Zhong,

Pursley,

Rong

2024

J Applied Clin Med Phys

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Evaluation and mitigation of deformable image registration uncertainties for MRI‐guided adaptive radiotherapy

Cited by 1 publication

References 33 publications

Deformable dose accumulation is required for adaptive radiotherapy practice

Deformable dose accumulation is required for adaptive radiotherapy practice

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