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首页> 中文期刊> 《纳微快报:英文版》 >In Vivo Tumor-Targeted Dual-Modality PET/Optical Imaging with a Yolk/Shell-Structured Silica Nanosystem

In Vivo Tumor-Targeted Dual-Modality PET/Optical Imaging with a Yolk/Shell-Structured Silica Nanosystem

         
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摘要

Silica nanoparticles have been one of the most promising nanosystems for biomedical applications due to their facile surface chemistry and non-toxic nature. However, it is still challenging to effectively deliver them into tumor sites and noninvasively visualize their in vivo biodistribution with excellent sensitivity and accuracy for effective cancer diagnosis. In this study, we design a yolk/shell-structured silica nanosystem 64 Cu-NOTAQD@HMSN-PEG-TRC105, which can be employed for tumor vasculature targeting and dual-modality PET/optical imaging, leading to superior targeting specificity, excellentimaging capability and more reliable diagnostic outcomes.By combining vasculature targeting, pH-sensitive drug delivery, and dual-modality imaging into a single platform,as-designed yolk/shell-structured silica nanosystems may be employed for the future image-guided tumor-targeted drug delivery, to further enable cancer theranostics.

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  • 来源
    《纳微快报:英文版》 |2018年第4期|P.111-121|共11页
  • 作者

    Sixiang Shi; Feng Chen; Shreya Goel; Stephen A.Graves; Haiming Luo; Charles P.Theuer; Jonathan W.Engle; Weibo Cai;

  • 作者单位

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

    Department of Materials Science and Engineering;

    University of Wisconsin-Madison;

    Department of Radiology;

    University of Wisconsin-Madison;

    Department of Medical Physics;

    University of Wisconsin-Madison;

    TRACON Pharmaceuticals;

    Inc.;

    University of Wisconsin Carbone Cancer Center;

  • 原文格式 PDF
  • 正文语种 CHI
  • 中图分类 放射线、同位素诊断;
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