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Plasmon resonance gold nanoparticles for improving optical diagnostics and photothermal therapy of tumor
Explore Article SPIE Digital Library (Feb 16 2010) Oncology , Urology
The study was performed on 16 CBA-line female mice with transplanted cervical cancer. 0.2 ml of gold nanoparticle solution with a concentration of 109 particles/ml were injected into the animals intravenously. The particles were 200-250 nm in size; the plasmon-resonance related extinction maximum was at the wavelength of 850-950 nm. Accumulation of the nanoparticles into tumor node was visualized by the method of optical coherence tomography (OCT). When the accumulation of nanoparticles in the tumor was maximal, hyperthermia was accomplished using the LSP-AZOR laser setup generating cw radiation at 810 nm. The duration of exposition was 20 min. The therapeutical ...
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Comment on Article Mentions: Nizhny Novgorod State Medical Academy Vladislav A. Kamensky Russian Academy of Sciences
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Detection of nanoparticles accumulation in biological tissues by optical coherence tomography in vivo
Explore Article SPIE Digital Library (Feb 16 2009) Dermatology
Dynamics of nanoparticles penetrating and accumulating in healthy (skin) and pathologically altered (tumor) tissue was investigated in vivo by the method of optical coherence tomography (OCT). Gold nanoshells having the size of 130/15 nm and titanium dioxide nanoparticles 40-100 nm in size were stud ... [Proc. SPIE 7188, 71880L (2009)] published Mon Feb 16, 2009. (Read Full Article)
Comment on Article Mentions: Nizhny Novgorod State Medical Academy Elena V. Zagaynova Pavel D. Agrba
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Contrasting properties of gold nanoparticles for optical coherence tomography: phantom, in vivo studies and Monte Carlo simulation
Explore Article Institute of Physics (Aug 17 2008)
Abstract. The possibility of using silica–gold nanoshells with 150 nm silica core size and 25 nm thick gold shell as contrasting agents for optical coherence tomography (OCT) is analyzed. Experiments on agar biotissue phantoms showed that the penetration of nanoshells into the phantoms increases the intensity of the optical coherence tomography (OCT) signal and the brightness of the corresponding areas of the OCT image. In vivo experiments on rabbit skin demonstrated that the application of nanoshells onto the skin provides significant contrasting of the borders between the areas containing nanoshells and those without. This effect of nanoshells on skin in ... (Read Full Article)
Comment on Article Mentions: University of Oulu Nizhny Novgorod State Medical Academy Elena V. Zagaynova
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Gold nanoshells for OCT imaging contrast: From model to in-vivo study
Explore Article SPIE Digital Library (Feb 13 2008) Dermatology
E. V. Zagainova, M. V. Shirmanova, A. G. Orlova et al. We have investigated the effect of application of gold nanoshells with a 150 nm silica core size and 25 nm thick gold coating on optical properties of skin. We have analyzed the possibility of using these particles as a contrasting agent for optical coherence tomography (OCT). A set of Monte Carlo c ... [Proc. SPIE Int. Soc. Opt. Eng. 6865, 68650K (2008)] published Wed Feb 13, 2008. (Read Full Article)
Comment on Article Mentions: Nizhny Novgorod State Medical Academy Moscow State University Mikhail Y. Kirillin
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Eric Swanson » Jim Fujimoto video: Biophotonics and optical coherence tomography
Great video Jim!
dariemihaela » Gary S. Mintz
Dear Prof. Dr. Gary S. Mintz, You are an extraordinary expert in imaging, an intelligence ...
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