Bellizzi A, Bezzina P, Zarb F
Department of Radiography, Faculty of Health Sciences, University of Malta, Msida, Malta.
Radiography (Lond). 2023 Mar;29(2):313-318. doi: 10.1016/j.radi.2022.11.011. Epub 2023 Jan 21.
This study aims to optimise the current CTPA protocol at a public general hospital in Malta using lower kV combined with high Iterative Reconstruction (IR) (>50%).
The research consisted of a 2-phase anthropomorphic phantom study. Phase 1: radiation dose evaluation of 6 experimental protocols consisting of the low kV technique and high IR values and comparison with the current protocol. Phase 2: image evaluation. Objective image quality was evaluated in terms of contrast to noise ratio (CNR) and signal to noise ratio (SNR). Subjective image quality evaluation was performed by 3 radiologists undertaking Absolute Visual Grading Analysis (VGA). Resultant image quality scores were analysed using Visual Grading Characteristics (VGC).
All experimental protocols achieved significant (p < 0.05) dose reductions. SNR and CNR improved in almost all protocols, however, differences were not significant (p > 0.05). In subjective image quality analysis, the current protocol provided significant superior image quality (AUC > 0.5; p < 0.05) when compared to the experimental protocols consisting of 80 kV with 70%, 80%, 90% and 100% IR. The only two experimental protocols yielding comparable image quality to the current protocol were 80 kV with 50% IR (AUC: 0.195; p: 0.137) and 80 kV with 60% IR (AUC: 0.554; p: 0.624). The protocol yielding the greatest decrease in radiation dose being 80 kV with 60% IR.
The optimal IR value was 60%. When applying the optimal experimental protocol (80 kV combined with 60% IR), a significant dose reduction was achieved while maintaining diagnostic image quality.
The low kV technique combined with high IR parameter is easily implemented and involves no additional cost and equipment.
本研究旨在通过使用较低千伏并结合高迭代重建(IR)(>50%)来优化马耳他一家公立综合医院当前的CTPA方案。
该研究包括一项两阶段的仿真人体模型研究。第一阶段:对由低千伏技术和高IR值组成的6种实验方案进行辐射剂量评估,并与当前方案进行比较。第二阶段:图像评估。客观图像质量通过对比噪声比(CNR)和信噪比(SNR)进行评估。主观图像质量评估由3名放射科医生进行绝对视觉分级分析(VGA)。使用视觉分级特征(VGC)对所得图像质量分数进行分析。
所有实验方案均实现了显著(p < 0.05)的剂量降低。几乎所有方案的SNR和CNR都有所改善,然而,差异不显著(p > 0.05)。在主观图像质量分析中,与由80 kV结合70%、80%、90%和100% IR组成的实验方案相比,当前方案提供了显著更高的图像质量(AUC > 0.5;p < 0.05)。仅有的两种产生与当前方案相当图像质量的实验方案是80 kV结合50% IR(AUC:0.195;p:0.137)和80 kV结合60% IR(AUC:0.554;p:0.624)。辐射剂量降低最大的方案是80 kV结合60% IR。
最佳IR值为60%。应用最佳实验方案(80 kV结合60% IR)时,在保持诊断图像质量的同时实现了显著的剂量降低。
低千伏技术结合高IR参数易于实施,且无需额外成本和设备。
