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This article is cited in 17 scientific papers (total in 17 papers)
Biophotonics
Visualisation of distribution of gold nanoparticles in liver tissues ex vivo and in vitro using the method of optical coherence tomography
È. A. Geninaab, G. S. Terentyukcad, B. N. Khlebtsove, A. N. Bashkatovab, V. V. Tuchinafgb a Saratov State University
b OBP Research-Educational Institute of Optics and Biophotonics, Saratov State University
c Ulyanovsk State University
d Saratov State Medical University named after V. I. Razumovsky
e Institute of Biochemistry and Physiology of Plants and Microorganisms, Russian Academy of Sciences, Saratov
f University of Oulu, Finland
g Institute of Precision Mechanics and Control, Russian Academy of Sciences, Saratov
Abstract:
The possibility of visualising the distribution of gold nanoparticles in liver by means of the method of optical coherence tomography is studied experimentally in model samples of beef liver in vitro and rat liver ex vivo. In the experiments we used the gold nanoparticles in the form of nanocages with resonance absorption in the near-IR spectral region. In the model studies the suspension of nanoparticles was applied to the surface of the sample, which then was treated with ultrasound. In the ex vivo studies the suspension of nanoparticles was injected to the laboratory rats intravenously. The image contrast and the optical depth of detection of blood vessels and liver structure components are calculated, as well as the depth of liver optical probing before and after the injection of nanoparticles. It was shown that the administration of the nanoparticle increases significantly the imaging contrast of liver blood vessels owing to the localisation of the nanoparticles therein.
Keywords:
optical coherence tomography, gold nanoparticles, nanocages, image contrast, liver.
Received: 23.04.2012
Citation:
È. A. Genina, G. S. Terentyuk, B. N. Khlebtsov, A. N. Bashkatov, V. V. Tuchin, “Visualisation of distribution of gold nanoparticles in liver tissues ex vivo and in vitro using the method of optical coherence tomography”, Kvantovaya Elektronika, 42:6 (2012), 478–483 [Quantum Electron., 42:6 (2012), 478–483]
Linking options:
https://www.mathnet.ru/eng/qe14884 https://www.mathnet.ru/eng/qe/v42/i6/p478
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