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基于器官的管电流调制和小儿头颅 CT 中的铋眼部屏蔽。

Organ-based tube current modulation and bismuth eye shielding in pediatric head computed tomography.

机构信息

Department of Radiology and Nuclear Medicine, Children's Hospital of Eastern Switzerland, Claudiusstrasse 6, 9006, St. Gallen, Switzerland.

Department of Radiology and Nuclear Medicine, Cantonal Hospital St. Gallen, St. Gallen, Switzerland.

出版信息

Pediatr Radiol. 2022 Dec;52(13):2584-2594. doi: 10.1007/s00247-022-05410-x. Epub 2022 Jul 15.

DOI:10.1007/s00247-022-05410-x
PMID:35836016
Abstract

BACKGROUND

Exposure of the eye lens to ionizing radiation results in cataract. Several dose optimization techniques to protect the lens are available for computed tomography (CT).

OBJECTIVE

The radiation dose to the eye lens, volume CT dose index (CTDI) and image quality of various methods of dose optimization were evaluated for pediatric head CT: automated tube current modulation (ATCM), automated tube voltage selection (ATVS), organ-based tube current modulation (OBTCM) and bismuth shielding.

MATERIALS AND METHODS

An anthropomorphic phantom of a 5-year-old child was scanned with nine protocols: no dose optimization technique and then adding different dose optimization techniques alone and in combination. Dose to the eye, thyroid and breast were estimated using metal oxide semiconductor field effect transistor (MOSFET) dosimetry. CTDI, influence of timing of shield placement, image noise and attenuation values in 13 regions of interest of the head and subjective image quality were compared.

RESULTS

The eye shield significantly reduced the eye lens dose when used alone, to a similar degree as when using all software-based techniques together. When used in combination with software-based techniques, the shield reduced the eye lens dose by up to 45% compared to the no dose optimization technique. Noise was significantly increased by the shield, most pronounced in the anterior portion of the eye.

CONCLUSION

The combination of ATCM, ATVS, OBTCM and a bismuth shield, with the shield placed after acquiring the localizer image, should be considered to reduce the radiation dose to the eye lens in pediatric head CT.

摘要

背景

眼睛晶状体暴露于电离辐射会导致白内障。有几种剂量优化技术可用于保护晶状体,这些技术可应用于计算机断层扫描(CT)。

目的

评估用于儿科头部 CT 的各种剂量优化方法(自动管电流调制(ATCM)、自动管电压选择(ATVS)、基于器官的管电流调制(OBTCM)和铋屏蔽)对晶状体的辐射剂量、容积 CT 剂量指数(CTDI)和图像质量。

材料与方法

使用一个 5 岁儿童的体模进行了 9 种方案的扫描:没有剂量优化技术,然后单独添加和组合添加不同的剂量优化技术。使用金属氧化物半导体场效应晶体管(MOSFET)剂量计来估计眼部、甲状腺和乳腺的剂量。比较 CTDI、屏蔽放置时间的影响、图像噪声和头部 13 个感兴趣区域的衰减值以及主观图像质量。

结果

当单独使用时,眼部屏蔽显著降低了晶状体的剂量,与同时使用所有基于软件的技术的效果相似。当与基于软件的技术联合使用时,与不使用剂量优化技术相比,屏蔽将晶状体剂量降低了多达 45%。屏蔽显著增加了噪声,在前眼部区域最为明显。

结论

在儿科头部 CT 中,应考虑将 ATCM、ATVS、OBTCM 和铋屏蔽相结合,并在获取定位器图像后放置屏蔽,以降低晶状体的辐射剂量。

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Evaluation of an organ-based tube current modulation tool in pediatric CT examinations.基于器官的管电流调制工具在儿科 CT 检查中的评估。
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