2013
DOI: 10.1088/0031-9155/58/8/2581
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Voxel-based population analysis for correlating local dose and rectal toxicity in prostate cancer radiotherapy

Abstract: The majority of current models utilized for predicting toxicity in prostate cancer radiotherapy are based on dose-volume histograms. One of their main drawbacks is the lack of spatial accuracy, since they consider the organs as a whole volume and thus ignore the heterogeneous intra-organ radio-sensitivity. In this paper, we propose a dose-image-based framework to reveal the relationships between local dose and toxicity. In this approach, the three-dimensional (3D) planned dose distributions across a population… Show more

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Cited by 66 publications
(93 citation statements)
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“…2, the median overlap is 80.4 % for alignment of EBRT/registered HDR rectum structure volumes. A general structure overlap of 70 % is considered to be the starting point for satisfactory structure-correspondence in the radiotherapy context [22,23]. The registrations have also previously been extensively evaluated using structure-correspondence metrics, image similarity metrics and qualitative visual inspection by authors (initials CRM, VL and CIT) [21].…”
Section: Registration Processmentioning
confidence: 99%
See 1 more Smart Citation
“…2, the median overlap is 80.4 % for alignment of EBRT/registered HDR rectum structure volumes. A general structure overlap of 70 % is considered to be the starting point for satisfactory structure-correspondence in the radiotherapy context [22,23]. The registrations have also previously been extensively evaluated using structure-correspondence metrics, image similarity metrics and qualitative visual inspection by authors (initials CRM, VL and CIT) [21].…”
Section: Registration Processmentioning
confidence: 99%
“…When considering the distribution-adding findings in isolation it should be noted that errors in contouring and registration accuracy will confound the distributionadding parameters that have been correlated with toxicity. A median overlap of 80.4 % for the rectum volume correspondence across all patients would indicate the registrations are satisfactory as a general structure overlap of 70 % is considered to be the starting point for satisfactory structure-correspondence in the radiotherapy context [22,23]. The proximity of the HDR rectum to the HDR catheters makes parameters obtained by registration and distribution-adding sensitive to small localised variations in contouring and/or registration accuracy across the prostate/rectum interface.…”
Section: Toxicity Is Also Influenced By Low Doses and The Lower End Omentioning
confidence: 99%
“…Recently, 2-dimensional or 3-dimensional (3D) dose distribution based methods, collectively referred to as voxel-based (VB) methods, which evaluate dose–response relationships and overcome the organ-based philosophy of NTCP modeling, have been proposed as alternative approaches to predict urinary (2), gastrointestinal (3), or rectal toxicity (4) after radiation therapy for prostate cancer.…”
Section: Introductionmentioning
confidence: 99%
“…Mathematical models have been developed in recent years with the aim of using dosimetric data to estimate a complication probability: the NTCP models (Normal Tissue Complication Probability). Research on parameters to optimize the NTCP models (physical imaging, dosimetry, clinical) are a major challenge to improve knowledge on the relationship between a received dose and toxicity to healthy tissue [37,38]. In addition, the enrichment with biological data of these models is fundamental to improve risk prediction.…”
Section: Introductionmentioning
confidence: 99%