Paediatric radiotherapy in the United Kingdom: an evolving subspecialty and a paradigm for integrated teamworking in oncology

Colori, Amy; Ackwerh, Raymond; Chang, Yen-Ch’ing; Cody, Kristy; Dunlea, Cathy; Gains, Jennifer E; Gaunt, Trevor; Gillies, Callum M S; Hardy, Claire; Lalli, Narinder; Lim, Pei S; Soto, Carmen; Gaze, Mark N

doi:10.1093/bjr/tqad028

British Journal of Radiology

2023

DOI: 10.1093/bjr/tqad028

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Paediatric radiotherapy in the United Kingdom: an evolving subspecialty and a paradigm for integrated teamworking in oncology

Amy Colori,

Raymond Ackwerh,

Yen-Ch’ing Chang

et al.

Abstract: Many different malignancies occur in children, but overall, cancer in childhood is rare. Survival rates have improved appreciably and are higher compared with most adult tumour types. Treatment schedules evolve as a result of clinical trials and are typically complex and multi-modality, with radiotherapy an integral component of many. Risk stratification in paediatric oncology is increasingly refined, resulting in a more personalized use of radiation. Every available modality of radiation delivery: simple and … Show more

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2024

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Development of age-specific population-based paediatric computational phantoms for image-based data mining and other radiotherapy applications

Ahmad,

Cantwell,

Borrelli

et al. 2024

Biomed. Phys. Eng. Express

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Objective. Computational anatomical models have many applications in paediatric radiotherapy. Age-specific computational anatomical models were historically developed to represent average and/or healthy individuals, where cancer patients may present with anatomical variations caused by the disease and/or treatment effects. We developed RT-PAL, a library of computational age-specific voxelized anatomical models tailored to represent the paediatric radiotherapy population. Approach. Data from patients undergoing craniospinal irradiation (CSI) were used (n = 74, median age 7.3y, range: 1–17y). The RT-PAL phantoms were generated using groupwise deformable image registration to spatially normalize and average a sub-set of twenty clinical CTs and contours (n = 74, median age 7.7y, range: 3–14 y). To assess their anatomical and age-dependency plausibility, the RT-PAL models were compared against clinical cancer patient data and two healthy population based libraries of phantoms: the International Commission on Radiological Protection (ICRP) pediatric reference computational phantoms (n = 8, median age 7.5y, range: 1–15y) and a range of 4D paediatric extended cardiac torso (XCAT) phantoms (n = 75, median age 9.1y, range: 1–18y). For each dataset, nineteen organs were segmented on all age models to determine their volume. Each set was evaluated through a linear fit of organ volume with age, where comparisons were made relative to the linear fit of the clinical data. Main Results. Overall good anatomical plausibility was found for the RT-PAL phantoms. The age-dependency reported was comparable to both the clinical data and other phantoms, demonstrating their efficacy as a library of age-specific phantoms. Larger discrepancies with the clinical, ICRP and XCAT organ data were attributable to differences in organ filling, segmentation strategy and age distribution of the datasets, limitations of RT-PAL generation methodology, and/or possible anatomical differences between healthy and cancer populations. Significance. The RT-PAL models showed potential in representing the paediatric radiotherapy cohort, who are most likely to benefit from dedicated, age-specific anatomical phantoms.

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Development of age-specific population-based paediatric computational phantoms for image-based data mining and other radiotherapy applications

Ahmad,

Cantwell,

Borrelli

et al. 2024

Biomed. Phys. Eng. Express

View full text Add to dashboard Cite

show abstract

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Paediatric radiotherapy in the United Kingdom: an evolving subspecialty and a paradigm for integrated teamworking in oncology

Cited by 1 publication

References 59 publications

Development of age-specific population-based paediatric computational phantoms for image-based data mining and other radiotherapy applications

Development of age-specific population-based paediatric computational phantoms for image-based data mining and other radiotherapy applications

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