High-Resolution Ultrasound-Switchable Fluorescence Imaging in Centimeter-Deep Tissue Phantoms with High Signal-To-Noise Ratio and High Sensitivity via Novel Contrast Agents

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Description

This article discusses the achievement of high spatial resolution (~ 900 μm) in 3-centimeter-deep tissue phantoms with high signal-to-noise ratio (SNR) and high sensitivity (3.4 picomoles of fluorophore in a volume of 68 nanoliters can be detected).

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16 p.

Creation Information

Cheng, Bingbing; Bandi, Venugopal; Wei, Ming-Yuan; Pei, Yanbo & D'Souza, Francis November 9, 2016.

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This article is part of the collection entitled: UNT Scholarly Works and was provided by UNT College of Arts and Sciences to Digital Library, a digital repository hosted by the UNT Libraries. It has been viewed 117 times , with 10 in the last month . More information about this article can be viewed below.

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  • Cheng, Bingbing University of Texas at Arlington; University of Texas Southwestern Medical Center at Dallas
  • Bandi, Venugopal University of North Texas
  • Wei, Ming-Yuan University of Texas at Arlington; University of Texas Southwestern Medical Center at Dallas
  • Pei, Yanbo University of Texas at Arlington; University of Texas Southwestern Medical Center at Dallas
  • D'Souza, Francis University of North Texas

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Description

This article discusses the achievement of high spatial resolution (~ 900 μm) in 3-centimeter-deep tissue phantoms with high signal-to-noise ratio (SNR) and high sensitivity (3.4 picomoles of fluorophore in a volume of 68 nanoliters can be detected).

Physical Description

16 p.

Source

  • PLOS ONE, 2016. San Francisco, CA: Public Library of Science

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Publication Information

  • Publication Title: PLOS ONE
  • Volume: 11
  • Issue: 11
  • Pages: 1-16
  • Peer Reviewed: Yes

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UNT Scholarly Works

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  • November 9, 2016

Added to The UNT Digital Library

  • July 31, 2017, 8:25 p.m.

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Cheng, Bingbing; Bandi, Venugopal; Wei, Ming-Yuan; Pei, Yanbo & D'Souza, Francis. High-Resolution Ultrasound-Switchable Fluorescence Imaging in Centimeter-Deep Tissue Phantoms with High Signal-To-Noise Ratio and High Sensitivity via Novel Contrast Agents, article, November 9, 2016; San Francisco, California. (digital.library.unt.edu/ark:/67531/metadc987477/: accessed October 16, 2018), University of North Texas Libraries, Digital Library, digital.library.unt.edu; crediting UNT College of Arts and Sciences.