Prof. Dr. Natalya A. Dyuzhikova
Doctor of Biological Sciences — Head of the Laboratory of Genetics of Higher Nervous Activity, Pavlov Institute, RAS
Institution: Institute of Physiology named I.P. Pavlov, Russian Academy of Sciences, St. Petersburg
Role: Head of the Laboratory of Genetics of Higher Nervous Activity
Publications: 50+ publications and research projects (2001–present)
Research focus: Integrative mechanisms of adaptive and pathological brain states under extreme influences
Institute page: infran.ru/labs/Dyuzhikova_r.htm
Background
Prof. Dr. Natalya Dyuzhikova is a Doctor of Biological Sciences and Head of the Laboratory of Genetics of Higher Nervous Activity at the Pavlov Institute of Physiology (Russian Academy of Sciences) — one of Russia's oldest and most distinguished physiology research centers. Her laboratory specializes in the investigation of integrative mechanisms underlying adaptive and pathological states of the brain under extreme influences, including high-frequency electromagnetic radiation.
Her research combines genetics, molecular biology, and behavioral neuroscience to study how hereditary characteristics of the nervous system mediate susceptibility to environmental stressors including EMF. She has led and co-authored over 50 publications covering chromosome aberrations, epigenetic effects, stress gene expression, and behavioral outcomes in rat models with genetically contrasting nervous system excitability.
Contributions to Aires Research
Prof. Dyuzhikova has been the lead biological investigator in the multi-stage IFRAN program studying the effects of Wi-Fi radiation on rats and honey bees, with and without Aires resonators. She is among the most cited researchers in the Aires scientific portfolio.
Chromosome Aberrations (2018, peer-reviewed journal): Lead author of the peer-reviewed study showing that Wi-Fi router exposure increases chromosome aberrations in rat bone marrow 3.9–4.5×, and that Aires Defender Pro resonators reduce this effect. Published in Electromagnetic Waves and Electronic Systems, Vol. 23(1). Read study →
IFRAN Stage 1 (2016): Wi-Fi router caused 4.5× rise in rat chromosome aberrations; Aires Defender reduced damage 4-fold. Read study →
Honey Bee hsp70 Study (2019, IFRAN Stage 5): Wi-Fi router weakened the hsp70 stress-response gene in honey bee brains; Aires Defender Pro restored it to control level. Read study →
5G Honey Bee Study (2020): Demonstrated universal protective effect of Lifetune microprocessors restoring honey bee behavior under 5G router exposure. Read study →
Rat Behavior Under Wi-Fi (2020): Aires Defender Pro normalized behavior of rats with contrasting nervous system excitability under Wi-Fi exposure. Read study →
Related Aires Studies
- Peer-Reviewed: Wi-Fi Router Increases Chromosome Aberrations 4× (2018)
- IFRAN Stage 1: 4.5× Chromosome Damage; Aires Reduces 4-Fold (2016)
- IFRAN Stage 5: Honey Bee hsp70 Stress Gene Restored by Aires (2019)
- 5G Honey Bee Study: Lifetune Restores Behavior (2020)
- 2025 Study: Lifetune Zone Max Normalizes Wi-Fi6 Blood Effects in Rats