Improving hybrid image and structure-based deformable image registration for large internal deformations.

Lorenzo Polo, A.; Nix, M.; Thompson, C.; O'Hara, C.; Entwisle, J.; Murray, L.; Appelt, A.; Weistrand, O.; Svensson, S.

Improving hybrid image and structure-based deformable image registration for large internal deformations.

All Authors

Lorenzo Polo, A.

Nix, M.

Thompson, C.

O'Hara, C.

Entwisle, J.

Murray, L.

Appelt, A.

Weistrand, O.

Svensson, S.

LTHT Author

Nix, Michael
Thompson, Christopher
O'Hara, Christopher
Entwisle, Jonathan
Murray, Louise
Appelt, Ane

LTHT Department

Leeds Cancer Centre
Medical Physics & Engineering
Radiotherapy
Surgical Oncology

Non Medic

Clinical Scientist
Physicist

Publication Date

2024

Item Type

Journal Article

Abstract

Objective.Deformable image registration (DIR) is a widely used technique in radiotherapy. Complex deformations, resulting from large anatomical changes, are a regular challenge. DIR algorithms generally seek a balance between capturing large deformations and preserving a smooth deformation vector field (DVF). We propose a novel structure-based term that can enhance the registration efficacy while ensuring a smooth DVF. Approach.The proposed novel similarity metric for controlling structures was introduced as a new term into a commercially available algorithm. Its performance was compared to the original algorithm using a dataset of 46 patients who received pelvic re-irradiation, many of which exhibited complex deformations. Main results.The mean Dice Similarity Coefficient (DSC) under the improved algorithm was 0.96, 0.94, 0.76, and 0.91 for bladder, rectum, colon, and bone respectively, compared to 0.69, 0.89, 0.62, and 0.88 for the original algorithm. The improvement was more pronounced for complex deformations. Significance.With this work, we have demonstrated that the proposed term is able to improve registration accuracy for complex cases while maintaining realistic deformations.