Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy

Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy

Background and purpose: Appropriate internal margins are essential to avoid a geographical miss in intensity-modulated radiation therapy (IMRT) for endometrial cancer (EC). This study evaluated interfraction target motion using rigid and non-rigid approximation strategies and calculated internal mar...

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Main Authors: Ingrid White, Dualta McQuaid, Helen McNair, Alex Dunlop, Steven Court, Naomi Hopkins, Karen Thomas, David Dearnaley, Shree Bhide, Susan Lalondrelle
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Physics and Imaging in Radiation Oncology
Online Access:http://www.sciencedirect.com/science/article/pii/S2405631618300678
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spelling doaj-ad348a5e62fa4bce814cac6080d6397e2020-11-24T21:51:59ZengElsevierPhysics and Imaging in Radiation Oncology2405-63162019-01-01997102Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapyIngrid White0Dualta McQuaid1Helen McNair2Alex Dunlop3Steven Court4Naomi Hopkins5Karen Thomas6David Dearnaley7Shree Bhide8Susan Lalondrelle9Institute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomInstitute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomCorresponding author.; Institute of Cancer Research and Royal Marsden National Health Service Foundation Trust, Sutton, Surrey, United KingdomBackground and purpose: Appropriate internal margins are essential to avoid a geographical miss in intensity-modulated radiation therapy (IMRT) for endometrial cancer (EC). This study evaluated interfraction target motion using rigid and non-rigid approximation strategies and calculated internal margins based on random and systematic errors using traditional rigid margin recipes. Dosimetric impact of target motion was also investigated. Materials and methods: Cone beam CTs (CBCTs) were acquired days 1–4 and then weekly in 17 patients receiving adjuvant IMRT for EC; a total of 169 CBCTs were analysed. Interfraction motion for the clinical target volume vaginal vault and upper vagina (CTVv) was measured using bony landmarks and deformation vector field displacement (DVFD) within a 1 mm internal wall of CTVv. Patient and population systematic and random errors were estimated and margins calculated. Delivered dose to the CTVv and organs at risk was estimated. Results: There was a significant difference in target motion assessment using the different registration strategies (p < 0.05). DVFD up to 30 mm occurred in the anterior/posterior direction, which was not accounted for in PTV margins using rigid margin recipes. Underdosing of CTVv D95% occurred in three patients who had substantial reductions in rectal volume (RV) during treatment. RV relative to the planning CT was moderately correlated with anterior/posterior displacement (r = 0.6) and mean relative RV during treatment was strongly correlated with mean relative RV at CBCT acquired days 1–3 (r = 0.8). Conclusion: Complex and extensive geometric changes occur to the CTVv, which are not accounted for in margin recipes using rigid approximation. Contemporary margin recipes and adaptive treatment planning based on non-rigid approximation are recommended.http://www.sciencedirect.com/science/article/pii/S2405631618300678
collection DOAJ
language English
format Article
sources DOAJ
author Ingrid White
Dualta McQuaid
Helen McNair
Alex Dunlop
Steven Court
Naomi Hopkins
Karen Thomas
David Dearnaley
Shree Bhide
Susan Lalondrelle
spellingShingle Ingrid White
Dualta McQuaid
Helen McNair
Alex Dunlop
Steven Court
Naomi Hopkins
Karen Thomas
David Dearnaley
Shree Bhide
Susan Lalondrelle
Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
Physics and Imaging in Radiation Oncology
author_facet Ingrid White
Dualta McQuaid
Helen McNair
Alex Dunlop
Steven Court
Naomi Hopkins
Karen Thomas
David Dearnaley
Shree Bhide
Susan Lalondrelle
author_sort Ingrid White
title Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
title_short Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
title_full Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
title_fullStr Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
title_full_unstemmed Geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
title_sort geometric and dosimetric evaluation of the differences between rigid and deformable registration to assess interfraction motion during pelvic radiotherapy
publisher Elsevier
series Physics and Imaging in Radiation Oncology
issn 2405-6316
publishDate 2019-01-01
description Background and purpose: Appropriate internal margins are essential to avoid a geographical miss in intensity-modulated radiation therapy (IMRT) for endometrial cancer (EC). This study evaluated interfraction target motion using rigid and non-rigid approximation strategies and calculated internal margins based on random and systematic errors using traditional rigid margin recipes. Dosimetric impact of target motion was also investigated. Materials and methods: Cone beam CTs (CBCTs) were acquired days 1–4 and then weekly in 17 patients receiving adjuvant IMRT for EC; a total of 169 CBCTs were analysed. Interfraction motion for the clinical target volume vaginal vault and upper vagina (CTVv) was measured using bony landmarks and deformation vector field displacement (DVFD) within a 1 mm internal wall of CTVv. Patient and population systematic and random errors were estimated and margins calculated. Delivered dose to the CTVv and organs at risk was estimated. Results: There was a significant difference in target motion assessment using the different registration strategies (p < 0.05). DVFD up to 30 mm occurred in the anterior/posterior direction, which was not accounted for in PTV margins using rigid margin recipes. Underdosing of CTVv D95% occurred in three patients who had substantial reductions in rectal volume (RV) during treatment. RV relative to the planning CT was moderately correlated with anterior/posterior displacement (r = 0.6) and mean relative RV during treatment was strongly correlated with mean relative RV at CBCT acquired days 1–3 (r = 0.8). Conclusion: Complex and extensive geometric changes occur to the CTVv, which are not accounted for in margin recipes using rigid approximation. Contemporary margin recipes and adaptive treatment planning based on non-rigid approximation are recommended.
url http://www.sciencedirect.com/science/article/pii/S2405631618300678
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