Volumetric Imaging of Blood Flow Within Cochlea in Gerbil In Vivo

Choudhury N.; Chen F.; Shi X.; Nuttall A. L.; Wang R. K.

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Volumetric Imaging of Blood Flow Within Cochlea in Gerbil In Vivo

机译：体内沙鼠耳蜗内血流的体积成像

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Changes in blood flow to the inner ear are thought to influence a number of cochlear diseases, including noise-induced hearing loss, sudden hearing loss, and Meniere''s disease. Advances have been made in the areas of vital microscopic studies of microcirculation, and the laser Doppler flowmetry. But none of these techniques can provide in vivo 3-D mapping of microvascular perfusion within the cochlea. To overcome this limitation, we have developed and used a method of optical microangiography (OMAG) that can generate 3-D angiograms within millimeter of tissue depths by analyzing the endogenous optical scattering signal obtained from an illuminated sample. We used OMAG to visualize the cochlear microcirculation of adult living gerbil through the intact cochlea, which would be difficult, if not impossible, by use of any other current techniques.

机译：人们认为流向内耳的血流变化会影响许多耳蜗疾病，包括噪音引起的听力损失，突发性听力损失和梅尼埃病。在微循环的重要微观研究和激光多普勒血流仪领域已取得进展。但是，这些技术都无法提供耳蜗内微血管灌注的体内3-D映射。为了克服这一局限性，我们已经开发并使用了一种光学微血管造影（OMAG）方法，该方法可以通过分析从被照样品获得的内源性光学散射信号来生成在组织深度毫米内的3-D血管造影照片。我们使用OMAG通过完整的耳蜗可视化了成年沙鼠的耳蜗微循环，如果使用任何其他现有技术，这将是困难的，即使不是不可能的。

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来源
《Selected Topics in Quantum Electronics, IEEE Journal of 》 |2010年第3期| p.524-529| 共6页
作者
Choudhury N.; Chen F.; Shi X.; Nuttall A. L.; Wang R. K.;
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作者单位

Department of Biomedical Engineering, Oregon Health & Science University, Portland, USA;

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正文语种 eng
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关键词
Biomedical imaging; cochlear blood flow; optical coherence tomography; optical microangiography;

机译：生物医学成像;耳蜗血流;光学相干断层扫描;光学微血管造影;

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专利

1. Volumetric In Vivo Imaging of Microvascular Perfusion Within the Intact Cochlea in Mice Using Ultra-High Sensitive Optical Microangiography [J] . Subhash H. M.Davila V.Sun H.Nguyen-Huynh A. T.Shi X.Nuttall A. L.Wang R. K. Medical Imaging, IEEE Transactions on . 2011 ,第2期

机译：使用超高灵敏度光学微血管造影对小鼠完整耳蜗内的微血管灌注进行体内成像。
2. Organ of Corti vibration within the intact gerbil cochlea measured by volumetric optical coherence tomography and vibrometry [J] . Dong Wei, Xia Anping, Raphael Patrick D., Journal of Neurophysiology . 2018 ,第6期

机译：通过体积光学相干断层扫描和振动器测量的完整的Gerbil Cochlea内的Corti振动器官
3. Quantification of coronary microvascular resistance using angiographic images for volumetric blood flow measurement: in vivo validation. [J] . Zhang Z, Takarada S, Molloi S American Journal of Physiology . 2011 ,第6Parta2期

机译：血管造影图像对体积血流测量的定量血管造影图像：体内验证。
4. In vivo Volumetric Blood Flow Imaging Using Optical Microangiography at Capillary Level Resolution [C] . Ruikang K. Wang Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2008

机译：在体内体积血流成像中使用光学微观造影在毛细管水平分辨率下
5. Intracranial 4D Flow Magnetic Resonance Imaging: In Vivo Cerebral Volumetric Flow Assessment and Applications in Cerebrovascular Disease. [D] . Wu, Can. 2016

机译：颅内4D流磁共振成像：体内脑体积流评估及其在脑血管疾病中的应用。
6. Volumetric Imaging of Blood Flow within Cochlea in Gerbil in vivo [O] . Niloy Choudhury, Fangyi Chen, Xiaorui Shi, -1

机译：内耳蜗血流量的沙鼠体内的容积成像
7. Organ of Corti vibration within the intact gerbil cochlea measured by volumetric optical coherence tomography and vibrometry [O] . Wei Dong, Anping Xia, Patrick D. Raphael, 2018

机译：通过体积光学相干断层扫描和振动器测量的完整的Gerbil Cochlea内的Corti振动器官

Volumetric Imaging of Blood Flow Within Cochlea in Gerbil In Vivo

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