New approaches to understanding cancer treatment through the natural laws
An Interview with Dr Vladimir Bezrookove
Vladimir Bezrookove PhD is involved in the genetic research of cancer at the
Leiden University Medical Centre in the Department of Molecular Biology. He
has published a number of scientific journals about his cutting edge researches.
Alongside scientific methods of research, Dr Bezrookove also seeks answers by
application of the natural laws. We asked Vladimir about his particular approach
to this important research.
Environment is vital
"The problem with science," Vladimir began, "is that it concentrates
primarily on physical aspects. The cells in our bodies contain so many intricate
and dedicated mechanisms and fail-safe operations that theoretically it would
seem impossible to get cancer - and yet we do. Science focuses mainly on the
physical part of our body, and now scientists are beginning to dig deeper into
the study of the cell and its nucleus, hoping to find clues about the causes
of cancer in the very structure of DNA itself. At the genetic level there are
many anomalies in cancerous cells, sometimes as small as a single change in
the DNA sequence, sometimes as large as the complete disappearance of a portion
of a gene or even a whole chromosome that can then distort the fail-safe mechanisms
in a cell's life cycle."
"Those who study cancer can see what the outcome will be if a certain
gene is mutated or missing. But why should such a mutation or deletion of a
gene happen in the first place? That is a question that remains unanswered.
A cell is a very complex entity; it is a universe on its own and our genetic
book is very complex. Because of the human genome project we have a reasonable
idea of how many genes humans have, but even so we cannot rule out the complex
and intricate synergistic co-operation of the genes. You see we have the same
number of genes as specific types of plants, but we are not plants! You are
not a plant! So is there a complex connection between genes, as a network of
call and response, or does the answer lie in the diversity of proteins, as proposed
by a new field of science called Proteomics? But what if there is more than
genes that facilitate our existence? What about the non-physical world of call
and response? What about the rarefied electrical and unseen worlds?"
"I have come to believe through my studies within the Template Foundation
in the Netherlands that the key may lie in a better understanding of the electromagnetic
and energy systems of a person. These cannot yet be tangibly measured by science,
but we know that they exist, such as the energy fields of the human aura. It
is clear that a plant or an animal does not function at the same energy levels
as a human. It is true that all life is built from proteins, but human beings
are different from all other life forms on the planet. Humans, for example,
have a profound effect on their surroundings. We can create specific environments;
if it is cold we can make it warm, if uncomfortable we can make it comfortable.
Can we not also create inner environments? Someone may say, for instance, that
they are feeling blue. Might there be a particular protein in a person's body
that may 'out of the blue' make us feel down or sad? I wouldn't be surprised
if at some point a scientist will find a protein or substance in the brain that
causes the body to respond to depression or causes a feeling of tiredness, irritability
or whatever. But think about it - might it be that by starting to generate good
or bad feelings in ourselves, we start to build an environment that our body
responds to and produces proteins accordingly?"
"So what if cancer is triggered by the inner environment that we humans
have created? Cancer must begin somewhere, but where? Yes, if someone consumes
large quantities of cancer-causing agents, then it is likely that he or she
will develop the disease. This is an obvious environmental issue, in that we
influence our inner environment by what we take into ourselves. But there are
more influences on our environment than the food we eat."
Vladimir views cells as single entities cohabiting and inter-connected within
an environment. He wonders about the dynamic and diverse nature of cancer. "There
are different characteristics in each human organ: it is so dynamic that even
two people with the same type of cancer will not have the same genetic anomalies.
(The only exception to this is cancer involving the blood, which might tell
us something profound about the nature of the blood). So, can we say that the
end result may appear the same although the cause can vary? Can we say that
our thinking patterns, the way we live our life, the way we face difficulties,
the way we respond - that all this creates an inner environment that allows
certain responses in our body that can trigger cancer? I am trying to explore
these possibilities at laboratory level."
The role of numbers and colour
Vladimir specialises in the study of colorectal cancer and has been researching
how the natural laws might give new understandings of this area. As he explains:
"You see I am applying researches that I have undertaken within the Template
Foundation. Environmental issues need to take into account the rarefied electrical
worlds and energies, speeds and frequencies, and the understanding that all
energy is cloaked with colour. Our research has shown that the large bowel is
blue in nature or, in other words, its environment is on the same frequency
as blue on the seven-fold spectrum. Blue has a specific speed and frequency
and the cells in the intestine react and are programmed to function within a
blue frequency. If a different frequency is introduced into that environment,
then it can influence and change the environment and cause the cellular structure
to go into a state of imbalance."
"Now it is interesting that in a certain type of colorectal cancer it
is found that more than 90% of cases are due to mutation in a gene called APC
which is on chromosome 5. Applying numbers and colours in the equation, we see
that the fifth colour in the spectrum is blue! Perhaps we can look at chromosomes
according to the colour spectrum from red to violet through numbers 1 to 22
of the chromosomes - plus the sex chromosomes. Chromosome 5 would then correlate
to blue as would chromosome 12. Now interestingly enough there is another gene
on chromosome 12 which also appears to be involved in the development of colorectal
cancer! Is this just coincidence?"
Furthermore a characteristic of the tumour cells of colorectal cancer is that
they have more than 46 chromosomes. So Vladimir wondered if the body is not
replicating the cells to compensate for the mutation of the abnormal gene. His
researches are taking him into new areas that still need to be verified under
laboratory conditions.
"It is important that new theories and understandings are thoroughly tested,
especially when dealing with human health, and my work is still at an early
stage. Another area of my research is to do with the sequence of events in the
development of cancer. The progression of cancer is a chain reaction of the
mutation of different genes, and it is necessary to study which genes mutate
and why. If we are to find an effective way forward in the treatment of cancer,
we need to understand its causes and the way it develops so that we can also
look more scientifically at prevention than we currently do."
"We know very well what can happen if certain genes mutate, but we need
to understand the sequence of how this happens. Random tests have shown that
many genes can be involved, but we still do not know what follows what. So I
am hoping that, through this new method of approach, we will be able to come
to a better understanding of the sequence of tumour development and progression
at genetic level."
Vladimir hopes that by applying the knowledge and tools of the natural laws
into his field he can substantiate the importance of a more far-reaching study
of the electromagnetic realms of a human. The physical appearance of the cancer
is the symptom of what has been caused in the realms that science is less able
to measure, and which has more to do with understanding environmental issues
from a much broader aspect - inner and outer.
Where now
I asked Vladimir how he foresees the future of this area of research and he
explained that science is becoming increasingly desperate. "Yes, we've
cracked the code, the human genome - but what if this doesn't solve many of
the challenges we are facing? The cracking of the code helps us to understand
genes, but what is beyond genes that may be more important to understand? This
is what I am trying to understand."
Interviewer
Marion Verweij, Holland
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