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Journal of Nanophotonics

Analysis and modeling of localized heat generation by tumor-targeted nanoparticles (Monte Carlo methods)
Author(s): Ehsan Sanattalab; Ahmad SalmanOgli; Erhan Piskin
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Paper Abstract

We investigated the tumor-targeted nanoparticles that influence heat generation. We suppose that all nanoparticles are fully functionalized and can find the target using active targeting methods. Unlike the commonly used methods, such as chemotherapy and radiotherapy, the treatment procedure proposed in this study is purely noninvasive, which is considered to be a significant merit. It is found that the localized heat generation due to targeted nanoparticles is significantly higher than other areas. By engineering the optical properties of nanoparticles, including scattering, absorption coefficients, and asymmetry factor (cosine scattering angle), the heat generated in the tumor’s area reaches to such critical state that can burn the targeted tumor. The amount of heat generated by inserting smart agents, due to the surface Plasmon resonance, will be remarkably high. The light–matter interactions and trajectory of incident photon upon targeted tissues are simulated by MIE theory and Monte Carlo method, respectively. Monte Carlo method is a statistical one by which we can accurately probe the photon trajectories into a simulation area.

Paper Details

Date Published: 20 June 2016
PDF: 9 pages
J. Nanophoton. 10(2) 026029 doi: 10.1117/1.JNP.10.026029
Published in: Journal of Nanophotonics Volume 10, Issue 2
Show Author Affiliations
Ehsan Sanattalab, Hacettepe Univ. (Turkey)
Ahmad SalmanOgli, Hacettepe Univ. (Turkey)
Tabriz Univ. (Iran)
Erhan Piskin, Hacettepe Univ. (Turkey)

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