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Journal Biomedical Radioelectronics №2 for 2014 г.
Article in number:
The electromagnetic radiation of ultra-high frequency is modifies of shielding-induced changes of nociception and activity of opioid system in snails
Keywords: electromagnetic radiation of ultra-high frequency electromagnetic shielding opioid system nociception snails
Authors:
N.A. Temuryants - Dr.Sc.(Biol.), Professor, Taurida National V.I. Vernadsky University. E-mail: timur328@gmail.com
A.S. Kostyuk - Ph.D.(Biol.), Senior Lecturer, Taurida National V.I. Vernadsky University. E-mail: alexkostyuk@mail.ru
K.N. Tumanyants - Ph.D.(Biol.), Senior Lecturer, Taurida National V.I. Vernadsky University. E-mail: tumanyantsk@gmail.com
Abstract:
It has been shown that opioid system plays an important role in the mechanisms modification shield-induced change of nociception in snails under the influence of low intensity electromagnetic radiation of ultra-high frequency. Its activity under the action of electromagnetic factors of various parameters changes by phase: the initial decrease in the activity of opioid systems replaced its subsequent increase, and then a progressive decrease in its activity. Additional action electromagnetic radiation of ultra-high frequency on the snails with modified nociception by shielding blocks inhibition of opioid system in the first day of shielding, causes an earlier and continuous opioid conditionality of shield-induced analgesia and also prevents the development of tolerance of opioid system.
Pages: 32-40
References

  1. Burlakova E.B., Kondratov A.A., Mal'czeva E.L. Sverxslaby'e vozdejstviya ximicheskix soedinenij i fizicheskix faktorov na biologicheskie sistemy' // Biofizika. 2004. T. 49. № 4. S. 551-564.
  2. Gall' L.N. V mire sverxslaby'x. Nelinejnaya kvantovaya bioe'nergetika: novy'j vzglyad na prirodu zhizni. SPb.: Piter. 2009. 317 s.
  3. Presman A.S. E'lektromagnitnoe pole i zhivaya priroda. M.: Nauka. 1968. 288 s.
  4. Chuyan E.N., Temur'yancz N.A., Moskovchuk O.B., Chirskij N.V., Verko N.P, Tumanyancz E.N., Ponomareva V.P. Fiziologicheskie mexanizmy' biologicheskix e'ffektov nizkointensivnogo E'MI KVCh. Simferopol': E'l'in'o. 2003. 440 s.
  5. Temur'yancz N.A., Chuyan E.N., Kostyuk A.S., Tumanyancz K.N., Demczun N.A., Jarmolyuk N.S. E'ffekty' slaby'x e'lektromagnitny'x vozdejstvij u bespozvonochny'x zhivotny'x (regeneracziya planarij, nocziczepcziya mollyuskov). Simferopol': DIAJPI. 2012. 303 s.
  6. Lednev V.V. Bioe'ffekty' slaby'x kombinirovanny'x, postoyanny'x i peremenny'x magnitny'x polej // Biofizika. 1996. T. 41, № 1. S. 224-232.
  7. Avakyan S.V. Mikrovolnovoe izluchenie ionosfery' kak faktor vozdejstviya solnechny'x vspy'shek i geomagnitny'x bur' na biosistemy' // Opticheskij zhurnal. 2005. T. 72. № 8. S. 41-48.
  8. Avakyan S.V. Microwave Emission of Rydberg States as a New Factor of Solar-Biosphere Relations. Proceeding of 5-th international conference Problems of Geocosmos. May 24-28. 2004. Saint-Petersburg. 2004. P.4.
  9. Breus T.K., Chibisov S.M., Baevskij R.M., Shebzuxov K.V. Xronostruktura bioritmov serdcza i vneshnej sredy'. M.: Izd-vo Rossijskogo un-ta druzhby' narodov. 2002. 232 s.
  10. Gurfinkel'Ju.I., Lyubimov V.V. E'kranirovannaya palata v klinike dlya zashhity' paczientov s ishemicheskoj bolezn'yu serdcza ot vozdejstviya geomagnitny'x vozmushhenij // Mediczinskaya biofizika. 2004. T. 23. № 3. S. 34-39.
  11. Samsonov S.N., Sokolov V.D., Strekalovskaya A.A., Pertova P.G. On the relationship of cardiovascular disease exacerbation to heliogeophysical disturbances // Proc. XXVII Annual Seminar. Apatity. 2004. P. 134-137.
  12. Beczkij O.V., Jaremenko Ju.G. Kozha i e'lektromagnitny'e volny' // Millimetrovy'e volny' v biologii i mediczine. 1998. №1 (11). S. 3-14.
  13. Devyatkov N.D., Golant M.B., Beczkij O.V. Millimetrovy'e volny' i ix rol' v proczessax zhiznedeyatel'nosti. M.: Radio i svyaz'. 1991. 168 s.
  14. Lebedeva N.N. Sensorny'e i subsensorny'e reakczii zdorovogo cheloveka na perifericheskoe vozdejstvie nizkointensivny'x MM-voln // Millimetrovy'e volny' v biologii i mediczine. 1993. №2. S.5-24.
  15. Chuyan E.N., Dzheldubaeva E'.R. Mexanizmy' antinocziczeptivnogo dejstviya nizkointensivnogo millimetrovogo izlucheniya. Simferopol': DIAJPI. 2006. 508 s.
  16. Chuyan E.N., Temur'yancz N.A., Ponomareva V.P., Chirskij N.V. Funkczional'naya asimmetriya u cheloveka i zhivotny'x: vliyanie nizkointensivnogo e'lektromagnitnogo izlucheniya millimetrovogo diapazona. Simferopol': «E'l'in'o», 2004. 440 s.
  17. Prato F.S., Kavaliers M., Thomas A.W. Extremely low frequency magnetic fields can either increase or decrease analgesia in the land snail depending on field and light conditions // Bioelectromagnetics. 2000. V. 2. P. 287-301.
  18. Del Seppia C., Luschi P., Ghione S., Crosio E., Choleris E., Papi F. Exposure to a hypogeomagnetic field or to oscillating magnetic fields similarly reduce stress-induced analgesia in C57 male mice // Life Sci. 2000. V. 66(14). P. 1299-1306.
  19. Choleris E., Del Seppia S., Thomas A.W., Luschi P., Ghione G., Moran G.R., Prato F.S. Shielding, but not zeroing of the ambient magnetic field reduces stress-induced analgesia in mice // Proceedings. Biological sciences. The Royal Society. 2002. V. 269. P. 193-201.
  20. Frey A.H. Electromagnetic field interactions with biological systems // FASEB J. 1993. V. 7 (2). R. 272-281.
  21. Prato F.S., Kavaliers M., Carson J.J.L. Behavioural evidence that magnetic field effects in the land snail, Cepaea nemoralis, might not depends on magnetite or induced electric currents // Bioelectromagnetic. 1996. V. 17. P. 123-130.
  22. Achaval M., Penha M.A.P., Swarowsky A., Rigon R., Xavier L.L., Viola G.G., Zancan D.M. The terrestrial Gastropoda Megalobulimus abbreviatus as a useful model for nociceptive experiments. Effects of morphine and naloxone on thermal avoidance behavior // Brazilian J. Medical and Biological Res. January 2005. V. 38. № 1. P. 73-80.
  23. Evropejskaya konvencziya o zashhite pozvonochny'x zhivotny'x, ispol'zuemy'x dlya e'ksperimentov ili v iny'x nauchny'x czelyax (Strasburg, 18 marta 1986 g.).
  24. Bogatina N.I., Shejkina N.V., Marty'nyuk V.S., Temur'yancz N.A., Pavlyukov D.V. Metod polucheniya krajne slaby'x postoyannogo magnitnogo i e'lektricheskogo polej i xorosho vosproizvodimogo kombinirovannogo magnitnogo polya dlya biologicheskix issledovanij // Ucheny'e zapiski Tavricheskogo naczional'nogo universiteta im. V.I. Vernadskogo. Ser. Biologiya. Ximiya. 2010. T. 23. № 2. S. 54-65.
  25. Grigor'ev Ju.G. Reakczii organizma v oslablennom geomagnitnom pole // Radiaczionnaya biologiya. Radioe'kologiya 1995. T. 35 (1). S. 3-18.
  26. Patent № 48094 (Ukraina MPK51 A 01 K 61/00).
  27. Belova N.A. Ermakov A.M., Znobishheva A.V., Srebniczkaya L.K., Lednev V.V. Vliyanie kpajne claby'x pepemenny'x magnitny'x polej na pegenepacziyu planapij i gpavitaczionnuyu peakcziyu pactenij // Biofizika. 2010. T. 55. Vy'p. 4. S. 704-709.
  28. Lednev V.V., Belova H.A., Rozhdestvenskaya Z.E., Tiras X.G. Bioe'ffekty' slaby'x peremenny'x magnitny'x polej i biologicheski predvestniki zemletryasenij // Geofizicheskie proczessy' i biosfera. 2003. T. 2 (1). S. 3-11.
  29. Thomas A.W., Kavaliers M., Prato F.S., Ossenkopp K.-P. Pulsed magnetic field induced «analgesia» in the land snail, Cepaea nemoralis, and the effects of μ, δ, and k opioid receptor agonists-antagonists // Peptides. 1997. V. 18. P. 703-709.
  30. Wilson B.W., Anderson L.E., Hilton D.I., Phillips R.D. Chronic exposure to 60-Hz electric fields: effects on pineal function in the rat // Bioelectromagnetics. 1981. V. 2(4). P. 371-380.
  31. Vollrath L., Spessert R., Kratzsch T., Keiner M., Hollmann H. No short-term effects of high-frequency electromagnetic fields on the mammalian pineal, gin // Bioelectromagnetics. 1997. V. 18. P. 376-387.
  32. Bogatina N.I., Shejkina N.V. Vliyanie nizkochastotnogo magnitnogo polya na gravitropicheskuyu reakcziyu rastenij pri otsutstvii postoyannoj sostavlyayushhej magnitnogo polya // X Mezhdunar. kry'mskaya konf. «Kosmos i biosfera». Koktebel'. Ukraina. Sentyabr' 23-28. 2013. S. 19-21.
  33. Polk G., Fitchen F., Schumann W.O. Resonances of ears ionosphere cavity - extremely low frequency reception at Kingston // Radio Propagation. 1962. V. 3. Is. 66. P. 313.
  34. Schumann W.O. Uber die Damfung der elecromagnetischen Eigenwingungen des Systems Erde-Luft-Ionosphare // Naturwissenschaft. 1982. V. 7. P. 250-254.
  35. Cherry N. Schumann resonances, a plausible biophysical mechanism for the human health effects of solar/geomag­netic activity // Natural Hazards. 2002. V. 26. P. 279-331.
  36. Temur'yancz N.A., Vladimirskij B.M., Tishkin O.G. Sverxnizkochastotny'e e'lektromagnitny'e - signaly' v biologicheskom mire. Kiev: Naukova dumka. 1992. 187 s.
  37. Temur'yancz N.A. O biologicheskoj e'ffektivnosti slabogo E'MP infranizkoj chastoty' // Problemy' kosmicheskoj biologii. 1982. T. 43. S. 128-139.
  38. Temur'yancz N.A., Evstaf'eva E.V., Makeev V.B. Korrekcziya lipidnogo obmena u kry's s ogranichennoj podvizhnost'yu peremenny'm magnitny'm polem infranizkoj chastoty' // Biofizika. 1985. T. 30. № 2. S. 113-116.
  39. Marty'nyuk V.S. K voprosu o sinxroniziruyushhem dejstvii sverxnizkochastotny'x magnitny'x polej na biologicheskie sistemy' // Biofizika. 1992. T. 37. № 4. S. 569-573.
  40. Marty'nyuk V.S., Marty'nyuk S.B. Vliyanie e'kologicheski znachimogo peremennogo magnitnogo polya na metabolicheskie parametry' golovnogo mozga zhivotny'x // Biofizika. 2001. T. 46. № 5. S. 910-914.
  41. Wever R.A. Human circadian rhythms ubder the influence of weak electric fields and the different aspects of these studies // Int. J. Biometeorol. 1973. V. 17, Is. 3. P. 227-232.
  42. Prato F.S., Desjardins-Holmes D., Keenliside L.D., DeMoor J.M., Robertson J.A., Stodilka R.Z., Thomas A.W. The detection threshold for extremely low frequency magnetic fields may be below 1000 nT-Hz in mice // Bioelectromagnetics. 2011. V. 32. Is. 7. P. 561-569.
  43. Prato F.S., Desjardins-Holmes D., Robertson J.A., Keenliside L.D., Thomas A.W. Introduction of a sinusoidal magnetic field into a hypogeomagnetic environment: effect on nociceptive behavior in CD-1 mice // Anual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association. Davos. Switzerland. June 14-19. 2009. P. 12-15.
  44. Temur'yancz N.A., Marty'nyuk V.S., Jarmolyuk N.S., Shexotkin A.V. Vliyanie slaby'x e'lektromagnitny'x faktorov na ul'tradiannuyu ritmiku lokomotornoj aktivnosti planarij Dugesia tigrina // Ucheny'e zapiski Tavricheskogo naczional'nogo universiteta im. V.I. Vernadskogo. Ser. Biologiya, ximiya. 2011. T. 24 (63). № 2. S. 268-278.
  45. Temur'yancz N.A., Kostyuk A.S. Rol' opioidnoj sistemy' na razny'x e'tapax modifikaczii e'kranoobuslovlenny'x izmenenij nocziczepczii nazemny'x mollyuskov slaby'm PeMP SNCh // Ucheny'e zapiski Tavricheskogo naczional'nogo universiteta im. V.I. Vernadskogo. Ser. Biologiya, ximiya. 2012. T. 25 (64). №1. S. 203-213.