Abstract
Prognostic express diagnosis of metabolic dysregulation was tested in highly qualified athletes engaged in various Olympic sports. The method is based on laser correlation spectroscopy (LCS) of biological fluids, which has widely been approved for use in medicine and evaluation of risks for natural and anthropogenic anomalies. Evaluating the risk for metabolic dysregulations with the relevant criteria will help to objectively estimate the efficiency of preventive actions in athletes.
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Ternovoi, K.S., Kryzhanovskii, G.N., Musiichuk, Yu.I., et al., Classification of the results of blood plasma study using laser correlation spectroscopy based on semiotics of preclinical and clinical states, Ukr. Biokhim. Zh., 1998, vol. 70, no. 2, p. 53.
Akleev, A.V., Pashkov, I.A., Klopov, N.V., et al., The differential possibilities of the laser correlational spectroscopic method in the diagnosis of different pathological processes encountered among the population of the Urals radiation trace, Radiats. Biol., Radioekol., 1995, vol. 35, no. 6, p. 829.
Akleev, A.V., Pashkov, I.A., Klopov, N.V., et al., Patterns of homeostatic alterations during delayed aftereffects of radiation: Detection using laser correlation spectroscopy, Bull. Exp. Biol. Med., 1995, vol. 119, no. 5, p. 539.
Karganov, M., Alchinova, I., Arkhipova, E., and Skalny, A.V., Laser correlation spectroscopy: Nutritional, ecological and toxic aspects, in Biophysics, Misra, A.N., Ed., InTech, 2012. http://www.intechopen.com/ books/biophysics/laser-correlation-spectroscopy-nutritional-ecological-and-toxic-aspects.
Bazhora, Yu.I. and Noskin, L.A., Lazernaya korrelyatsionnaya spektroskopiya v meditsine (Laser Correlation Spectroscopy in Medicine), Odessa: DRUK, 2002.
Bilenko, A.A., Andronov, D.Yu., and Mikhova, I.A., Diagnostic possibilities of laser correlation spectroscopy of blood plasma in oncoproctology, Klin. Khir., 1996, no. 8, p. 28.
Geshelin, S.A., Bugaitsov, S.G., Andronov, D.Yu., and Mikhova, I.A., Laser correlation spectroscopy as a biophysical method of differential diagnosis of jaundice of various origin, Klin. Khir., 1996, no. 11–12, p. 7.
Yakovlev, A.A., Rybkin, A.G., and Omelchenko, V.S., The new approaches to the chronic viral Hepatitis B activity estimation, Intern. Med. Rev., 1993, vol. 1, no. 5, p. 411.
Titov, V.N., Karganov, M.Yu., Rotenko, A.A., et al., Biological functions and biological reactions. Laser correlation spectroscopy in the evaluation of intercellular medium purity–endoecology functions (lecture), Klin. Lab. Diagn., 2009, no. 6, p. 21.
Alchinova, I.B., Veiko, N.N., Dmitrieva, O.S., et al., Use of laser correlation spectroscopy for evaluation of metabolic changes in workers engaged in radiationdangerous industry, Gig. Sanit., 2006, no. 5, p. 77.
Alchinova, I.B., Serebryanyi, A.M., Pelevina, I.I., et al., Finding informative parameters when using the methods of laser correlation spectroscopy and cytogenetic investigation of buccal epithelium for ecological expertise, Ekol. Chel., 2006, no. 4, p. 128.
Karganov, M., Skalny, A., Alchinova, I., et al., Combined use of laser correlation spectroscopy and ICPAES, ICP-MS determination of macro- and trace elements in human biosubstrates for intoxication risk assessment, Trace Elem. Electrolytes, 2011, vol. 28, no. 2, p. 124.
Alchinova, I., Arkhipova, E., Sidnev, D., et al., Comparative analysis of the informative value of radioimmunoassay and laser correlation spectroscopy in myasthenia gravis, ISRN Immunol., 2014, vol. 2014, no. 4, p. 1155.
Emmanuel’, V.A., Museichuk, Yu.I., Noskin, L.A., and Noskin, V.A., Opredelenie subfraktsionnogo sostava biologicheskikh zhidkostei s pomoshch’yu lazernoi korrelyatsionnoi spektroskopii: Metod. rekomendatsii (Determination of the Subfractional Composition of Biological Fluids Using Laser Correlation Spectroscopy: Methodological Recommendations), St. Petersburg, 1997.
Utkina, M.F., Rumyantsev, S.A., Arkhipova, E.N., et al., The results of laser correlation spectroscopy method for dynamic monitoring of children and adolescents with iron deficient anemia, Patol. Fiziol. Eksp. Ter., 2013, no. 2, p. 60.
Perevoshchikov, Yu.A., Kartsovnik, S.A., and Romanchuk, A.P., Kompleksnaya otsenka sostoyaniya organizma cheloveka pri mnogosutochnykh probegakh (Complex Assessment of the Human Body Sate during Long-Term Running). Odessa: Yuridichna Lit., 2011.
Romanchuk, A.P Sanotyping in estimation of functional abilities of the athlete’s organism, Vestn. Sport. Nauki, 2008, no. 2, p. 39.
Romanchuk, A.P., Results of laser correlation spectroscopy method application in sports, Teor. Prakt. Fiz. Kul’t., 2002, no. 1, p. 35.
Karganov, M., Skalny, A., Alchinova, I., et al., Combined use of laser correlation spectroscopy and ICPAES, ICP-MS determination of macro- and trace elements in human biosubstrates for intoxication risk assessment, Trace Elem. Electrolytes, 2011, vol. 28, no. 2, p. 124.
Yoshinori, O., Historical landmarks of autophagy research, Cell Res., 2014, vol. 24, p. 9.
Sica, V., Galluzzi, L., et al., Organelle-specific initiation of autophagy molecular, Mol. Cell, 2015, vol. 59, no. 4, p. 522.
Mizushima, N., Yoshimori, T., and Ohsumi, Y., The role of Atg proteins in autophagosome formation, Annu. Rev. Cell Dev. Biol., 2011, vol. 27, p. 107.
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Original Russian Text © L.A. Noskin, L.S. Gerasimova, E.N. Yakovenko, Yu.S. Medvedeva, V.M. Govorun, V.D. Son’kin, 2017, published in Fiziologiya Cheloveka, 2017, Vol. 43, No. 4, pp. 86–93.
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Noskin, L.A., Gerasimova, L.S., Yakovenko, E.N. et al. Differentiation of serum markers of homeostasis in highly qualified athletes engaged in various sports. Hum Physiol 43, 430–436 (2017). https://doi.org/10.1134/S0362119717040120
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DOI: https://doi.org/10.1134/S0362119717040120