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Toward Standardized Acoustic Radiation Force (ARF)-Based Ultrasound Elasticity Measurements With Robotic Force Control

机译：借助机器人力控制实现基于标准声辐射力（ARF）的超声弹性测量

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ObjectiveAcoustic radiation force (ARF)-based approaches to measure tissue elasticity require transmission of a focused high-energy acoustic pulse from a stationary ultrasound probe and ultrasound-based tracking of the resulting tissue displacements to obtain stiffness images or shear wave speed estimates. The method has established benefits in biomedical applications such as tumor detection and tissue fibrosis staging. One limitation, however, is the dependence on applied probe pressure, which is difficult to control manually and prohibits standardization of quantitative measurements. To overcome this limitation, we built a robot prototype that controls probe contact forces for shear wave speed quantification.

机译：目的基于声辐射力（ARF）的方法来测量组织弹性需要从固定的超声探头传输聚焦的高能声脉冲，并对生成的组织位移进行基于超声的跟踪以获取刚度图像或剪切波速度估计值。该方法已经在生物医学应用中建立了优势，例如肿瘤检测和组织纤维化分期。然而，一个局限性是对所施加探针压力的依赖性，这难以手动控制并且禁止定量测量的标准化。为了克服此限制，我们构建了一个机器人原型，该原型控制探针接触力以量化剪切波速度。

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期刊名称 other
作者
Muyinatu A. Lediju Bell; Shalki Kumar; Kuo Lily; H. Tutkun Sen; Iulian Iordachita; Peter Kazanzides;
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年(卷),期 -1(63),7
年度 -1
页码 1517–1524
总页数 22
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专利

1. Toward Standardized Acoustic Radiation Force (ARF)-Based Ultrasound Elasticity Measurements With Robotic Force Control [J] . Muyinatu A. Lediju Bell, Shalki Kumar, Lily Kuo, IEEE Transactions on Biomedical Engineering . 2016,第7期

机译：借助机器人力控制实现基于标准声辐射力（ARF）的超声弹性测量
2. Correlation between acoustic radiation force impulse (ARFI)-based tissue elasticity measurements and perfusion parameters acquired by perfusion CT in cirrhotic livers: a proof of principle [J] . Esser Michael, Bitzer Michael, Kolb Manuel, Journal of medical ultrasonics: official journal of the Japan Society of Ultrasonics in Medicine . 2019,第1期

机译：基于肝硬化肝脏灌注CT获取的声学辐射力脉冲（ARFI）基组织弹性测量和灌注参数的相关性：原理证据
3. Value of conventional ultrasound, ultrasound elasticity imaging, and acoustic radiation force impulse elastography for prediction of malignancy in breast lesions [J] . Zhang Shupin, Wan Jing, Liu Hui, Clinical hemorheology and microcirculation . 2020,第3期

机译：传统超声，超声弹性成像和声辐射力脉冲弹性术中的价值，用于预测乳腺病变中恶性肿瘤
4. Force-controlled ultrasound robot for consistent tissue pre-loading: Implications for acoustic radiation force elasticity imaging [C] . Bell Muyinatu A.Lediju, Sen H.Tutkun, Iordachita Iulian, 2014 5th IEEE RAS amp; EMBS International Conference on Biomedical Robotics and Biomechatronics . 2014

机译：力控超声机器人，用于一致的组织预加载：声辐射力弹性成像的意义
5. Transthoracic Measurement of Dynamic Myocardial Stiffness Using Acoustic Radiation Force-based Ultrasound Methods [D] . Kakkad, Vaibhav R. 2018

机译：基于声辐射力的超声方法经胸测量动态心肌僵硬
6. Acoustic Radiation Force Based Ultrasound Elasticity Imaging for Biomedical Applications [O] . Lulu Wang 2018

机译：用于生物医学的基于声辐射力的超声弹性成像
7. Measurement of Corneal Elasticity with an Acoustic Radiation Force Elasticity Microscope [O] . Eric Mikula, Kyle Hollman, Dongyul Chai, 2014

机译：用声辐射力弹性显微镜测量角膜弹性

Toward Standardized Acoustic Radiation Force (ARF)-Based Ultrasound Elasticity Measurements With Robotic Force Control

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