ORIGINAL RESEARCH

Physiological mechanisms of the low-intensity laser radiation impact on the highly qualified athletes’ special physical performance

Bruk TM1, Terekhov PA1, Litvin FB1, Verlin SV2
About authors

1 Smolensk State Academy of Physical Culture, Sport and Tourism, Smolensk, Russia

2 Rehabilitation Center of the State School of the Olympic reserve, Bronnitsy, Moscow region, Russia

Correspondence should be addressed: Pavel A. Terekhov
42А Kirova St., apartment 11.04, Smolensk, 214018; ur.liam@68_vohceret

About paper

Author contribution: Bruk TM — analysis of brain function (neuroenergy mapping), laser therapy; Terekhov PA — physical fitness assessment, statistical analysis of the results, manuscript writing; Litvin FB — study of microcirculation and heart rate variability, manuscript writing; Verlin SV — selection of study participants.

Received: 2019-09-30 Accepted: 2019-10-21 Published online: 2019-10-31
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  1. Anokhin PK. Printsipial'nye voprosy obshchey teorii funktsional'nykh sistem. Printsipy sistemnoy organizatsii funktsiy. M.: Nauka», 1973; p. 5–61.
  2. Kuznetsova TN, Pavlov SE. Metodika primeneniya fizioterapevticheskikh sredstv (nizkoenergeticheskikh IK-lazerov) v trenirovochnom protsesse plovtsov. Metodicheskaya razrabotka dlya prepodavateley, aspirantov i studentov RGAFK. M.: RGAFK, 1997; 52 p.
  3. Dorovskikh VA, Borodin EA, Borodina GP et al. Vliyanie nizkoenergeticheskikh lazerov na svobodnoradikal'noe okislenie glyukozo-6-fosfat degidrogenazy i katalazy eritrotsitov. V sbornike: Materialy Mezhdunarodnogo kongressa "Lazer i zdorov'e–99"; Moskva, 1999; 435–36.
  4. Kozel AI, Popov GK. Mekhanizm deystviya lazernogo oblucheniya na tkanevom i kletochnom urovne. Vestnik RAMN. 2000; 2: 41–3.
  5. Ulashchik VS. Analiz mekhanizmov pervichnogo deystviya nizkointensivnogo lazernogo izlucheniya na organizm. Zdravookhranenie (Minsk). 2016; 6: 41–51.
  6. Potemkin LA. Mediko-biologicheskoe obespechenie i kvantovaya meditsina sporta vysshikh dostizheniy. M.: Izd-vo ZAO "MILTA-PKP GIT", 2001; 135 p.
  7. Krupatkin AI, Sidorov VV. Funktsional'naya diagnostika sostoyaniya mikrotsirkulyatorno-tkanevykh sistem: Kolebaniya, informatsiya, nelineynost'. Rukovodstvo dlya vrachey. M.: LIBROKOM, 2014; 498 p.
  8. Bogoslova TV. Vliyanie nizkointensivnogo lazernogo izlucheniya na fizicheskuyu rabotosposobnost' studentov instituta fizicheskoy kul'tury [dissertatsiya]. Yaroslavl', 2004.
  9. Osipova NV. Sravnitel'naya kharakteristika vliyaniya nizkointensivnogo lazernogo izlucheniya na uroven' fizicheskoy rabotosposobnosti studentov razlichnykh spetsializatsiy sportivnogo vuza [dissertatsiya]. SPb., 2008.
  10. Prokopyuk ZN. Ustoychivost' organizma sportsmenov k gipoksii i ee korrektsiya nizkointensivnym lazernym vozdeystviem [dissertatsiya]. Smolensk, 2010.
  11. Lifke MV. Dinamika gormonal'nogo statusa sportsmenov razlichnoy kvalifikatsii, vypolnyayushchikh fizicheskuyu nagruzku umerennoy moshchnosti na fone lazernogo vozdeystviya [dissertatsiya]. Kursk, 2009.
  12. Volkova AA. Vliyanie nizkointensivnogo lazernogo izlucheniya na funktsional'noe sostoyanie organizma lyzhnikov-gonshchikov, [dissertatsiya]. Smolensk, 2011.
  13. Pavlov SE., Razumov AN, Pavlov AS. Laser stimulation in medical and biological provision of qualified sportsmen training. Moscow: Publishing house "Sport", 2017; 536 p.
  14. Pavlov SE, Pavlov AS, Petrov AA. Osobennosti dinamiki chrednegruppovykh pokazateley dispersionnykh kharakteristik funktsionirovaniya miokarda khokkeistov, ispol'zovavshikh v predstartovoy podgotovke metod lazernoy stimulyatsii sportivnoy rabotosposobnosti. V sbornike: Olimpiyskiy byulleten' № 15, sost. Mel'nikova NYu, Treskin AV, Leonteva NS, Nikiforova AYu; M.: Izd-vo ZAO "Olimpiyskaya panorama", 2014; 247–51.
  15. Fokin VF, Ponomareva NV, Kuntsevich GI. Elektrofiziologicheskie korrelyaty skorosti dvizheniya krovi po sredney mozgovoy arterii zdorovogo cheloveka. Vestnik RAMN. 2013; (10): 57–60.
  16. Bollinger A. Is high–frequency flux motion due to respiration or to vasomotion activity? In: A. Bollinger et al. Vasomotion and flow motion. Prog Appl Microcirculation. Basel, Karger. 1993; 20: 52–8.
  17. Fagrell B. Problems using laser Doppler on the skin in clinical practice. Laser Doppler.– London – Los Angeles – Nicosia: Med – Orion Rublishing Company. 1994; 49–54.
  18. Fedorovich AA. VEB-kapillyaroskopiya — novye vozmozhnosti monitorirovaniya kapillyarnogo krovotoka v kozhe cheloveka. V sbornike: Materialy XII mezhdunarodnoy nauchnoy konferentsii "Mikrotsirkulyatsiya i gemoreologiya"; 01–03 iyulya 2019 g.; Yaroslavl': Kantsler 2019: 11.
  19. Murrey RK et al. Harper’s Biochemistry. Appleton & Lange, 1996; 700 p.
  20. Daniolos A, Lerner AB, Lerner MR. Action of light on frog pigment cells in culture. Rigment Cell Res. 1990; 3(1): 38–43.
  21. Tambovskiy AN, Sidorenko TA. Nekotorye rezul'taty primeneniya vnetrenirovochnogo sredstva v protsesse podgotovki grebtsov. Uchenye zapiski universiteta imeni P.F. Lesgafta. 2015; 5 (123): 182–85.
  22. Karu TY. Pervichnye i vtorichnye kletochnye mekhanizmy lazernoy terapii. V knige: Moskvin SV, Buylin VA, redaktory. Nizkointensivnaya lazernaya terapiya. M.: Tekhnika, 2000; p. 71–94.
  23. Maltsev AP. Mekhanizmy deystviya lazernogo izlucheniya na prokarioticheskie kletki. Mezhdunarodnyy studencheskiy nauchnyy vestnik. 2016; (6): 23.
  24. Filippin L, Magalhães PJ, Di Benedetto G et al. Stable interactions between mitochondria and endoplasmic reticulum allow rapid accumulation of calcium in a subpopulation of mitochondria. J Biol Chem. 2003; 278 (40): 39224–34.
  25. Schaffer M, Sroka R, Fuchs C et al. Biomodulative effects induced by 805 nm laser light irradiation of normal and tumor cells. Journal of Photochemistry and Photobiology B: Biology. 1997; 40 (3): 253–57.
  26. Eliseenko VI. Mekhanizmy vzaimodeystviya nizkoenergeticheskogo lazernogo izlucheniya IK-spektra s biologicheskimi tkanyami V sbornike: Lazery i aeroiony v meditsine pod red. Evstigneeva AR, Kaplana MA; Kaluga–Obninsk, 1997: 71–2.
  27. Krupatkin AI. Neinvazivnaya otsenka tkanevogo dykhaniya u cheloveka s ispol'zovaniem veyvlet-analiza kolebaniy saturatsii krovi kislorodom i krovotoka v mikrososudakh kozhi. Fiziologiya cheloveka. 2012; 38 (4): 67–73.
  28. Gavrilova EA, Larintseva OS. Faktory riska vnezapnoy serdechnoy smerti sportsmenov na raznykh etapakh sportivnoy podgotovki po dannym kardiologicheskogo obsledovaniya. Sportivnaya meditsina: nauka i praktika. 2018; 2: 33–6.
  29. Moskvin SV, Fedorova TA, Foteeva TS. Plazmaferez i lazernoe osvechivanie krovi. M.-Tver': OOO «Izd-vo «Triada», 2018; 416 p.
  30. Grenner D. Gormony, reguliruyushchie metabolizm kal'tsiya. V knige: R Marri, D Grenner et al, redaktory. Biokhimiya cheloveka, tom 2. M.: Mir, 1993; p. 193–204.
  31. Bayevsky RM. Cybernetic analysis of heart rate control processes. Actual problems of physiology and pathology of blood circulation. Moscow: Medicine, 1976; 161.
  32. Zhemaytite DI. Vegetativnaya reaktsiya sinusovogo uzla serdtsa i zdorovykh i bol'nykh. Analiz serdechnogo ritma. Vil'nyus: Mosklas, 1982; p. 522.
  33. Bruk TM, Terekhov PA, Osipova NV, Zyukin AV. Effektivnost' vozdeystviya kompleksnogo primeneniya fizicheskikh i ergogennykh sredstv na pokazateli spetsial'noy fizicheskoy podgotovlennosti i anaerobnoy rabotosposobnosti vysokokvalifitsirovannykh sportsmenov. Vestnik Rossiyskoy voenno-meditsinskoy akademii. 2019; 1 (65): 113–9.
  34. Tambovskiy AN. Sidorenko TA, Yurev YuN, Shurmanov EG. Vliyanie kompleksa fizioterapevticheskikh sredstv na organizm sportsmenov. Uchenye zapiski universiteta imeni PF Lesgafta. 2015; (5): 123.
  35. Elizarov NA. Adaptatsionnaya kardioprotektsiya fizicheskimi faktorami v lechenii i profilaktike ishemicheskoy bolezni serdtsa [dissertatsiya]. M., 2007.
  36. Eremeeva OV. Physiological features of the effects of biofeedback of brain potentials in athletes with dominance of metabolic heart rate modulator [dissertation]. Arkhangelsk, 2012.
  37. Jo H-G, Schmitd S, Inacker E, Markowiak M, Hinterberger Th. Meditation and attention: A controlled study on long-term meditators in behavioral performance and event-related potentials of attentional control. International Journal of Psychophysiology. 2016; 99: 33–9.
  38. Muller TA, Shilov SN. Osobennosti urovnya aktivatsii lobnoy kory i neyrometabolizma golovnogo mozga u detey 7–10 let s SDVG. Vestnik Novosibirskogo gosudarstvennogo pedagogicheskogo universiteta. 2017; 7 (5): 193–206.
  39. Moskvin SV, Kochetkov AV. Effektivnye metodiki lazernoy terapii. M.–Tver': Triada, 2016; 80 p.
  40. Pavlov SE, Pavlova TN. Tekhnologiya podgotovki sportsmenov. MO, Shchelkovo: Izdatel' Markhotin PYu, 2011; 344 p.