Tamar Tsibadze's scientific contributions
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Publications (4)
Geomagnetic field (GMF) is characterized by a strength of a few nT; however, during geomagnetic storms (GMSs), it can be sharply increased hundreds of times and pose a serious threat to magneto-sensitive people. A key scientific question is: How to compensate the possible negative influence of GMSs. The objective of the study was to determine the e...
Evolutionarily, a human organism is adapted to the natural geomagnetic environment and its slight alterations. However, during geomagnetic storms (GMSs), the strength of the geomagnetic field (GMF) sharply increased hundreds of times and can pose a serious threat to people. We examine the effects of controlled compensation in the time-varying compo...
We tested the hypothesis whether the geomagnetic field (GMF) when disturbed can have effects on human autonomic nervous system (ANS) causing specific sensitive stress-reactions. Experiments were performed in both: natural conditions on days of low and high GMA and by the simulation of different GMA using the device of geomagnetic storms (GMSs) comp...
Background: The geomagnetic environment is very sensitive to changes in "Space weather" (SW) and its manifestations on the Earth. The human body is adapted evolutionarily to the slight alterations of the geomagnetic field (GMF). Objective: The aim of this work is to test the hypothesis on whether different levels of GMF causing specific stress-reac...
Citations
... Research is ongoing to develop rooms that compensate for external magnetic fields [87], and magnetically-shielded wards are already available in a Moscow hospital to care for cardiovascular patients [88]. Discussions are underway to add information on space weather to improve on the forecast now provided based on meteorological conditions. ...
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... A few studies have indicated that the exposure of adult humans to HMF leads to decreased heart rate and increased heart rate variability (Gurfinkel et al., 2016;Demin et al., 2021). Long-term monitoring of cardiac activity indicated a relationship between heart rate variability and weak natural geomagnetic variations in rabbits (Chibisov et al., 2004;Gmitrov and Gmitrova, 2004), rats (Kuzmenko et al., 2019), and humans (Chernouss et al., 2001;Janashia et al., 2022). ...
... Research shows that daily activity of the autonomic nervous system not only responds to changes in solar and geomagnetic activity, but is also synchronized with time-varying magnetic fields associated with geomagnetic field line resonances and Schumann resonances that coincide with physiological rhythms [9], [10], [11] and may affect human health [12], [13], [14]. ...
