双源 CT 冠状动脉血管造影的剂量降低。第二部分。在体模中，由于前瞻性管电流调制的斜率上升和斜率下降导致的剂量过剩。

Dose reduction in spiral CT coronary angiography with dual source equipment. Part II. Dose surplus due to slope-up and slope-down of prospective tube current modulation in a phantom model.

机构信息

Dipartimento di Radiologia e Cardiologia, Azienda Ospedaliero-Universitaria, Parma, Italy.

出版信息

Radiol Med. 2010 Feb;115(1):36-50. doi: 10.1007/s11547-010-0483-6.

DOI:10.1007/s11547-010-0483-6

PMID:20058093

Abstract

PURPOSE

This study was undertaken to estimate surplus radiation dose in retrospectively electrocardiography (ECG)-gated dual-source computed tomography coronary angiography (DSCT-CA) due to the slope-up and slope-down of the tube current using prospectively ECG-triggered tube modulation.

MATERIALS AND METHODS

We used an anthropomorphic phantom with an ECG-gated retrospective protocol and a DSCT scanner (Definition, Siemens). We used four tube current modulation algorithms: narrow pulsing window, with tube current reduction to 20% (A) and 4% (B) of peak current; and wide pulsing window, with tube current reduction to 20% (C) and 4% (D). Each algorithm was applied at five heart rates (HR=45, 60, 75, 90 and 120 bpm) with adaptive pitch values (0.2-0.5). Data sets were reconstructed in 5% increments from 0-95% of the R-R interval. Noise was measured at each R-R step in order to identify low noise (100% dose), medium noise (slope-up/down) and high noise (4/20% dose). Width of the transition window (slope-up/slope-down from 4/20% to 100% dose) was calculated. The surplus dose due to slope-up/slope-down was calculated.

RESULTS

Surplus dose was 19% (A), 34% (B), 14% (C) and 21% (D). The transition window lasted 10%+10% (slope-up + down) for HR <75 bpm and all HR in C (except for 120 bpm; 25%+15%), 15%+15% for HR >90 bpm (A). For C and D, instead, the slope-up increased with progressively higher HR (10%-25% of the R-R interval, except for 90 bpm, 10%), whereas the slope-down remained constant at 5% (except for 120 bpm; 10%).

CONCLUSIONS

The adaptive ECG-pulsing windows produced an increment of the surplus dose with increasing HR. The transition window was a constant source of surplus radiation dose in the range of 14%-34%.

摘要

目的

本研究旨在评估因前瞻性心电图（ECG）触发管调制而使用斜率上升和斜率下降的管电流对 retrospectively ECG-gated 双源计算机断层冠状动脉造影（DSCT-CA）的额外辐射剂量。

材料和方法

我们使用带有 ECG-gated 回顾性协议的人体模型和 DSCT 扫描仪（Definition，Siemens）。我们使用了四种管电流调制算法：窄脉冲窗口，管电流降低至峰值电流的 20%（A）和 4%（B）；宽脉冲窗口，管电流降低至峰值电流的 20%（C）和 4%（D）。每个算法在五个心率（HR=45、60、75、90 和 120 bpm）和自适应螺距值（0.2-0.5）下应用。数据集以 5%的增量从 RR 间隔的 0-95%重建。为了确定低噪声（100%剂量）、中噪声（斜率上升/下降）和高噪声（4/20%剂量），在每个 RR 步骤测量噪声。计算从 4/20%到 100%剂量的斜率上升/下降的过渡窗宽度。计算由于斜率上升/下降而导致的额外剂量。

结果

额外剂量为 19%（A）、34%（B）、14%（C）和 21%（D）。对于 HR <75 bpm 的过渡窗持续时间为 10%+10%（斜率上升+下降），对于 C 则持续所有 HR（除了 120 bpm；25%+15%），对于 HR >90 bpm（A）为 15%+15%。对于 C 和 D，相反，斜率上升随着 HR 的逐渐升高而增加（RR 间隔的 10%-25%，除了 90 bpm，为 10%），而斜率下降保持在 5%（除了 120 bpm；10%）。

结论

自适应 ECG 脉冲窗口随着 HR 的增加导致额外剂量增加。过渡窗是 14%-34%范围内额外辐射剂量的恒定来源。

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双源 CT 冠状动脉血管造影的剂量降低。第二部分。在体模中，由于前瞻性管电流调制的斜率上升和斜率下降导致的剂量过剩。

Dose reduction in spiral CT coronary angiography with dual source equipment. Part II. Dose surplus due to slope-up and slope-down of prospective tube current modulation in a phantom model.

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料和方法

结果

结论

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