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Cancer, Stem Cells Chemical Environment
Adaption Guidance
Both Food and Fasting have been suggested
as a means of curing cancer. Again the main factor here is the
changing of the chemical environment in the cell in the absence of
food. Food changes the chemical environment and therefore changes
the input reactants of the bio-condensation reaction and
consequentially the biologics including the Defect Stressor. Fasting
forces the cells to unravel the internal proteins in order to
recover the endogenic energies locked-in at the time of the
biosynthesis reactions. Such reverse reactions, decomposition of the
protein also extends to the cancer cells.
This trajectory of cancer treatment, however, is also particularly
apt because change of chemical environment of cells is also a
necessary suggested path for blood cancers. Four mechanisms can be
suggested for blood cancers obtaining in the body and all starts
from the stem cells in the bone marrow. Resetting the stem cells
once cancer has set-in requires changing the chemical environment of
the bone marrow, in addition to killing off the prevailing Cancer
cells already produced.
Implementing the change of chemical environment of the bone marrow
stem cells, however, could be somewhat challenging in that some
biomedical engineering is also required. Osmotic Pressure
differential may have to be created to induce a directional
diffusive flow of the preferred chemicals into the bone marrow.
There may also be the limitation of brittle bone due to osteoporosis,
making the bone unable to bear the mechanical potential that may be
created to bring about the Osmotic Pressure differential. This may
also be particularly true of the old. Besides the olds tend to set
be on the food they can eat as their means become limited from not
being able to generate excess disposable income to finance food types.
The bioactivity assessment in this cancer
treatment approach then is the determining of the cancer-ignition
context to evolve an identity of the
Defect Stressor
as to determine the sort of biologics from food that is a reactant
to the bio-condensation producing the defective gene. Once
determined, it may then be possible to manage the diet as to
consequentially change the bio-condensation reactions and hence the
cancer growth trajectory.
Of course, needless to observe also that the results of such
research should generate insight into the treatment of blood cancer
to the extent that the chemical environment prevailing in the bone
marrows can be changed judiciously such as to change the age and
hence mitosis and asymmetric cell division dynamic of the stem cells
as to forestall the production of Defect Stressor stem cells. Any
evaluation of the change of the bone marrow chemical environment as
such would entail eliciting the operational cancerous ignition
context of stem cells in the bone marrow.
The computed data reflecting change of chemical environment in the
bone marrow and in the context of dietary changes will be published
--as milestones are reached; on the HealthCare Medical Guidance
sales fulfillment online data-warehouse,
Cancer Treatment Bioactivity, but vested with intrinsic
indemnification and divested of any liability to us for clients' use
of data.
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