Development of lesion and organ negative cast modelling technique for quality assurance and optimization of nuclear medicine images.

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Communications medicine Pub Date : 2025-07-22 DOI:10.1038/s43856-025-01009-z

Roberto Fedrigo, Robin J N Coope, Guillaume Chaussé, Ingrid Bloise, Claire Gowdy, François Bénard, Arman Rahmim, Carlos F Uribe

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Abstract

Background: Nuclear medicine imaging allows for a wide variety of data acquisition and image generation methods in the clinical setting. Imaging phantoms are routinely used to evaluate and optimize image quality and quantitative accuracy of features, but few phantoms realistically model the anatomy or heterogeneity of target regions within patient images, such as tumours that are commonly observed in oncology. We developed a negative cast modelling (NCM) technique which enables applications such as non-standard shape tumour phantoms, organ phantoms for radiation dosimetry, and quality control phantoms with small lesions.

Methods: Tumour templates were derived from segmented PET images of primary mediastinal B-cell lymphoma (PMBCL) patients. Lesion segmentations were saved and 3D-printed. Negatives were developed using silicone-based molding materials, and final models cast using a composition of liquid plastic, pigment, and PET radiotracer. Images of lesions were acquired using the GE DMI PET/CT scanner, and image features were quantified.

Results: Mean absolute error (MAE) for tumour volume between the original template and casted models is 13.8%, indicating that the method is reasonably accurate. The high viscosity of the liquid plastic used in the casting process establishes non-uniform tumour models, which is very useful in practice for evaluating image features related to heterogeneity. PET images using the NCM method is determined to be highly realistic by an experienced nuclear medicine physician, due to the non-standard shapes that can be established within the tumours.

Conclusions: The NCM method has potential to enable more realistic phantom studies within nuclear medicine imaging. The cost for the lymphoma tumour phantom study is less than $400 USD, making it feasible for large-scale studies.

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核医学图像质量保证和优化的病变和器官负模建模技术的发展。

背景：核医学成像允许临床环境中各种各样的数据采集和图像生成方法。成像幻影通常用于评估和优化图像质量和特征的定量准确性，但很少有幻影能够真实地模拟患者图像中目标区域的解剖结构或异质性，例如肿瘤学中常见的肿瘤。我们开发了一种负铸模（NCM）技术，该技术可以应用于非标准形状的肿瘤模型、用于辐射剂量测定的器官模型和具有小病变的质量控制模型。方法：肿瘤模板来源于原发性纵隔b细胞淋巴瘤（PMBCL）患者的分段PET图像。保存病变切片并3d打印。底片是用硅基成型材料开发的，最终模型是用液体塑料、颜料和PET放射性示踪剂的组合物铸造的。使用GE DMI PET/CT扫描仪获取病变图像，并对图像特征进行量化。结果：原始模板与铸造模型的肿瘤体积平均绝对误差（MAE）为13.8%，表明该方法具有一定的准确性。在铸造过程中使用的液体塑料的高粘度建立了非均匀的肿瘤模型，这对于评估与非均匀性相关的图像特征在实践中非常有用。由于可以在肿瘤内建立非标准形状，因此经验丰富的核医学医生认为使用NCM方法的PET图像高度逼真。结论：NCM方法有潜力在核医学成像中实现更真实的幻像研究。淋巴瘤肿瘤幻影研究的成本低于400美元，这使得大规模研究成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications medicine

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