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

IF 1.3 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Biomedical Physics & Engineering Express Pub Date : 2024-11-13 DOI:10.1088/2057-1976/ad8c4a
Reem Ahmad, Jessica Cantwell, Carolina Borrelli, Pei Lim, Derek D'Souza, Mark N Gaze, Syed Moinuddin, Jennifer Gains, Catarina Veiga
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Abstract

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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开发基于特定年龄人群的儿科计算模型,用于基于图像的数据挖掘和其他放疗应用。
目的:计算解剖模型在儿科放射治疗中应用广泛。特定年龄的计算解剖模型历来是为代表普通人和/或健康人而开发的,而癌症患者可能会因疾病和/或治疗效果而出现解剖学变化。我们开发了 RT-PAL,这是一个专门用于代表儿童放疗人群的特定年龄体素化解剖模型计算库。利用分组可变形图像配准技术生成 RT-PAL 模型,对 20 个临床 CT 和轮廓(n = 74,中位年龄 7.7 岁,范围:3-14 岁)子集进行空间归一化和平均化。为了评估其解剖学和年龄依赖性的合理性,RT-PAL 模型与临床癌症患者数据和两个基于健康人群的模型库进行了比较:国际放射防护委员会 (ICRP) 儿科参考计算模型(n = 8,中位年龄 7.5 岁,范围:1-15 岁)和一系列 4D 儿科扩展心脏躯干 (XCAT) 模型(n = 75,中位年龄 9.1 岁,范围:1-18 岁)。对每个数据集的所有年龄模型的 19 个器官进行分割,以确定其体积。通过器官体积与年龄的线性拟合对每组数据进行评估,并与临床数据的线性拟合进行比较。所报告的年龄依赖性与临床数据和其他模型相当,证明了其作为特定年龄模型库的有效性。与临床、ICRP 和 XCAT 器官数据的较大差异可归因于器官填充、分割策略和数据集年龄分布的差异、RT-PAL 生成方法的局限性和/或健康人群与癌症人群之间可能存在的解剖差异。
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来源期刊
Biomedical Physics & Engineering Express
Biomedical Physics & Engineering Express RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.80
自引率
0.00%
发文量
153
期刊介绍: BPEX is an inclusive, international, multidisciplinary journal devoted to publishing new research on any application of physics and/or engineering in medicine and/or biology. Characterized by a broad geographical coverage and a fast-track peer-review process, relevant topics include all aspects of biophysics, medical physics and biomedical engineering. Papers that are almost entirely clinical or biological in their focus are not suitable. The journal has an emphasis on publishing interdisciplinary work and bringing research fields together, encompassing experimental, theoretical and computational work.
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