基于微泡h扫描技术的微血管血流超声成像。

IF 2.6 4区医学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Medical & Biological Engineering & Computing Pub Date : 2025-01-21 DOI:10.1007/s11517-024-03262-1

Feng Jiang, Yiheng Li, Yaoyao Cui, Yang Jiao

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引用次数: 0

摘要

超声血流成像在心脑血管疾病的诊断中起着至关重要的作用。传统的超快超声平面波成像技术在微血管成像中的应用能力有限。为了提高血流成像的质量，本研究提出了一种基于微泡的h扫描超声成像技术。该技术利用高阶h扫描来检测血液流动和微泡在一定浓度下产生的瑞利散射。然后在B通道中使用基于Casorati矩阵奇异值分解（Casorati- svd）的杂波滤波等方法对检测结果进行处理。与未进行h扫描的对照组相比，采用基于微泡的h扫描超声成像技术的实验组的信噪比（SNR）平均提高了38.61%，对比信噪比（CNR）平均提高了39.5%。改进后的微血管血流成像图像质量明显增强。该方法在提高超声血流成像的灵敏度和准确性方面具有显著优势，具有较大的临床应用潜力。

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Microvascular blood flow ultrasound imaging with microbubble-based H-Scan technology.

Ultrasound blood flow imaging plays a crucial role in the diagnosis of cardiovascular and cerebrovascular diseases. Conventional ultrafast ultrasound plane-wave imaging techniques have limited capabilities in microvascular imaging. To enhance the quality of blood flow imaging, this study proposes a microbubble-based H-Scan ultrasound imaging technique. This technique utilizes high-order H-Scan to detect the Rayleigh scattering contributed by blood flow and microbubbles at certain concentrations. The detected results are then processed in the B channel using methods such as clutter filtering based on Casorati matrix singular value decomposition (Casorati-SVD). Compared with the control group without H-Scan, the signal-to-noise ratio (SNR) of the experimental group using the microbubble-based H-Scan ultrasound imaging technique was increased by 38.61% on average and the contrast signal-to-noise ratio (CNR) was increased by 39.5% on average. The improved image quality of microvascular flow imaging was visibly enhanced. This method demonstrates significant advantages in enhancing the sensitivity and accuracy of ultrasound blood flow imaging, indicating considerable potential for clinical applications.

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来源期刊

Medical & Biological Engineering & Computing 医学-工程：生物医学

CiteScore

6.00

自引率

3.10%

发文量

249

审稿时长

3.5 months

期刊介绍： Founded in 1963, Medical & Biological Engineering & Computing (MBEC) continues to serve the biomedical engineering community, covering the entire spectrum of biomedical and clinical engineering. The journal presents exciting and vital experimental and theoretical developments in biomedical science and technology, and reports on advances in computer-based methodologies in these multidisciplinary subjects. The journal also incorporates new and evolving technologies including cellular engineering and molecular imaging. MBEC publishes original research articles as well as reviews and technical notes. Its Rapid Communications category focuses on material of immediate value to the readership, while the Controversies section provides a forum to exchange views on selected issues, stimulating a vigorous and informed debate in this exciting and high profile field. MBEC is an official journal of the International Federation of Medical and Biological Engineering (IFMBE).