Bio-photon mechanism of the activation of cellular programmes: a haemopoietic precursors proliferation
- Autores: Vladimirsky EB1, Milman VD1
-
Afiliações:
- Tel Aviv University, Israel
- Edição: Volume 7, Nº 1 (2012)
- Páginas: 92-96
- Seção: Articles
- ##submission.dateSubmitted##: 11.01.2023
- ##submission.datePublished##: 15.03.2012
- URL: https://genescells.ru/2313-1829/article/view/121699
- DOI: https://doi.org/10.23868/gc121699
- ID: 121699
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Resumo
In this paper the bio-photonic mechanism of the activation
of cellular programmes is analyzed. Our basic hypothesis is
that cells and individual molecules radiate certain waves that
are close to monochromatic (i.e., have a narrow range of
radiation frequencies). The cell receptors, for their part, take
in certain monochromatic signals. In order to estimate the
value of the intensity of radiation it is necessary to refer to
the fundamental laws of electro-magnetic waves propagation
and photon emission.
The research was conducted using a model of the
haemopoietic precursors proliferation induction and the
apoptosis of the mononuclear cells of peripheral blood ex vivo.
The granulocytic colony-stimulating factor (G-CSF) in different
concentrations, including ultra-low (homeopathic) ones, was
used as the inductor of the proliferation and the inhibitor of
apoptosis. Some homeopathic preparations in high dilutions
were also included in the study. The study showed the high
efficacy of low and ultra-low (homeopathic) concentrations of
the preparations. This phenomenon may be explained with the
help of the destructive and constructive interference theory.
A calculation of the interaction of the monochromic waves
radiated by active molecules was done based on their size
and molecular mass as well as the size of the target cells.
The authors developed an original method of calculating the
effective concentration of the preparation.
of cellular programmes is analyzed. Our basic hypothesis is
that cells and individual molecules radiate certain waves that
are close to monochromatic (i.e., have a narrow range of
radiation frequencies). The cell receptors, for their part, take
in certain monochromatic signals. In order to estimate the
value of the intensity of radiation it is necessary to refer to
the fundamental laws of electro-magnetic waves propagation
and photon emission.
The research was conducted using a model of the
haemopoietic precursors proliferation induction and the
apoptosis of the mononuclear cells of peripheral blood ex vivo.
The granulocytic colony-stimulating factor (G-CSF) in different
concentrations, including ultra-low (homeopathic) ones, was
used as the inductor of the proliferation and the inhibitor of
apoptosis. Some homeopathic preparations in high dilutions
were also included in the study. The study showed the high
efficacy of low and ultra-low (homeopathic) concentrations of
the preparations. This phenomenon may be explained with the
help of the destructive and constructive interference theory.
A calculation of the interaction of the monochromic waves
radiated by active molecules was done based on their size
and molecular mass as well as the size of the target cells.
The authors developed an original method of calculating the
effective concentration of the preparation.
Sobre autores
E Vladimirsky
Tel Aviv University, IsraelTel Aviv University, Israel
V Milman
Tel Aviv University, IsraelTel Aviv University, Israel
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