Dehydration And Cancer

dehydration and cancer

All cells require water,
all cancer cells require water
cancer cells will continuously send a signal to initiate growth
during dehydration, growth is slowed
rehydration returns water to the organism
cancer cells will continue to replicate and be active during dehydration, while other cells will slow their activities
cancer cells move closer to the blood vessels and neglect large scale signals
they receive "cease" signals during this
they
cease and repair
do not cease and continue sending growth signals
if the former, further body reactions occur, at larger and greater scales. Up to immune response?
Cell repair succesful if the latter

Furthermore, cancer cells internal clock will unsynchronize more as time progresses during dehydration, until they no longer respond to the body's internal clock, and once that happens they could be treated.
As they move more than other cells, these cells will be more stressed, and overall have more markers to distinguish them from healthy cells.

Once dehydration ceases, most cells will become much more active, while the cancer does not. Once they do become more active, THEY can be distinguished from the diseased cells.

Cancer cells continue generating large amounts of waste while other cells slow down in response to the body's signals.

When dehydrated, the patient will have higher than average insulin in their blood stream.

-facts
Bicarbonate is part of the steps that make ATP
A person makes acetyl-CoA to make ATP
Bicarbonate bonds to acetyl-CoA that make ATP
The hormone Calcitonin bonds with calcium
-possible test
A person is filled with CaCO3 (dissolved) and has elevated CO3^-2 (bicarbonate) and calcium ions.
Calcitonin rises, and lowers Ca^+2 ions
-They then dehydrate
ATP sythesis continues in cancer cells.
Synthesis of ATP slows to low rates in healthy cells.
The cancer cells are more negatievly charged, bicarbonate is being pulled in for ATP synthesis
electrically positive garbage is thrown out of the sick cells
Calcium ions and positively charged structures are pulled towards the cancerous cells
Calcitonin bonds to Ca^+2 ions and becomes Calcitonin^-2 (There is no word for a peptide that is highly charged)
Cancer globules should stand out by the amount of Calcitonin^-2 around and within, as well as other absorbers of charged ions

The patient's body is overall charged positively, as the CaCO3 is reduced (the Ca loses its electrons), the CO3 bonds to acetyl-CoA and forms ATP, mostly within the cancer cells, while the calcitonin^-2 is not released by a cancer stricken patient (it is sticking to the cancer since)

There is lower concentrations of CO3^-2 and a higher quantity of acetyl-CoA within most unwanted cells. Ca^+2 ions are dissolved, and float around.
The patient rehydrates
Charge distrubution rebalances throughout the body and metabolism returns to normal

15:31 2017-04-05

It is similar to Imatinib, a drug used for treatment. That drug "is on the World Health Organization's List of Essential Medicines, [and] a wholesale cost of $84,408.78, while in [...] was paying about 20,980.08 pounds (per year)" en.wikipedia.org/wiki/Imatinib