采用器官剂量测量和剂量长度乘积法估算并比较标准胸部 CT 的有效剂量（E），并评估在双源 CT 中 CT 管电压（能量依赖性）对有效剂量的影响。

Estimation and comparison of effective dose (E) in standard chest CT by organ dose measurements and dose-length-product methods and assessment of the influence of CT tube potential (energy dependency) on effective dose in a dual-source CT.

机构信息

Department of Diagnostic Radiology, Goethe University-Frankfurt am Main, Theodor-Stern-Kai 7, 60590 Frankfurt am Main, Germany.

出版信息

Eur J Radiol. 2012 Apr;81(4):e507-12. doi: 10.1016/j.ejrad.2011.06.006. Epub 2011 Jun 23.

DOI:10.1016/j.ejrad.2011.06.006

PMID:21703793

Abstract

PURPOSE

To determine effective dose (E) during standard chest CT using an organ dose-based and a dose-length-product-based (DLP) approach for four different scan protocols including high-pitch and dual-energy in a dual-source CT scanner of the second generation.

MATERIALS AND METHODS

Organ doses were measured with thermo luminescence dosimeters (TLD) in an anthropomorphic male adult phantom. Further, DLP-based dose estimates were performed by using the standard 0.014mSv/mGycm conversion coefficient k. Examinations were performed on a dual-source CT system (Somatom Definition Flash, Siemens). Four scan protocols were investigated: (1) single-source 120kV, (2) single-source 100kV, (3) high-pitch 120kV, and (4) dual-energy with 100/Sn140kV with equivalent CTDIvol and no automated tube current modulation. E was then determined following recommendations of ICRP publication 103 and 60 and specific k values were derived.

RESULTS

DLP-based estimates differed by 4.5-16.56% and 5.2-15.8% relatively to ICRP 60 and 103, respectively. The derived k factors calculated from TLD measurements were 0.0148, 0.015, 0.0166, and 0.0148 for protocol 1, 2, 3 and 4, respectively. Effective dose estimations by ICRP 103 and 60 for single-energy and dual-energy protocols show a difference of less than 0.04mSv.

CONCLUSION

Estimates of E based on DLP work equally well for single-energy, high-pitch and dual-energy CT examinations. The tube potential definitely affects effective dose in a substantial way. Effective dose estimations by ICRP 103 and 60 for both single-energy and dual-energy examinations differ not more than 0.04mSv.

摘要

目的

在第二代双源 CT 扫描仪上，使用基于器官剂量和剂量长度乘积（DLP）的方法，针对包括高分辨率和双能在内的四种不同扫描方案，确定标准胸部 CT 的有效剂量（E）。

材料与方法

使用热释光剂量计（TLD）在人体男性成年模型中测量器官剂量。此外，还通过使用标准的 0.014mSv/mGycm 转换系数 k 进行基于 DLP 的剂量估算。检查在双源 CT 系统（Somatom Definition Flash，西门子）上进行。研究了四种扫描方案：（1）单源 120kV，（2）单源 100kV，（3）高分辨率 120kV，以及（4）具有 100/Sn140kV 等效 CTDIvol 且无自动管电流调制的双能。然后根据 ICRP 出版物 103 和 60 的建议确定 E，并得出特定的 k 值。

结果

基于 DLP 的估算值与 ICRP 60 和 103 相比分别相差 4.5-16.56%和 5.2-15.8%。从 TLD 测量得出的 k 因子分别为方案 1、2、3 和 4 的 0.0148、0.015、0.0166 和 0.0148。根据 ICRP 103 和 60 对单能和双能方案的有效剂量估算显示，差异小于 0.04mSv。

结论

基于 DLP 的 E 估算对单能、高分辨率和双能 CT 检查同样有效。管电压确实会对有效剂量产生实质性的影响。根据 ICRP 103 和 60 对单能和双能检查的有效剂量估算差异不超过 0.04mSv。

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采用器官剂量测量和剂量长度乘积法估算并比较标准胸部 CT 的有效剂量（E），并评估在双源 CT 中 CT 管电压（能量依赖性）对有效剂量的影响。

Estimation and comparison of effective dose (E) in standard chest CT by organ dose measurements and dose-length-product methods and assessment of the influence of CT tube potential (energy dependency) on effective dose in a dual-source CT.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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