Mainstream medicine has departed from sanity long time
ago. There’s simply no money in it once a patient gets well.
There are far better alternative to poison based
medical practice and the procedure is easier to replicate, even non-doctors can
do it.
We can mitigate the effects of any chemicals and
neutralized all types of parasites without using highly toxic drugs and
expensive procedures, but only with a very simple and complete
protocol that defeats
all known and unknown diseases for good, without any long-term side-effects.
Find more about it here.
Bicarbonate and CO2
November 12, 2015 under Medicine
Bicarbonate and CO2 are profoundly important for human
health. Both are necessary for the successful practice of medicine and the
treatment of cancer yet few understand the importance of both. Even a so-called
health expert like Sang Whang, who is supposed to be an expert at pH
regulation, seems not to understand.
Whang says, in a long promotional essay pushing
a product, “Consuming sodium
bicarbonate (baking powder) does not add bicarbonates to the blood because
hydrochloric acid breaks up sodium bicarbonates into water, carbon dioxide and
sodium salt in the stomach. It is exactly like ingesting carbonic acid and
sodium salt.” The truth though is bicarbonates
enter the bloodstream “only”
when the stomach produces hydrochloric acid. What Whang failed to see is that
the CO2 is going into the blood in the form of bicarbonate.
Baking soda (sodium bicarbonate) immediately reacts
when it mixes with stomach acid. NaHCO(3) + HCl —> NaCl + H(2)0 +
CO(2). That is sodium bicarbonate + stomach acid yields salt + water +
carbon dioxide.
Carbon dioxide is present in the blood in a number of
forms such as bicarbonate, dissolved carbon dioxide and carbonic acid, of which
90% is bicarbonate or HCO3. Sodium bicarbonate turns to CO2 when it reaches the
stomach causing an increase in stomach acid production as well as an increase
in bicarbonates in the blood. Bicarbonate
can act as acid or base.
The basic reason that sodium bicarbonate is such a
wonderful cancer treatment is that it directly increases CO2 levels in the body
and this has the direct result of allowing more oxygen to reach the cancer
sites, which hate O2. A $2.61 pound of sodium bicarbonate will outperform a
$100,000 dollar chemo treatment because it targets the most fundamental aspects
of cancer physiology, which are acidity and low oxygen conditions, but Sang
Whang would rather you buy his product because he does not think sodium
bicarbonate works. Over a hundred years of clinical evidence would say
otherwise. (This essay is in response to a reader questioning Whang’s
statement)
Some people feel that sodium bicarbonate is not
recommended for long-term preventive use because the body will become resistant
to its action. This is not true since bicarbonate and CO2 are absolute
constants in human physiology and though pH levels should be maintained by
other means, by alkaline diets and drinks, there is no resisting the power of
sodium bicarbonate to radically shift upwards the pH of tissues whether healthy
or cancerous. There is no resistance though one can overdo a good thing and
drive alkaline rates too high causing other problems.
The body struggles to produce enough bicarbonate and
it is a losing battle as we age. Carbon dioxide, as well as bicarbonate, is a
nutrient as well as a product of respiration and energy production in the cells
and its lack or deficiency is of itself a starting point for different
disturbances in the body. If a carbon dioxide
deficiency becomes chronic,
it can be responsible for serious diseases, ageing and cancer.
One of the reasons exercise is so important for our
health is that it is the most wonderful way for us to generate large amounts of
CO2 and thus much more oxygen passes into the lungs, blood and cells. If the level of
carbon dioxide in the blood is lower than normal, which it is in all people who do not exercise or breathe too
fast, then this leads to
difficulties in releasing oxygen from hemoglobin and that is why it is
antihumanitarian to suggest people away from using bicarbonate.
Bicarbonate deficiency is the most unrecognized
medical condition on earth.
Once carbonic acid forms, it very quickly equilibrates
with the other acids and bases in solution. It can, for example, lose one or
two protons (H+). The extent to which this happens depends upon the pH and a
variety of other factors. In seawater at pH 8.1, most of it (87 percent) will
lose one proton to form bicarbonate, a small amount will lose two protons to
form carbonate (13 percent), and a very small amount will remain as H2CO3
(<>1 percent). All of these forms, however, interconvert faster
than the blink of an eye, so one cannot identify one as carbonate and one as
bicarbonate for more than a tiny fraction of a second. All one can
really say is that on average X percent is in the form of bicarbonate, and Y
percent in the form of carbonate.[1]
CO2 Chemistry
Total CO2 is defined as the sum
of carbonic acid and bicarbonate.
of carbonic acid and bicarbonate.
Carbonic acid plays a very important role as a buffer
in our blood. The equilibrium between carbon dioxide and carbonic acid is very
important for controlling the acidity of body fluids, and the carbonicanhydrase increases the reaction rate by a factor of nearly a billion to keep
the fluids at a stable pH. Carbon dioxide does change the pH of water. This is
how it works:
Carbon dioxide dissolves slightly in water to form a
weak acid called carbonic acid, H2CO3, according to the following reaction:
CO2 + H2O –> H2CO3
After that, carbonic acid reacts slightly and
reversibly in water to form a hydronium cation, H3O+, and the bicarbonate ion,
HCO3-, according to the following reaction:
H2CO3 + H2O –> HCO3- + H3O+
In the basement of human physiology are these
lightning fast translations so for all intent and purpose drinking sparkling
water is very similar to drinking bicarbonate water. Scientists have
found in animal studies that sparkling water stimulates HCO3- secretion in both
the stomach and the duodenum[2]. CO2 and HCO3- (bicarbonate ions) are interchangeable
in the presence of water.
The normal ratio of bicarbonate to carbonic acid at
normal pH is around 20:1; total CO2 will therefore be about 5% higher than
serum bicarbonate. When you observe a difference between total CO2 and
bicarbonate that is larger than 5%, the patient will be acidic. In aqueous
solution, carbonic acid dissociates into a bicarbonate ion and a proton or into
carbon dioxide and water depending on the conditions such as pH and the
relative concentrations of each of the products, i.e., carbon dioxide and
bicarbonate.
The carbonic acid, carbon dioxide bicarbonate axis
represents the main buffers against dangerous pH changes; a buffer is a
substance that resists changes in pH (acid concentration) by undergoing a
reversible reaction. When weak acids are added to a buffer solution, the
resulting change in pH is less than it would have been if the buffer were not
present. When hydrogen ion (H+) is added, much of the hydrogen is taken up by
the salt of the buffering acid. With bicarbonate, H+ bonds to HCO3- to form
H2CO3, which is a weak acid. The main characteristic of a buffer is that the
reaction is reversible — the hydrogen ion can be given back.
[2] Stimulation by sparkling water of
gastroduodenal HCO3- secretion in rats. Med Sci Monit. 2009
Dec;15(12):BR349-56. Division of Pathological Sciences, Department of
Pharmacology and Experimental Therapeutics, Kyoto Pharmaceutical University,
Misasagi, Yamashina, Kyoto, Japan.
We can mitigate the effects of any chemicals and
neutralized all types of parasites without using highly toxic drugs and
expensive procedures, but only with a very simple and complete protocol that
defeats all known and unknown diseases for good, without any long-term
side-effects. Find more about it here.
No comments:
Post a Comment