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Non-Invasive Imaging of Small-Animal Tumors: High-Frequency Ultrasound vs. MicroPET

机译：小动物肿瘤的非侵入性成像：高频超声与MicroPET

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Tumor volume measurement on small animals is important but currently invasive. We employ ultrasonic micro-imaging (UMI) in this study and demonstrate its feasibility. In addition, we use small animal positron emission tomography (microPET) as a preliminary effort to develop multi-modality small animal imaging techniques. The tumor growth curve from UMI is also compared to radioactivity from microPET. Both UMI and [¹⁸F]FDG microPET imaging were performed on C57BL/6J black mice bearing WF-3 ovary cancer cells at various stages from the second week till up to the eighth week. Segmentation and 3D reconstruction were also done. The growth curve was obtained in vivo noninvasively by UMI. The cell doubling time was 7.46 days according to UMI. This result was compared with vernier caliper measurement and radioactivity counting by microPET. In microPET, we obtained the time-activity curves from the tumor and the tumor-surrounding tissue. The tumor-to-normal-tissues ratios reached maximum at the fifth week after tumor cell implantation

机译：小动物的肿瘤体积测量很重要，但目前是侵入性的。我们在这项研究中采用了超声微成像（UMI），并证明了其可行性。此外，我们使用小动物正电子发射断层扫描（microPET）作为开发多模式小动物成像技术的初步工作。 UMI的肿瘤生长曲线也与microPET的放射性进行了比较。从第二周到第八周，在不同阶段均对带有WF-3卵巢癌细胞的C57BL / 6J黑色小鼠进行了UMI和[^{18 F] FDG microPET成像。还进行了分割和3D重建。通过UMI在体内无创地获得生长曲线。根据UMI，细胞倍增时间为7.46天。将该结果与游标卡尺测量和通过microPET进行的放射性计数进行了比较。在microPET中，我们从肿瘤和肿瘤周围组织获得了时间活性曲线。肿瘤细胞植入后第五周，肿瘤与正常组织的比率达到最大值}

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《》|2005年|5695-5698|共4页
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Ai-Ho Liao; Chen-Han Li; Weng-Fang Cheng; Pai-Chi Li;
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biomedical ultrasonics; cancer; cellular biophysics; image reconstruction; image segmentation; medical image processing; positron emission tomography; tumours; 3D image reconstruction; 7.46 day; C57BL/6J black mice; WF-3 ovary cancer cells; sup18/supFFDG microP;

机译：生物医学超声;癌症;细胞生物物理学;图像重建;图像分割;医学图像处理;正电子发射断层扫描;肿瘤; 3D图像重建; 7.46天; C57BL / 6J黑小鼠; WF-3卵巢癌细胞; [^{18 < / sup> F] FDG microP;}

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专利

1. Noninvasive tumor imaging with high-frequency ultrasound and microPET in small animals. [J] . Liao AH, Hwang JJ, Li CH, Ultrasonic Imaging: An International Journal . 2007,第4期

机译：小型动物中高频超声和microPET的无创肿瘤成像。
2. High-frequency chirp ultrasound imaging with an annular array for ophthalmologic and small-animal imaging. [J] . Mamou J, Aristizabal O, Silverman RH Ultrasound in Medicine and Biology . 2009,第7期

机译：具有环形阵列的高频chi超声成像，用于眼科和小动物成像。
3. Non-invasive contrast enhanced ultrasound for quantitative assessment of tumor microcirculation. Contrast mixed mode examination vs. only contrast enhanced ultrasound examination. [J] . Paprottka PM, Cyran CC, Zengel P, Clinical hemorheology and microcirculation . 2010,第2a3期

机译：非侵入性对比增强超声用于定量评估肿瘤微循环。对比混合模式检查与仅对比增强超声检查。
4. Non-Invasive Imaging of Small-Animal Tumors: High-Frequency Ultrasound vs. MicroPET [C] . Ai-Ho Liao, Chen-Han Li, Weng-Fang Cheng, Annual International Conference IEEE Engineering in Medicine and Biology Society . 2005

机译：小动物肿瘤的非侵入性成像：高频超声波与微档
5. Optimal phased array pattern synthesis for non-invasive cancer ablation of liver tumors using high-intensity focused ultrasound. [D] . Botros, Youssry Youssef. 1998

机译：使用高强度聚焦超声对肝肿瘤进行非侵入性癌症消融的最佳相控阵模式合成。
6. High-Frequency Chirp Ultrasound Imaging with an Annular-array for Ophthalmologic and Small-Animal Imaging [O] . Jonathan Mamou, Orlando Aristizábal, Ronald H. Silverman, -1

机译：具有环形阵列的高频啁啾超声成像用于眼科和小动物成像
7. Measurements of carotid intima media thickness in non-invasive high-frequency ultrasound images: the effect of dynamic range setting [O] . 2015

机译：非侵入性高频超声图像中颈动脉内膜中层厚度的测量：动态范围设置的影响

Non-Invasive Imaging of Small-Animal Tumors: High-Frequency Ultrasound vs. MicroPET

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