Investigation of patient radiation exposure reduction through optimization of imaging conditions for stent enhancement processing in percutaneous coronary intervention: a retrospective study.

IF 1.5 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Radiological Physics and Technology Pub Date : 2025-06-01 Epub Date: 2025-05-10 DOI:10.1007/s12194-025-00915-0

Kazuya Mori, Toru Negishi, Kouhei Makabe, Kazuhisa Matsukura

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Abstract

Several percutaneous coronary intervention (PCI) support technologies have been developed to improve procedural outcomes. We retrospectively investigated whether a real-time stent enhancement processing system (Stent View; SV) can effectively reduce radiation dose during PCI. The control group comprised individuals subjected to PCI using SV under standard imaging conditions, whereas the evaluation group included those subjected to PCI using SV under reduced dose (68% of the standard dose). We evaluated the balloon marker detection accuracy of SV ( ${SV}_{accuracy}$ ) and calculated the cumulative air kerma (K_a,r) when SV was used. The mean ${SV}_{accuracy}$ in the control and evaluation groups were 94.03 ± 14.52% and 94.62 ± 13.98%, respectively (p = 0.26), whereas the K_a,r were 111.15 ± 79.62 mGy and 65.22 ± 47.35 mGy, respectively. On average, appropriate optimization of the SV imaging conditions reduced patient radiation dose during SV imaging by 41.32% without affecting the accuracy of SV image reconstruction.

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通过优化经皮冠状动脉介入治疗中支架增强处理的成像条件来减少患者辐射暴露的研究：一项回顾性研究。

几种经皮冠状动脉介入治疗（PCI）支持技术已经被开发出来以改善手术结果。我们回顾性研究了实时支架增强处理系统(stent View；SV)可有效降低PCI时的辐射剂量。对照组包括在标准成像条件下使用SV进行PCI的个体，而评估组包括在降低剂量（标准剂量的68%）下使用SV进行PCI的个体。我们评估了SV的气球标记物检测精度（SV精度），并计算了使用SV时的累积空气kerma （Ka,r）。对照组和评价组的平均SV准确度分别为94.03±14.52%和94.62±13.98% (p = 0.26)，而Ka、r分别为111.15±79.62和65.22±47.35 mGy。平均而言，适当优化SV成像条件，在不影响SV图像重建精度的情况下，使患者在SV成像时的辐射剂量降低41.32%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Radiological Physics and Technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

3.00

自引率

12.50%

发文量

期刊介绍： The purpose of the journal Radiological Physics and Technology is to provide a forum for sharing new knowledge related to research and development in radiological science and technology, including medical physics and radiological technology in diagnostic radiology, nuclear medicine, and radiation therapy among many other radiological disciplines, as well as to contribute to progress and improvement in medical practice and patient health care.