Telomerase Emulation Device

On behalf of our colleagues, we express our general deep gratitude to Vlail Petrovich Kaznacheyev and to all those who agreed to read texts, give advice, express critical judgments.

Vlail Petrovich Kaznacheyev (July 17, 1924 Tomsk - October 13, 2014, Novosibirsk) - a Soviet scientist in the field of medicine, biophysics, ecology, sociology, pedagogy; doctor of medical sciences, academician of the Russian Academy of Medical Sciences and RAS (after the association), professor, counselor at the Directorate of the Central Scientific Library of the Russian Academy of Medical Sciences of the Russian Academy of Medical Sciences.

Significant scientific achievement of V.P. Kaznacheyev is the discovery of "The phenomena of intercellular distant electromagnetic interactions in the system of two tissue cultures," which was entered in the State Register of Discoveries of the USSR under No. 122 with the date of priority of February 15, 1966. The opening formula states: "Experimentally established previously unknown the phenomenon of distant intercellular electromagnetic interactions between two tissue cultures when exposed to one of these factors of biological, chemical or physical nature with a characteristic reaction of another (intact) culture in wigley di mirror cytopathic effect, which determines cell system as a detector of modulation features of electromagnetic radiation. " The essence of the discovery is the ability to transfer biological information from one culture of another cell.
In 2014, Professor of Nuclear Engineering and Radiobiology Charles L. Sanders, in a letter to the editor of the Dose-Response Magazine "Speculations about Bystander and Biophotons", discussing the results of Treasury V.P. and modern data on distant intercellular interactions, concluded: "Mothersill has demonstrated the possible transfer of the signal by photons from the animal to the animal, which Gurvich and Kaznacheyev showed in vitro. The consequences of these observations are enormous "(" Mothersill has demonstrated the potential photon signaling among animals as Gurwitsch and Kaznacheyev both done in vitro. The ramifications of these observations are enormous ").

Exactly this work was re-thought and refined, in terms of modern technologies and the stage of development of science, it became the basis for the implementation of the Telomerase Emulation Project project and the creation of the TED-Fusion.

More than 10 years continued research and attempts to use the effect
distant extracellular electromagnetic interactions in practice.
In 2003, studies were launched with the first samples of devices
TED-Fusion (preview version). Research continued until 2017.
Unfortunately, the use of double-blind testing is not
suitable for this study (it is impossible to create a control group). Therefore, statistical compilation data was used.
Analysis results:
Reducing the rate of telomere degradation.

Fig1

Fig 2

In 2018, the production of a new version of the TED-Fusion device began.

HOME