Image Quality and Radiation Exposure in Abdominal Angiography: A Head-to-Head Comparison of Conventional Detector-Dose-Driven Versus Contrast-to-Noise Ratio-Driven Exposure Control at Various Source-to-Image Receptor Distances and Collimations in a Pilot Phantom and Animal Study.

IF 7 1区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-10-01 Epub Date: 2024-03-27 DOI:10.1097/RLI.0000000000001079

Thomas Werncke, Lena S Becker, Sabine K Maschke, Jan B Hinrichs, Timo C H Meine, Cornelia L A Dewald, Inga Brüsch, Regina Rumpel, Frank K Wacker, Bernhard C Meyer

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Abstract

Objectives: This phantom and animal pilot study aimed to compare image quality and radiation exposure between detector-dose-driven exposure control (DEC) and contrast-to-noise ratio (CNR)-driven exposure control (CEC) as functions of source-to-image receptor distance (SID) and collimation.

Materials and methods: First, an iron foil simulated a guide wire in a stack of polymethyl methacrylate and aluminum plates representing patient thicknesses of 15, 25, and 35 cm. Fluoroscopic images were acquired using 5 SIDs ranging from 100 to 130 cm and 2 collimations (full field of view, collimated field of view: 6 × 6 cm). The iron foil CNRs were calculated, and radiation doses in terms of air kerma rate were obtained and assessed using a multivariate regression. Second, 5 angiographic scenarios were created in 2 anesthetized pigs. Fluoroscopic images were acquired at 2 SIDs (110 and 130 cm) and both collimations. Two blinded experienced readers compared image quality to the reference image using full field of view at an SID of 110 cm. Air kerma rate was obtained and compared using t tests.

Results: Using DEC, both CNR and air kerma rate increased significantly at longer SID and collimation below the air kerma rate limit. When using CEC, CNR was significantly less dependent of SID, collimation, and patient thickness. Air kerma rate decreased at longer SID and tighter collimation. After reaching the air kerma rate limit, CEC behaved similarly to DEC. In the animal study using DEC, image quality and air kerma rate increased with longer SID and collimation ( P < 0.005). Using CEC, image quality was not significantly different than using longer SID or tighter collimation. Air kerma rate was not significantly different at longer SID but lower using collimation ( P = 0.012).

Conclusions: CEC maintains the image quality with varying SID and collimation stricter than DEC, does not increase the air kerma rate at longer SID and reduces it with tighter collimation. After reaching the air kerma rate limit, CEC and DEC perform similarly.

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腹部血管造影的图像质量和辐射暴露：在试验模型和动物研究中，在不同光源到图像受体距离和准直度下，传统探测器剂量驱动与对比度-噪声比驱动曝光控制的头对头比较。

研究目的这项模型和动物试验研究旨在比较探测器剂量驱动的曝光控制（DEC）和对比度-噪声比（CNR）驱动的曝光控制（CEC）之间的图像质量和辐射暴露，作为源到图像受体距离（SID）和准直的函数：首先，在代表患者厚度为 15、25 和 35 厘米的聚甲基丙烯酸甲酯和铝板堆中，用铁箔模拟导丝。使用 100 厘米至 130 厘米的 5 个 SID 和 2 种准直方式（全视场、准直视场：6 × 6 厘米）采集透视图像。计算了铁箔 CNR，获得了以空气瘢痕率表示的辐射剂量，并使用多元回归法进行了评估。其次，在 2 头麻醉猪身上创建了 5 个血管造影场景。以两种 SID（110 厘米和 130 厘米）和两种准直度获取透视图像。两名经验丰富的盲人阅读者将图像质量与 SID 为 110 厘米的全视野参考图像进行比较。结果显示，使用 DEC 时，CNR 和 Air Kerma 率均有所提高：结果：使用 DEC 时，在较长的 SID 和准直度低于空气柯玛率限制时，CNR 和空气柯玛率都显著增加。使用 CEC 时，CNR 对 SID、准直度和患者厚度的依赖性明显降低。SID 越长、准直度越紧时，空气erma 率越低。在达到空气热玛率极限后，CEC 的表现与 DEC 相似。在使用 DEC 进行的动物实验中，图像质量和空气割波率随着 SID 和准直度的延长而增加（P < 0.005）。使用 CEC 时，图像质量与使用更长的 SID 或更严格的准直没有明显差异。使用较长的 SID 时，空气 kerma 率没有明显差异，但使用准直度较低（P = 0.012）：结论：与 DEC 相比，CEC 可在不同 SID 和更严格准直条件下保持图像质量，在较长的 SID 条件下不会增加空气瘢痕率，而在更严格准直条件下会降低空气瘢痕率。在达到空气热玛率极限后，CEC 和 DEC 的表现相似。

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来源期刊

Investigative Radiology 医学-核医学

CiteScore

15.10

自引率

16.40%

发文量

188

审稿时长

4-8 weeks

期刊介绍： Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.