Our Bodies Defense Systems
The human body has an incredible ability to maintain
life, however the compensations our bodies are forced to make come with a price.
As the damage accumulates over a period of years we may experience no obvious
ill effects but eventually the bill comes due and we pay the price.
Having
an acidic pH is like driving your car with the oil light on. The car will continue
to run without any apparent problem but eventually it will simply stop. To maintain
life our blood and cells must be defended against all of this acidity. Should
we become too acidic, we would die.
Fortunately
we have what amounts to an alkaline mineral bank in our bicarbonate reserves.
To buffer the acid overload the body will make withdrawals from this bank account.
While this is effective in the short term, in the long run we see our bicarbonate
reserves become depleted and bones becoming more brittle with age that can result
in osteoporosis.
Another way the
body alkalizes the blood and raises the pH is to solidify acids in the blood
and deposit them as solid wastes in the tissues of the body. This enables our
blood to remain in an acceptable alkaline pH range but as these harmful byproducts
accumulate, overall pH goes lower or more acidic, oxygen levels fall, and the
seeds of a variety of degenerative diseases are sowed.
This process of
gradually depleting minerals from the bones and building up acidic deposits
in body tissues is a slow one. For many years we have no symptoms, no clue as
to the storm that is building. Eventually we begin to experience aches and soreness,
declining energy levels, and other subtle signs that we associate with getting
older.
These are not an
inevitable part of getting older. They are warning signs. Many adult chronic
conditions may be directly associated with an acid pH and a low grade acidosis.
What is
the Aging Process?
As we age, we gradually dry up at the cellular level. As the years
go by, the cells of the body (where all biochemical processes occur) become
thicker. As a result the amounts of vital nutrients and oxygen brought into
them declines while the amounts of toxins and metabolic waste products increases.
The result is a loss of youthful cellular function and the beginnings of degenerative
disease.
Can this be avoided?
Consider this: "Dr. Alexis Carrell, a famous French physiologist, conducted
an experiment in which he took cells from the heart of a chicken and put them
in a solution containing minerals and nutrients in the same proportion as chicken
blood. Every day he changed the solution keeping the fluids constant and disposing
of the waste products produced by the cells. The result, for which he won a
Nobel Prize, was the chicken heart lived for over 28 years. When he stopped
changing the solution the cells promptly died."
As revealing as
this experiment was, the question remains, how can we accomplish this in the
living system? What steps can we take to achieve similar results? To answer
that question, we first must explore the cause of aging.
The
Cause of Aging
Phosphoric
Acid is produced in protein metabolism. Excess amounts are solidified as salts
and can result in the formation of kidney stones. These acid salts also build
up in the walls of our cells and cause them to stiffen. The resulting thickening
creates an inability to properly hydrate the cells. It also creates a severe
decline in nutrient and oxygen delivery into the cells and toxin and waste removal
from the cells. In other words, a steady decline in cellular function results
in what we call aging. Highly alkaline nutrients found in fruits and vegetables
and potassium bicarbonate supplementation can wash these acid salts away and
help return cells to a more youthful level of function.
How
Health Conditions Are Linked to Acidity
Osteoporosis
One highly alkaline mineral responsible for neutralizing acids in the
body is calcium. If we allow our pH to decline into an acidic condition the
body is forced to withdraw calcium from the bones and teeth in order to maintain
life.
In spite
of the tremendous push over the last 20 years for calcium supplementation, the
incidence of osteoporosis has increased dramatically. The drain placed on bone
mineral content by excess acidity is simply too great. The prevalence of low
or acid pH places incredible strain on our bones and teeth. In areas like where
the Hunza people live, they are blessed with abundant highly-alkaline drinking
water and eat alkaline fruits and vegetables problems like osteoporosis do not
exist.
Cardiovascular
Disease
Cholesterol
is an acidic byproduct of fat metabolism. As the body becomes more acidic, it
defends itself by solidifying cholesterol in the blood and depositing it in
the cells of our blood vessels. Over a period of years plaque builds until circulation
is impaired resulting in surgery, medication or heart attacks and strokes.
When pH
is raised to an alkaline condition the body is better able to neutralize these
wastes and flush them out of the system. Not only does it help accumulation
of plaque to stop but deposits may be dissolved, neutralized and washed away
as well.
Arthritis
Another byproduct of normal healthy metabolism is uric acid. Like cholesterol
the body deals with excesses by solidifying it into a salt that tends to build
up in the joints. The result is gout and arthritis. This accumulated acid can
damage cartilage and irritate joints. Blood can not carry out wastes as effectively
in the joints, which is why the acids tend to accumulate there. Consuming highly
alkaline foods and potassium bicarbonate supplements can do a good job of cleaning
out the uric acid over time, remembering that it took years for the damage to
accumulate.
Immune Function
The immune system is a sophisticated clean-up service. It is composed
of your body's army of white blood cells or natural killer (NK) cells. Each
NK cell is manufactured by your body as needed to kill off a specific invader.
For example, there is a specific cell to kill cancer, another one for the cold
germ, and still another for a virus. Sometimes, the pathogens multiply faster
than the body can manufacture the matching NK cell hence advanced health challenges.
Wouldn't it be
nice if we could help the immune system by preventing these pathogens from taking
hold in the first place? Bacteria, viruses, molds, yeast and fungus that attack
our bodies thrive in an acidic environment. In a slightly alkaline environment
they are weakened significantly and do not multiply efficiently.
In the preferred
slightly alkaline pH range, the immune system can clear the potentially harmful
microbes out more easily, often before we have any symptoms. They are weakened
and do not multiply as prolifically. Ultimately health wins out.
Vitality
An acidic condition also corresponds to low oxygen levels. There is
a direct correlation between pH and available oxygen. An alkaline environment
provides literally thousands of times the oxygen needed for all bodily functions.
Oxygen is essential to energy production. In very simple terms, natural energy
production in the body boils down to oxygen burning hydrogen.
Another aspect
of energy and vitality versus fatigue is proper enzyme activity. Acids literally
turn off enzymes, which are tiny proteins that control chemical reactions. Without
enzymes there is no life. Maintaining an alkaline pH in the range of 7.2 to
7.6 is critical to slowing down degeneration and maintaining a more youthful
vitality.
The Solution
There are a number
of medical research studies that suggest that the cause of aging and chronic
conditions is a low-grade acidosis and that supplementing with potassium bicarbonate
(KHCO3) may prevent and or correct them.
Research in this
field has been advanced by two world renowned scientists, Anthony Sebastian,
MD and Lynda Frassetto, MD along with a team of their collogues from the University
of California, San Francisco, Department of Medicine and General Clinical Research
Center.
A summary of one
of their scientific studies was published in the prestigious Journal of Gerontology
in 1996, entitled “Age and Systemic Acid-Base Equilibrium: Analysis
of Published Data” Journals of Gerontology Series A: Biological Sciences
and Medical Sciences, Vol 51, Issue 1 B91-B99. The abstract is as follows:
Abstract
of the Research Study
To investigate whether systemic acid-base equilibrium changes with
aging in normal adult humans, we reviewed published articles reporting the acid-base
composition of arterial, arterialized venous, or capillary blood in age-identified
healthy subjects. We extracted or calculated blood hydrogen ion concentration
([H+]), plasma bicarbonate concentration ([HCO3(-)]), blood PCO2, and age, and
computed a total of 61 age-group means, distributed among eight 10-year intervals
from age 20 to 100 years. Using linear regression analysis, we found that with
increasing age, there is a significant increase in the steady-state blood [H+]
(p < .001), and reduction in steady-state plasma [HCO3(-)] (p < .001),
indicative of a progressively worsening low-level metabolic acidosis. Blood
PCO2 decreased with age (p < .05), in keeping with the expected respiratory
adaptation to metabolic acidosis. Such age-related increasing metabolic acidosis
may reflect in part the normal decline of renal function with increasing age.
The role of age-related metabolic acidosis in the pathogenesis of the degenerative
diseases of aging warrants consideration.
Explanation of the Research Study
Drs. Sebastian and Frassetto’s research took samples of arterial
blood from hundreds of people age 20 to 100 years to measure the pH level of
acid wastes and their level of bicarbonate reserves.
The study showed
that as one gets older there’s an increase in the accumulation of acid
wastes and a corresponding decrease of alkaline bicarbonate [HCO3] reserves
in the blood. Bicarbonates are the alkaline buffer reserves the body uses to
neutralize acids.
Figure 2 graph
B, of their study showed that the alkaline bicarbonate reserves of the group
remained fairly constant until the age of 45 and then it dropped off very sharply
in a steep linear decline with an overall dramatic loss by the age of 90.
By the way, 45
years of age is when most people start to show symptoms of the chronic diseases
of aging like hypertension, diabetes, osteoporosis, obesity and many others
that gradually worsen as people get older.
Drs. Sebastian
and Frassetto’s attribute the increase in acidic waste and reduction of
the bicarbonate reserves in the blood as we age to generations of consuming
the modern American diet that is high sodium intake and low in potassium. This
type of relationship is reverse of what is healthy and contributes to an excess
of sodium and a deficiency of potassium.
The reduction
of bicarbonates in the blood makes it difficult for the body to handle the continuous
outpour of acid and nearly impossible for it to eliminate acid wastes.
This is why it’s felt that systemic acidosis caused from insufficient
levels of bicarbonates in the blood may be responsible for many of the acid-induced
degenerative diseases.
Layman’s
Interpretation of the Research Study
In layman’s
terms, this study shows that as we age we have more acid radicals [H+] and less
blood bicarbonates [HCO3], the alkaline minerals stored in the body whose job
it is to neutralize excess acids, which can lead to age-related metabolic acidosis
and resultant chronic disease.
From reading this
study one could deduce if the accumulation of acids due to metabolic acidosis
cause the degenerative diseases of aging, then if a person could reduce the
accumulation of acids in the body and decrease metabolic acidosis, maybe they
could prevent the degenerative diseases commonly thought of as inevitable.
The FirstShake
4R Rejuvenation Program
When we think of health we think of diet and exercise both of which
are very important but neither of which add bicarbonates to the blood stream.
Vitamins seem to help some people some of the time but they fall short of hitting
the mark when it comes to increasing the bicarbonates in the blood.
Even though the
FirstShake 4R Rejuvenation Program does incorporate both a healthy diet and
exercise component in its 21-day program it also recommends the use of a potassium
bicarbonate supplement called Alka-Fizz to help neutralize acid, bring about
an acid/alkaline balance and stabilize blood pH.*
Alka-Fizz is not
a medicine to cure any disease. There is no approved therapeutic claim, but
it will add bicarbonates [HCO3] to the blood stream. Bicarbonates in the blood
stream are one of the primary substances for life and basic elements of nutrition
that keep your blood alkaline and available to neutralize acids.*
Consuming Alka-Fizz
is like constantly renewing the battery of life! There’s no more effective
way to add bicarbonates and maintain proper potassium-sodium balance and acid/alkaline
balance as consuming Alka-Fizz.*
Keep in
mind that the ingredient amounts in Alka-Fizz are not the same as those found
in doctor supervised research studies which must be monitored very carefully.
Alka-Fizz is not designed to cure any disease but to reduce the acid load on
the body overtime with steady use.*
The
Bottom Line
The decline of bicarbonates in the blood with a corresponding increase
of acids and a lowering of the arterial pH may promote aging and chronic conditions.
Some may say that the reduction of bicarbonates is an unavoidable result of
aging. However others suggest that the reduction of bicarbonates is the primary
cause of physiological aging and by adding bicarbonates we may delay the aging
process and prevent age related adult degenerative conditions.
You
be the judge!
Disclaimer:
The information in this material is for educational purposes only and is not
meant to diagnose, treat or cure any disease and any statement made or any dietary
nutritional supplement referenced has not been evaluated by the Food and Drug
Administration, (FDA). This material was not created or intended to formally
prescribe treatment. Any nutritional or fitness program you are considering
should first be discussed with a health care professional. Neither the author,
publisher nor Wellness Watchers, LLC (WW, LLC) is engaged in rendering professional
or health care advice or services to the individual reader. The ideas, procedures,
nutritional supplements and suggestions contained in this material are not intended
as a substitute for consulting with your health care professional. All matters
regarding your health require medical supervision. Neither the author, publisher
nor WW, LLC shall be liable or responsible for any loss or damage allegedly
arising from any information or suggestions in this material.
Reminder:
If you have any questions, including health related concerns consult
the health provider on this website if they are your personal provider or your
local health provider or emergency room if conditions warrant.
Note: While all attempts have been made to provide effective, verifiable information in these materials the authors, publisher and WW, LLC will not assume any responsibility for errors, inaccuracies, or omissions. Below are references where portions of the material may have originated or been used as a reference.
References:
Frassetto L, Morris RC Jr., Sebastian A. Diet acid load and bone health. In
Nutritional Aspects of Osteoporosis, 2nd edition, Burckhardt P, Dawson-Hughes
B Eds. Academic Press San Diego, CA 2004.
Frassetto
L, Morris RC Jr., Sebastian A. Stone age diets for the 21st century: The effects
of diet-induced, potassium-replete, chloride-sufficient, low-grade metabolic
alkalosis. In Nutritional Aspects of Osteoporosis, 2nd edition, Burckhardt P,
Dawson-Hughes B Eds. Academic Press San Diego, CA 2004.
Frassetto
LA, Morris RC, Jr, Sebastian A. A practical approach to acid production and
renal acid excretion in humans. Semin Nephrol (accepted 2004).
L. FRASSETTO,
R. CURTIS MORRIS, JR., AND A. SEBASTIAN, Potassium Bicarbonate Reduces Urinary
Nitrogen Excretion in Postmenopausal Women. Journal of Clinical Endocrinology
and Metabolism
Vol. 82, No. 1, The Endocrine Society, 1997
ANTHONY
SEBASTIAN, M.D., STEVEN T. HARRIS, M.D., JOAN H. OTTAWAY, M.A., KAREN M. TODD,
M.S., R.D., AND R. CURTIS MORRIS, JR., M.D. Improved Mineral Balance and Skeletal
Metabolism in Postmenopausal Women Treated with Potassium Bicarbonate, The New
England Journal of Medicine, Vol. 330; No. 25, June 23, 1994
Frassetto L,, Sebastian A., Age and Systemic Acid-Base Equilibrium: Analysis
of Published Data, Journals of Gerontology Series A: Biological Sciences
and Medical Sciences, Vol 51, Issue 1 B91-B99.
* These statements have
not been evaluated by the Food and Drug Administration.
This product is not intended to diagnose, treat, cure or prevent any disease.
