Physics of auroral phenomena : proceedings of the 35th Annual seminar, Apatity, 28 Februaru – 02 March, 2012 / [ed. board: A. G. Yahnin, A. A. Mochalov]. - Апатиты : Издательство Кольского научного центра РАН, 2012. - 187 с. : ил., табл.

V.I. Manykina et al. It is seen from Fig. 2 that organisms of examinees reply to practically each change of geomagnetic disturbance by the same changes in TSC, and it is observed even despite the nondisturbed level of geomagnetic disturbance. At observation point Tixie (see Fig.3) when comparing the medical and geophysical data the variations of the same type have not been found. The comparison of changes of coefficient of ECG T-wave symmetry round Yakutsk and Tixie with the meteodata (humidity, temperature, atmospheric pressure, wind speed) is shown in Figs. 4 and 5. In Figures on the ordinates the variations of meteoparameters and averaged index of ECG T-wave symmetry of examinees in relative units at Yakutsk and Tixie are plotted and on the abscissa the time from the beginning of experiment is plotted. When comparing slow changes of the index of coefficient of ECG T-wave symmetry round Yakutsk and Tixie with the meteodata the similarity has not been found. Conclusions 1. In the examinee group of different age a big interval of change of T-wave symmetry than in group of participants of the same age is observed. 2. A steady effect of geomagnetic disturbance on a cardiovascular system of half of volunteers (at the observation point of Yakutsk) taking part in the experiment even at very low values of the level of geomagnetic disturbance has been found. 3. The change of meteoparameters at the points of observation hasn't shown a stable relationship to the state of cardiovascular system of a person. Acknowledgements. The work has been financially supported by the Sakha Republic President grant of 2011 and Russian Fund for Basic Research (grants 09-02-98505-r_vostok_a and 09-02-00284-a) and Program of basic researches of Presidium of the Russian Academy of Science №16. Part 3. References 1. Martynyuk V.S, Temuryants N.A., Vladimirsky B.M. The nature hasn’t bad weather: space weather in our life, (in Russian) - Kiev: Publisher is Martynyuk V.S, 2008. - P.l 17, 160. 2. Breus Т.К. The effect of solar activity on biological objects, (in Russia). - M: Print of Institute of Space Research of the Russian Academy of Sciences, 2003.- P.8-11,13-17, 19-22. 3. Rusanov V.I. Methods for study of climate for medical purposes, (in Russian). - Tomsk: Tomsk State University, 1973.-P.191. 4. Agadzhanyan N.A., Oraevsky V.N., Makarova 1.1., Kanonidi Kh.D. Medical and Biological effects of geomagnetic disturbances. - M: IZMIRAN, 2001. - P. 47-50. 5. Tchaikovsky I. A, Fainzilberg L.S. Medical aspects of application of the FAZAGRAF device in clinical practice and under home conditions, (in Russian). Kiev, 2009. 6. Fainzilberg L.S. Information technology for diagnostics of a functional state of operator (in Russian) // USIM. 1998. №4. - P. 40-45. 7. Vishnevsky V.V. Telemedical technologies and scientific research // Ukrainian magazine of telemedicine and medical telematics. 2006. - Pt.4. №1. - P. 9-13, 55-62. 175