Interobserver variation in cervical cancer tumor delineation for image‐based radiotherapy planning among and within different specialties

Wu, Dee; Mayr, Nina A.; Karatas, Yasemin; Karatas, Rifat; Adlı, Mustafa; Edwards, Susan M.; Wolff, James D.; Movahed, A; Montebello, Joseph F.; Yuh, William T. C.

doi:10.1120/jacmp.v6i4.2117

Cited by 15 publications

(6 citation statements)

References 2 publications

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“…found that collaborative tumour delineation in lung cancer changed contouring in 19/20 cases. Some authors have suggested training with or close collaboration with a radiologist when contouring . The use of multimodality imaging is becoming standard in radiation oncology and attention must be paid to both image registration and interpretation.…”

Section: Discussionmentioning

confidence: 99%

A review of interventions to reduce inter‐observer variability in volume delineation in radiation oncology

et al. 2016

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Section: Discussionmentioning

confidence: 99%

A review of interventions to reduce inter‐observer variability in volume delineation in radiation oncology

et al. 2016

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“…First, delineation was conducted by a single radiation oncologist on the MR images with fixed imaging protocols. As several investigators indicated, 24 , 25 these factors may cause the results to change. Second, the margins and coverage were calculated based on the same patient group.…”

Section: Discussionmentioning

confidence: 99%

Three‐dimensional assessment of interfractional cervical and uterine motions using daily magnetic resonance images to determine margins and timing of replanning

Kishigami

Nakamura

Nakao

et al. 2023

J Applied Clin Med Phys

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PurposeThis study was conducted to determine the margins and timing of replanning by assessing the daily interfractional cervical and uterine motions using magnetic resonance (MR) images.MethodsEleven patients with cervical cancer, who underwent intensity‐modulated radiotherapy (IMRT) in 23–25 fractions, were considered in this study. The daily and reference MR images were converted into three‐dimensional (3D) shape models. Patient‐specific anisotropic margins were calculated from the proximal 95% of vertices located outside the surface of the reference model. Population‐based margins were defined as the 90th percentile values of the patient‐specific margins. The expanded volume of interest (expVOI) for the cervix and uterus was generated by expanding the reference model based on the population‐based margin to calculate the coverage for daily deformable mesh models. For comparison, expVOIconv was generated using conventional margins: right (R), left (L), anterior (A), posterior (P), superior (S), and inferior (I) were (5, 5, 15, 15, 10, 10) and (10, 10, 20, 20, 15, 15) mm for the cervix and uterus, respectively. Subsequently, a replanning scenario was developed based on the cervical volume change. ExpVOIini and expVOIreplan were generated before and after replanning, respectively.ResultsPopulation‐based margins were (R, L, A, P, S, I) of (7, 7, 11, 6, 11, 8) and (14, 13, 27, 19, 15, 21) mm for the cervix and uterus, respectively. The timing of replanning was found to be the 16th fraction, and the volume of expVOIreplan decreased by >30% compared to that of expVOIini. However, margins cannot be reduced to ensure equivalent coverage after replanning.ConclusionWe determined the margins and timing of replanning through detailed daily analysis. The margins of the cervix were smaller than conventional margins in some directions, while the margins of the uterus were larger in almost all directions. A margin equivalent to that at the initial planning was required for replanning.

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“…In MR-GTV, the uncertainties include the following: partial voluming by parametrial fat, extension of the tumor into parametrial space, similar signal intensity of structures proximal to the tumor, susceptibility artifacts from bowels and vaginal tampons, as well as presence of atypical myoma. 29 The present study attempted to minimize these ambiguities by consulting an experienced radiologist and a radiation oncologist to determine the MR-GTV. All images were reviewed with knowledge of the patient's clinical history and results of previous imaging studies at the time of localization, thus minimizing MR-GTV measurement errors.…”

Section: Discussionmentioning

confidence: 99%

Comparison of Tumor Volume Between PET and MRI in Cervical Cancer With Hybrid PET/MR

Zhang¹,

Xin²,

Guo

et al. 2014

Int J Gynecol Cancer

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Interobserver variation in cervical cancer tumor delineation for image‐based radiotherapy planning among and within different specialties

Cited by 15 publications

References 2 publications

A review of interventions to reduce inter‐observer variability in volume delineation in radiation oncology

A review of interventions to reduce inter‐observer variability in volume delineation in radiation oncology

Three‐dimensional assessment of interfractional cervical and uterine motions using daily magnetic resonance images to determine margins and timing of replanning

Comparison of Tumor Volume Between PET and MRI in Cervical Cancer With Hybrid PET/MR

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