90 Y TARE计划中的蒙特卡罗剂量学:模拟参数和图像重采样对剂量学精度和计算时间优化的影响

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES

Atti Accademia Peloritana dei Pericolanti-Classe di Scienze Fisiche Matematiche e Naturali Pub Date : 2021-11-14 DOI:10.1478/AAPP.992A4

D. Pistone, A. Italiano, L. Auditore, E. Amato, A. Campenní, S. Baldari

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引用次数: 3

摘要

直接蒙特卡罗(MC)模拟被认为是核医学内剂量测定的金标准方法，它越来越多地用于肝细胞癌(HCC){和肝转移}的经动脉放射栓塞(TARE)计划。然而，与其他简化方法相比，它的计算时间更长，这是一个限制因素，特别是在处理{大尺寸和精细离散的体素化体积}时。这项工作的目的是研究切割对二次粒子产生的影响，以及输入CT图像重采样对90个y标记玻璃微球TARE治疗的患者特定体素级MC模拟中剂量学精度和计算时间的影响，以找到加速此类模拟的最佳设置组合。使用GATE GEANT4接口进行模拟，使用CT和99m Tc SPECT作为输入数据，检查多个CT分辨率(通过CT重采样，其体素体积因子为2、8和64，相对于原生分辨率，CT重采样具有SPECT分辨率)和生产切割(0.01 mm、0.05 mm、0.1 mm、0.5 mm和更多，具体为每次重采样)。作为这两个参数的函数，增加切割长度和降低CT分辨率会导致模拟时间早期快速下降，随后缓慢下降。相对于参考模拟时间减少了30%，同时保持了可接受的剂量学精度。在被检查的设置中，最佳组合选择了8倍于原始体素体积和0.1-0.5 mm切割的CT重采样，确保肝脏相关voi的剂量一致性在1%以内，同时将模拟时间减少到45%。

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GATE Monte Carlo dosimetry in 90 Y TARE planning: influence of simulation parameters and image resampling on dosimetric accuracy and optimization of computational times

Direct Monte Carlo (MC) simulation is considered the gold standard approach for internal dosimetry in nuclear medicine, and it is increasingly used in planning Trans-Arterial Radio-Embolization (TARE) of HepatoCellular Carcinoma (HCC) {and hepatic metastases}. However its computational times, longer with respect to other simplified approaches, constitute a limiting factor, especially when dealing with {large size and finely discretized voxelized volumes}. Aim of this work was the investigation of the influence of cuts on the production of secondary particles and of input CT images resamplings on dosimetric accuracy and computational time in patient-specific voxel-level MC simulations of 90 Y-labelled glass microspheres TARE treatment, to find optimal combinations of settings for speeding up such simulations. GATE GEANT4 interface was used to perform simulations employing CT and 99m Tc SPECT as input data, examining multiple CT resolutions (via CT resamplings characterized by voxel volume factors 2, 8, and 64 with respect to native one, and a CT resampling with SPECT resolution) and production cuts (0.01 mm, 0.05 mm, 0.1 mm, 0.5 mm and some more, specific for each resampling). Increasing cut length and reducing CT resolution produces an early rapid decrease followed by a late slow decrease of simulation time as a function of this two parameters. A reduction up to 30% with respect to reference simulation time, while preserving acceptable dosimetric accuracy, was obtained. The best combination of settings among the examined ones resulted the choice of CT resampling with 8 times the native voxel volume and of 0.1-0.5 mm cut, ensuring dosimetric agreement within 1% in liver-related VOIs, while reducing simulation time to 45%.

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来源期刊

Atti Accademia Peloritana dei Pericolanti-Classe di Scienze Fisiche Matematiche e Naturali MULTIDISCIPLINARY SCIENCES-

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

31 weeks

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