Monte Carlo simulation of signals in digital diaphanoscopy of the maxillary sinuses

Bryanskaya, E.O.; Gneushev, R.Yu.; Makovik, I.N.; Dremin, V. V.; Bukin, A. G.; Bibikova, O. A.; Shuraev, B. M.; Minet, O.; Zabarylo, U.; Dunaev, A. V.; Artyushenko, V. G.

JultikaUniversity of Oulu repository

	E. O. Bryanskaya, R. Yu. Gneushev, I. N. Makovik, V. V. Dremin, A. G. Bukin, O. A. Bibikova, B. M. Shuraev, O. Minet, U. Zabarylo, A. V. Dunaev, and V. G. Artyushenko "Monte Carlo simulation of signals in digital diaphanoscopy of the maxillary sinuses", Proc. SPIE 11457, Saratov Fall Meeting 2019: Optical and Nano-Technologies for Biology and Medicine, 114571K (9 April 2020); https://doi.org/10.1117/12.2564314 Monte Carlo simulation of signals in digital diaphanoscopy of the maxillary sinuses Saved in:
Author:	Bryanskaya, E.O.¹; Gneushev, R.Yu.¹; Makovik, I.N.^1,2; Dremin, V. V.^1,3; Bukin, A. G.⁴; Bibikova, O. A.²; Shuraev, B. M.⁵; Minet, O.⁶; Zabarylo, U.⁷; Dunaev, A. V.¹; Artyushenko, V. G.²
Organizations:	¹Research and Development Center of Biomedical Photonics, Orel State University named after I.S. Turgenev, Orel, 302026, Russia ²art photonics GmbH, Berlin, 12489, Germany ³Opto-Electronics and Measurement Techniques Unit, Faculty of Information Technology and Electrical Engineering, University of Oulu, Oulu, 90570, Finland ⁴Institute of Engineering Physics, Serpukhov, 142210, Russia ⁵Diagnostic Medical Center “MediSсan”, Orel, 302030, Russia ⁶Charité Universitätsmedizin Berlin, Berlin, 12203, Germany ⁷Charité – Universitätsklinikum Berlin, Berlin, 13353, Germany
Format:	article
Version:	published version
Access:	open
Online Access:	PDF Full Text (PDF, 0.9 MB)
Persistent link:	http://urn.fi/urn:nbn:fi-fe2020111189898
Language:	English
Published:	SPIE, 2020
Publish Date:	2020-11-11
Description:	Abstract Digital diaphanoscopy method has potential to separate normal and pathological conditions of the maxillary sinuses. The entirety of all the features of the investigated area (the presence or absence of pathology, its etiology and morphological features) affects the resulting images of the maxillary sinuses by the digital diaphanoscopy. In this work, the MonteCarlo numerical simulation method was used to determine the patterns of propagation of light radiation in biological tissue. A biologically heterogeneous environment, represented by structures of the skull and maxillary sinuses, as well as pathological changes in them was modelled in the TracePro software. see all 
Series:	Proceedings of SPIE
ISSN:	0277-786X
ISSN-E:	1996-756X
ISSN-L:	0277-786X
ISBN:	978-1-5106-3719-1
ISBN Print:	978-1-5106-3718-4
Article number:	114571K
DOI:	10.1117/12.2564314
OADOI:	https://oadoi.org/10.1117/12.2564314
Host publication:	7th International Symposium on Optics and Biophotonics: Optical and Nano-Technologies for Biology and Medicine, SFM 2019
Host publication editor:	Tuchin, Valery V. Genina, Elina A.
Conference:	International Symposium on Optics and Biophotonics
Type of Publication:	A4 Article in conference proceedings
Field of Science:	213 Electronic, automation and communications engineering, electronics 217 Medical engineering
Subjects:	Article
Funding:	The work was supported by the grant of the President of the Russian Federation for state support of young Russian scientists № MK-2634.2019.8.
Copyright information:	© (2020) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.

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Monte Carlo simulation of signals in digital diaphanoscopy of the maxillary sinuses

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