Joint learning of ultrasonic backscattering statistical physics and signal confidence primal for characterizing atherosclerotic plaques using intravascular ultrasound

SheetD.; KaramalisA.; EslamiA.; No?lP.; ChatterjeeJ.; RayA.K.; LaineA.F.; CarlierS.G.; NavabN.; KatouzianA.

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Joint learning of ultrasonic backscattering statistical physics and signal confidence primal for characterizing atherosclerotic plaques using intravascular ultrasound

机译：超声背散射统计物理和信号置信度的联合学习，用于使用血管内超声表征动脉粥样硬化斑块

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Intravascular Ultrasound (IVUS) is a predominant imaging modality in interventional cardiology. It provides real-time cross-sectional images of arteries and assists clinicians to infer about atherosclerotic plaques composition. These plaques are heterogeneous in nature and constitute fibrous tissue, lipid deposits and calcifications. Each of these tissues backscatter ultrasonic pulses and are associated with a characteristic intensity in B-mode IVUS image. However, clinicians are challenged when colocated heterogeneous tissue backscatter mixed signals appearing as non-unique intensity patterns in B-mode IVUS image. Tissue characterization algorithms have been developed to assist clinicians to identify such heterogeneous tissues and assess plaque vulnerability. In this paper, we propose a novel technique coined as Stochastic Driven Histology (SDH) that is able to provide information about co-located heterogeneous tissues. It employs learning of tissue specific ultrasonic backscattering statistical physics and signal confidence primal from labeled data for predicting heterogeneous tissue composition in plaques. We employ a random forest for the purpose of learning such a primal using sparsely labeled and noisy samples. In clinical deployment, the posterior prediction of different lesions constituting the plaque is estimated. Folded cross-validation experiments have been performed with 53 plaques indicating high concurrence with traditional tissue histology. On the wider horizon, this framework enables learning of tissue-energy interaction statistical physics and can be leveraged for promising clinical applications requiring tissue characterization beyond the application demonstrated in this paper.

机译：血管内超声（IVUS）是介入心脏病学中的主要成像方式。它提供了实时的动脉横截面图像，并帮助临床医生推断动脉粥样硬化斑块的组成。这些斑块本质上是异质的，并构成纤维组织，脂质沉积和钙化。这些组织中的每一个都向后散射超声脉冲，并与B模式IVUS图像中的特征强度相关。然而，当并置的异质组织反向散射混合信号在B模式IVUS图像中以非唯一强度模式出现时，临床医生将面临挑战。已经开发出组织表征算法来帮助临床医生识别这种异质组织并评估斑块易损性。在本文中，我们提出了一种被称为随机驱动组织学（SDH）的新技术，该技术能够提供有关同位异质组织的信息。它利用组织特异性超声反向散射统计物理学的学习，并从标记数据中初步获得信号置信度，以预测斑块中的异质组织组成。我们使用一个随机森林来研究使用稀疏标记和嘈杂样本的原始知识。在临床部署中，估计构成斑块的不同病变的后验预测。已对53个斑块进行了交叉交叉验证实验，表明与传统组织组织学高度一致。在更广阔的视野中，该框架使人们能够学习组织-能量相互作用的统计物理学，并且可用于需要组织表征的有希望的临床应用，而本文所演示的应用除外。

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《Medical image analysis》 |2014年第1期|共15页
作者
SheetD.; KaramalisA.; EslamiA.; No?lP.; ChatterjeeJ.; RayA.K.; LaineA.F.; CarlierS.G.; NavabN.; KatouzianA.;
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正文语种 eng
中图分类影像诊断学;
关键词
Intravascular ultrasound; Machine learning; Nakagami distribution; Tissue characterization; Ultrasound signal confidence;

机译：血管内超声;机器学习;中神分布;组织表征;超声信号置信度;

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1. Joint learning of ultrasonic backscattering statistical physics and signal confidence primal for characterizing atherosclerotic plaques using intravascular ultrasound [J] . SheetD., KaramalisA., EslamiA., Medical image analysis . 2014,第1期

机译：超声背散射统计物理和信号置信度的联合学习，用于使用血管内超声表征动脉粥样硬化斑块
2. Stabilization of atherosclerotic plaque by pitavastatin in Watanabe heritable hyperlipidemic rabbits: A serial tissue-characterizing intravascular ultrasound study [J] . Haruta Hironori, Hiro Takafumi, Mitsumata Masako, Journal of cardiology . 2016,第1a2期

机译：匹伐他汀稳定渡边可遗传性高脂血症兔的动脉粥样硬化斑块：系列组织特征性血管内超声研究
3. Intravascular ultrasound area strain imaging used to characterize tissue components and assess vulnerability of atherosclerotic plaques in a rabbit model. [J] . Hu XB, Zhang PF, Su HJ, Ultrasound in Medicine and Biology . 2011,第10期

机译：血管内超声区域应变成像用于表征组织模型并评估兔模型中动脉粥样硬化斑块的脆弱性。
4. Measurements from 22 to 105 MHz of the apparent anisotropy of ultrasonic backscatter from coronary arteries with atherosclerotic plaques identified by intravascular ultrasound [C] . Hoffman Joseph J., Johnson Benjamin L., Holland Mark R., 2010 IEEE International Ultrasonics Symposium . 2010

机译：从22到105 MHz的测量值，通过血管内超声确定冠状动脉与动脉粥样硬化斑块之间的超声反向散射的表观各向异性
5. Coronary plaque progression of non-culprit lesions after culprit percutaneous coronary intervention in patients with moderate to advanced chronic kidney disease: intravascular ultrasound and integrated backscatter intravascular ultrasound study [O] . Kuninobu Kashiyama, Shinjo Sonoda, Yoshitaka Muraoka, -1

机译：中晚期慢性肾脏疾病患者经皮冠状动脉介入治疗后非罪犯病变的冠状动脉斑块进展：血管内超声和背向散射综合血管内超声研究
6. Prospective Validation of Standardized, 3-Dimensional, Quantitative Coronary Computed Tomographic Plaque Measurements Using Radiofrequency Backscatter Intravascular Ultrasound as Reference Standard in Intermediate Coronary Arterial Lesions Results From the ATLANTA (Assessment of Tissue Characteristics, Lesion Morphology, and Hemodynamics by Angiography With Fractional Flow Reserve, Intravascular Ultrasound and Virtual Histology, and Noninvasive Computed Tomography in Atherosclerotic Plaques) I Study [O] . Voros Szilard, Rinehart Sarah, Qian Zhen, 2011

机译：亚特兰大中期冠状动脉病变中以射频反向散射血管内超声作为参考标准的标准化3维定量冠状动脉层析成像斑块测量的前瞻性验证（组织学，病变形态学和血流动力学通过血管造影术结合分流储备来评估，血管内超声和虚拟组织学以及动脉粥样硬化斑块的无创计算机断层扫描技术
7. Effects of Scatterer Spacing Statistics on Ultrasonic Backscatter Signal Spectra [R] . Telschow, K. L., Lassahn, G. D. 1984

机译：散射体间距统计对超声背向散射信号光谱的影响

Joint learning of ultrasonic backscattering statistical physics and signal confidence primal for characterizing atherosclerotic plaques using intravascular ultrasound

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