Abstract
The aim of this work is to develop a non-invasive optical method for assessing the oxygen supply of tissues and the general functional state of a person, based on a spectrophotometric method for determining the concentration of physiological forms of hemoglobin in the blood, with further use of intelligent analysis of multidimensional data to visualize the results, optimize and automate the diagnostic system. The optical system is based on a multichannel optical analyzer with operating wavelengths in the range 450–650 nm. As a result of the experiment with the participation of 10 subjects and visualization of measurements using the developed optical system, it was shown that each subject has his own individual “image” of the functional state, described as a combination of numerical readings of six sensors in arbitrary units. In addition, it turned out that all subjects were divided into two groups according to the adaptive response of the body to the functional load suggested to the subjects in the experiment. The obtained results confirm the effectiveness of the proposed method for assessing the functional state of a person and the prospects of using the developed optical diagnostic system in practical medicine.
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References
V. Yushkova, G. Kostin, S. Rud, V. Dudkin, L. Valiullin, The development of small and medium-sized businesses, as the basis for a balanced development of agriculture in Russia. IOP Conf. Ser. Earth Environ. Sci. 390(1), 012016 (2019)
S. Van, A. Cheremisin, A. Glinushkin, V. Yushkova, Application of new architectural and planning solutions to create an ecological city (on the example of Shanghai, China), in E3S Web Conference, vol. 140 (2019), p. 09008
V.V. Davydov, E.N. Velichko, N.S. Myazin, V.Y. Rud’, A method for studying the magnetic susceptibility of colloidal solutions in ferrofluidic cells. Instrum. Exp. Tech. 61(1), 116–122 (2018)
V.V. Davydov, V.I. Dudkin, N.S. Myazin, V.Y. Rud’, On the possibility of studying condensed media in the express mode using the nuclear-magnetic-resonance method. Instr. Exp. Tech. 61(1), 140–147 (2018)
A. Koucheryavy, I, Bogdanov, A. Paramonov, A, The mobile sensor network life-time under different spurious flows intrusion. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics). LNCS, vol. 8121 (2013), pp. 312–317
N. Myazin, Y. Neronov, V. Dudkin, V, Davydov, V. Yushkova, Environmental express monitoring of territory and water bodies at various stages of construction and improvement, in MATEC Web of Conferences, vol. 245 (2018), p. 11013
N.S. Myazin, V.V. Davydov, V.V. Yushkova, V.Yu. Rud’, A new method of determining the state of water and agricultural areas in real time. Environ. Res. Manag. 75(2), 28–35 (2019)
B. Gizatullin, M. Gafurov, A. Rodionov, G. Mamin, C. Mattea, S. Stapf, S. Orlinskii, Proton-radical interaction in crude oil—a combined NMR and EPR Study. Energy Fuels 32(11), 11261–11268 (2018)
A.I. Zhernovoi, A.A. Komlev, S.V. D’yachenko, Magnetic characteristics of MgFe2O4 nanoparticles obtained by glycine–nitrate synthesis. Tech. Phys. 61(2), 302–305 (2016)
S.V. Dyachenko, M.A. Vaseshenkova, K.D. Martinson, I.A. Cherepkova, A.I. Zhernovoi, Synthesis and properties of magnetic fluids produced on the basis of magnetite particles. Russ. J. Appl. Chem. 89(5), 690–696 (2016)
R.V. Davydov, V.I. Antonov, V.V. Yushkova, N.M. Grebenikova, V.I. Dudkin, A new algorithm for processing the absorption and scattering signals of laser radiation on a blood vessel and human tissues. J. Phys: Conf. Ser. 1236(1), 012079 (2019)
B. Yavkin, M. Gafurov, M. Volodin, G. Mamin, S.B. Orlinskii, EPR and double resonances in study of diamonds and nanodiamonds. Exp. Methods Phys. Sci. 50, 83–113 (2019)
H. Yu, B. Liu, Successful use of pharyngeal pulse oximetry with the oropharyngeal airway in severely shocked patients. Anaesthesia 62(7), 734–736 (2007)
R. Golpe, A. Jiménez, R. Carpizo, J.M. Cifrian, Utility of home oximetry as a screening test for patients with moderate to severe symptoms of obstructive sleep apnea. Sleep 22(7), 932–937 (1999)
R.N. Khizbullin, Dual-channel optical pulse oximeter on the base of laser sensors to solve actual problems in medical practice. Fotonika 1, 144–157 (2017)
A.S. Grevtseva, V.V. Davydov, VYu. Rud’, Development of methods for results reliability raise during the diagnosis of a person’s condition by pulse oximeter. J. Phys: Conf. Ser. 1135(1), 012056 (2018)
R.V. Davydov, M.S. Mazing, V.V. Yushkova, A.V. Stirmanov, VYu. Rud, A new method for monitoring the health condition based on nondestructive signals of laser radiation absorption and scattering. J. Phys: Conf. Ser. 1410(1), 012067 (2019)
A.S. Grevtseva, V.V. Davydov, K.V. Greshnevikov, VYu. Rud, A.P. Glinushkin, Method of assessment the degree of reliability of the pulse wave image in the rapid diagnosis of the human condition. J. Phys: Conf. Ser. 1368(2), 022072 (2019)
N.A. Ivliev, V.V. Podlipnov, R.V. Skidanov, A compact imaging hyperspectrometer. J. Phys: Conf. Ser. 1368(2), 022053 (2019)
V.A. Blank, Y.S. Strelkov, R.V. Skidanov, Axicon for imaging spectrometer. J. Phys: Conf. Ser. 1368(2), 022003 (2019)
M.Y. Marusina, A.V. Fedorov, V.E. Prokhorovich, N.V. Tkacheva, A.L. Mayorov, Development of acoustic methods of control of the stress-strain state of threaded connections. Meas. Tech. 61(3), 297–302 (2018)
A.Yu. Zaitceva, L.P. Kislyakova, Yu.Ya. Kislyakov, S.A. Avduchenko, Analytical multisensory trainable system for diagnosing vocational aptitude of military medical specialists by ion content in the expired breath condensate. J. Phys. Conf. Ser. 1400(1), 033022 (2019)
M.Y. Marusina, E.A. Karaseva, Automatic segmentation of MRI images in dynamic programming mode. Asian Pacific J. Cancer Prev. 19(10), 2771–2775 (2018)
M.Ya. Marusina E.A. Karaseva, Application of fractal analysis for estimation of structural changes of tissues on MRI images. Russ. Electron. J. Radiol. 8(3), 107–112 (2018)
T.N. Kiryakova, M.Ya. Marusina, P.V. Fedchenkov, Automatic methods of contours and volumes determination of zones of interest in MRI images. Russ. Electron. J. Radiol. 7(2), 117–127 (2017)
M.Ya. Marusina, A.P. Volgareva, V.S. Sizikov, Noise suppression in the task of distinguishing the contours and segmentation of tomographic images. J. Opt. Technol. (A Translation of Opticheskii Zhurnal) 82(10), 673–677 (2015)
Y.I. Neronov, D.D. Kosenkov, Development of an NMR relaxometer for determining magnetization dynamics of water protons in living issuets and its use for evaluating age-related changes. Tech. Phys. 64(7), 1055–1059 (2019)
Y.I. Neronov, N.N. Seregin, Development and study of a pulsed magnetic induction meter based on nuclear magnetic resonance for high magnetic fields. Meas. Tech. 60(8), 818–822 (2017)
A.S. Alexandrov, A.A. Ivanov, R.V. Archipov, M.R. Gafurov, M.S. Tagirov, Pulsed NMR spectrometer with dynamic nuclear polarization for weak magnetic fields. Magn. Reson. Solids 21(2), 19203 (2019)
A.P. Burlaka, A.V. Vovk, A.A. Burlaka, K.B. Iskhakova, S.N. Lukin, Rectal cancer: redox state of venous blood and tissues of blood vessels from electron paramagnetic resonance and its correlation with the five-year survival. Biomed. Res. Int. 13, 4848652 (2018)
K.J. Smirnov, S.F. Glagolev, N.S. Rodygina, N.V. Ivanova, Photocathodes for near infrared range devices based on InP/InGaAs heterostructures. J. Phys: Conf. Ser. 1038(1), 012102 (2018)
K.J. Smirnov, InP/InGaAs photocathode for hybrid SWIR photodetectors. J. Phys: Conf. Ser. 1368(2), 022073 (2019)
K.J. Smirnov, S.F. Glagolev, G.V. Tushavin, High speed near-infrared range sensor based on InP/InGaAs heterostructures. J. Phys: Conf. Ser. 1124(1), 022014 (2018)
Acknowledgements
The work is performed in the project’s boundaries of the State Task № 075-01073-20-00 “Microfluidic devices and systems for imitation and research processes in living organisms” № CУ HИP 074-2019- 0010.
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Mazing, M.S., Zaitceva, A.Y., Kislyakov, Y.J. (2021). Development of a Method for Assessing of the Oxygen Supply of Tissues Based on a Multi-channel Spectrum Analyzer. In: Velichko, E., Vinnichenko, M., Kapralova, V., Koucheryavy, Y. (eds) International Youth Conference on Electronics, Telecommunications and Information Technologies. Springer Proceedings in Physics, vol 255. Springer, Cham. https://doi.org/10.1007/978-3-030-58868-7_26
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