Innovative Biosystems and Bioengineering (May 2019)

Arterial Blood Oxygen Saturation and Its Dynamics Due to the Environmental Electromagnetic Conditions

  • Sergii Mamilov,
  • Yuriy Gorgo,
  • Sergii Esman,
  • Magdalena Vacziova,
  • Alina Prigancova,
  • Branislav Pet'ko

DOI
https://doi.org/10.20535/ibb.2019.3.2.158175
Journal volume & issue
Vol. 3, no. 2
pp. 64 – 69

Abstract

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Background. As widely known, the geomagnetic field intensity does change abruptly during global magnetic disturbances specified as magnetic storms. Those are due to the changing solar activity influencing solar wind parameters and the state of the magnetosphere. This chain of physical processes with their origin in the Sun is described as the space weather. To understand the space weather effects in the environment is most important since those are related to the biosphere as well. Namely, the low-frequency geomagnetic field dy­namics, linked with space weather conditions, seems to be a quite probable factor influencing both the pathological and functional state of a human being and biological objects, in general, during magnetic storms. Objective. In this study, the dynamics of an oxygen saturation parameter in human arterial blood is analyzed with regard to extreme space weather when magnetic storms occur. Methods. Experimental setup for measuring changes of the relative concentration of oxyhemoglobin in arterial blood (saturation of arterial blood with oxygen), is a pulse oximeter-spectrophotometer. Measurements were carried out using pulse-oximetry sensor covering the first phalanx of a finger, and laser radiation was directed to the side of the second phalanx. The He-Ne laser with a wavelength of 632 nm was used as a source of electromagnetic radiation. Observational values of the geomagnetic field with a high-time resolution (1-sec) are obtained from the midlatitude Hurbanovo Geomagnetic Observatory (Slovak Republic). Deviations/oscillation ranges regarding the average value were calculated at all frequencies, and low pass filter was applied from the "Seewave-1.7.6" package (F-filter) for frequencies of 0.1, 0.5, 0.01, 0.05, 0.001, and 0.0001 Hz. The data on magnetic storms for 2015 were derived from the file of Kyoto Geomagnetic Center which indicated the dates and the amplitudes of magnetic storms on the Earth. Results. The following variables were analyzed: the average arterial oxygen saturation at the patient’s rest, peak-to-peak value of saturation, changes in the average oxygen saturation under laser radiation. A group of 33 persons was daily monitored from March 30, 2015, to May 25, 2015. In the presence of Earth's magnetic field disturbances, the average value of arterial oxygen saturation at the state of rest in 29 persons out of 33 was 93.9 ± 0.9%, peak-to-peak value of oxygen was 1.25 ± 0.24%, and the change in the average arterial oxygen saturation under laser radiation made up 2.34 ± 0.41%. In 4 persons under study the peak-to-peak value of saturation at rest did not differ from the case of the undisturbed geomagnetic field. Conclusions. The results of this study of some blood parameters, namely the oxygen saturation (and oxygenetion) value of the arterial blood and its dynamics due to exposed laser radiation in case of both the undisturbed and disturbed GMF, can be summarized as follows: the decrease of the blood oxygenation in case of the disturbed GMF (magnetic storm conditions) is quite apparent although more detailed statistical investigations along with biophysical explanations are needed; the presence of some experimentees in the observed group who have constant sweep of arterial blood oxygen saturation is, in our opinion, an aspect to explain the different frequency of tick attacks on various people although strict medical and epidemiological investigations are needed; the dynamics of the decrease of oxygen saturation in the arterial blood of human beings exposed to laser radiation, in persons with sensitivity to radiation, may be an indicator of the degree of influence of perturbations of the geomagnetic field.

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