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Nonlinear photoacoustic signal amplification from single targets in absorption background

Photoacoustic (PA) detection of single absorbing targets such as nanoparticles or cells can be limited by absorption background. We show here that this problem can be overcome by using the nonlinear photoacoustics based on the differences in PA signal dependences on the laser energy from targets and...

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Published in:	Photoacoustics (Munich) 2014-03, Vol.2 (1), p.1-11
Main Authors:	Sarimollaoglu, Mustafa, Nedosekin, Dmitry A., Menyaev, Yulian A., Juratli, Mazen A., Zharov, Vladimir P.
Format:	Article
Language:	English
Subjects:	Circulating tumor cells Flow cytometry Melanoma Nanobubbles Nonlinear phenomena Photoacoustic imaging
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creator	Sarimollaoglu, Mustafa Nedosekin, Dmitry A. Menyaev, Yulian A. Juratli, Mazen A. Zharov, Vladimir P.
description	Photoacoustic (PA) detection of single absorbing targets such as nanoparticles or cells can be limited by absorption background. We show here that this problem can be overcome by using the nonlinear photoacoustics based on the differences in PA signal dependences on the laser energy from targets and background. Among different nonlinear phenomena, we focused on laser generation of nanobubbles as more efficient PA signal amplifiers from strongly absorbing, highly localized targets in the presence of spatially homogenous absorption background generating linear signals only. This approach was demonstrated by using nonlinear PA flow cytometry platform for label-free detection of circulating melanoma cells in blood background in vitro and in vivo. Nonlinearly amplified PA signals from overheated melanin nanoclusters in melanoma cells became detectable above still linear blood background. Nonlinear nanobubble-based photoacoustics provide new opportunities to significantly (5–20-fold) increase PA contrast of single nanoparticles, cells, viruses and bacteria in complex biological environments.
doi_str_mv	10.1016/j.pacs.2013.11.002
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subjects	Circulating tumor cells Flow cytometry Melanoma Nanobubbles Nonlinear phenomena Photoacoustic imaging
title	Nonlinear photoacoustic signal amplification from single targets in absorption background
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