Hepatopulmonary Shunt Ratio Verification Model for Transarterial Radioembolization.

IF 1.5 4区 医学 Q3 PHARMACOLOGY & PHARMACY Current radiopharmaceuticals Pub Date : 2024-01-01 DOI:10.2174/0118744710284130240108053733
Nami Yeyin, Fahrettin Fatih Kesmezacar, Duygu Tunçman, Özge Demir, Lebriz Uslu-Beşli, Osman Günay, Mustafa Demir
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Abstract

Introduction: The most important toxicity of transarterial radioembolization therapy applied in liver malignancies is radiation pneumonitis and fibrosis due to hepatopulmonary shunt of Yttrium-90 (90Y) microspheres. Currently, Technetium-99m macroaggregated albumin (99mTc-MAA) scintigraphic images are used to estimate lung shunt fraction (LSF) before treatment. The aim of this study was to create a phantom to calculate exact LFS rates according to 99mTc activities in the phantom and to compare these rates with LSF values calculated from scintigraphic images.

Materials and methods: A 3D-printed lung and liver phantom containing two liver tumors was developed from Polylactic Acid (PLA) material, which is similar to the normal-sized human body in terms of texture and density. Actual %LSFs were calculated by filling phantoms and tumors with 99mTc radionuclide. After the phantoms were placed in the water tank made of plexiglass material, planar, SPECT, and SPECT/CT images were obtained. The actual LSF ratio calculated from the activity amounts filled into the phantom was used for the verification of the quantification of scintigraphic images and the results obtained by the Simplicity90YTM method.

Results: In our experimental model, LSFs calculated from 99mTc activities filled into the lungs, normal liver, small tumor, and large tumor were found to be 0%, 6.2%, 10.8%, and 16.9%. According to these actual LSF values, LSF values were calculated from planar, SPECT/CT (without attenuation correction), and SPECT/CT (with both attenuation and scatter correction) scintigraphic images of the phantom. In each scintigraphy, doses were calculated for lung, small tumor, large tumor, normal liver, and Simplicity90YTM. The doses calculated from planar and SPECT/CT (NoAC+NoSC) images were found to be higher than the actual doses. The doses calculated from SPECT/CT (with AC+with SC) images and Simplicity90YTM were found to be closer to the real dose values.

Conclusion: LSF is critical in dosimetry calculations of 90Y microsphere therapy. The newly introduced hepatopulmonary shunt phantom in this study is suitable for LSF verification for all models/brands of SPECT and SPECT/CT devices.

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经动脉放射栓塞术的肝肺分流比验证模型
导言:肝脏恶性肿瘤经动脉放射栓塞疗法最主要的毒性是钇-90(90Y)微球的肝肺分流导致的放射性肺炎和纤维化。目前,锝-99m大聚合白蛋白(99mTc-MAA)闪烁扫描图像用于在治疗前估算肺分流分数(LSF)。本研究的目的是创建一个模型,根据模型中的 99mTc 活性计算精确的肺分流率,并将这些比率与闪烁扫描图像计算出的 LSF 值进行比较:用聚乳酸(PLA)材料制作了一个包含两个肝脏肿瘤的三维打印肺和肝脏模型,该材料的质地和密度与正常大小的人体相似。通过在模型和肿瘤中填充 99mTc 放射性核素,计算出实际的 LSF 百分比。将模型放入有机玻璃材料制成的水箱后,获得平面、SPECT 和 SPECT/CT 图像。根据注入模型的放射性活度计算出的实际 LSF 比率用于验证闪烁成像的量化结果和 Simplicit 90YTM 方法得出的结果:在我们的实验模型中,根据填充到肺部、正常肝脏、小肿瘤和大肿瘤中的 99mTc 活动量计算出的 LSF 分别为 0%、6.2%、10.8% 和 16.9%。根据这些实际 LSF 值,计算了模型的平面、SPECT/CT(无衰减校正)和 SPECT/CT(有衰减和散射校正)闪烁图像的 LSF 值。在每种闪烁扫描中,都计算了肺、小肿瘤、大肿瘤、正常肝脏和 Simplicit 90YTM 的剂量。根据平面图像和 SPECT/CT(NoAC+NoSC)图像计算出的剂量高于实际剂量。根据 SPECT/CT(有 AC+有 SC)图像和 Simplicit 90YTM 计算出的剂量更接近实际剂量值:结论:LSF 对 90Y 微球疗法的剂量学计算至关重要。本研究中新引入的肝肺分流模型适用于所有型号/品牌的 SPECT 和 SPECT/CT 设备的 LSF 验证。
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来源期刊
Current radiopharmaceuticals
Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-
CiteScore
3.20
自引率
4.30%
发文量
43
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