Can the Human Lifespan be
Extended?
Based on new understandings about the molecular
mechanisms of aging, it appears that the lust for
longer life has become a scientific reality.
More than 60% of
Americans regularly ingest some sort of dietary
supplement. Even conventional medicine is
recognizing the logic of taking steps today to
prevent degenerative disease in the future. The
media has publicized the results of large human
clinical trials showing that consuming the right
supplements in the proper potencies will reduce
one's risk of contracting cancer, cataract,
cardiovascular, Alzheimer's, and numerous other
diseases associated with aging.
The question is, are the 60% of
Americans now taking supplements going to live
longer than those who don't? An analysis of the
scientific literature indicates probably not. The
reason is that few Americans are taking enough of
the proper nutrients to duplicate the clinical
studies showing that the diseases of aging may be
preventable.
Twenty-two years ago, the Life
Extension Foundation began a systematic review of
published scientific findings relating to the
prevention of degenerative disease and aging. The
results of this painstaking investigation provided
convincing evidence that the killer diseases of
aging could be largely prevented by the proper
intake of nutrients, hormones, certain drugs, and
lifestyle changes.
The phenomenon known as aging is a
result of a number of pathological changes that
are somewhat controllable using existing
technologies. By prolonging our healthy lifespan,
we put ourselves in a position to take advantage
of future medical breakthroughs that could result
in dramatic extensions of human lifespan. Here are
some of the underlying controllable causes of the
diseases of aging we know of today:
1.
Chronic inflammation. Aging people suffer
an epidemic of outward inflammatory diseases such
as arthritis, but chronic inflammation also
damages brain cells, arterial walls, heart valves
and other structures in the body. Heart attack,
stroke, heart valve failure, and Alzheimer’s
senility have been linked to the chronic
inflammatory cascade so often seen in aging
humans.
2. Glycosylation. It is well
known that diabetics age prematurely, but even
non-diabetics suffer from a devastating chemical
reaction called glycosylation, where protein
molecules bind to glucose molecules in the body to
form nonfunctioning structures. Glycosylation is
most evident in senile dementia, stiffening of the
arterial system, and degenerative diseases of the
eye.
3. Methylation Deficit.
Cellular DNA requires constant enzymatic actions
(re-methylation) for maintenance and repair. Aging
cripples youthful methylation metabolism causing
DNA damage that can manifest as cancer, liver
damage, and brain cell degeneration.
4.
Mitochondrial Energy Depletion. The cell's
energy powerhouse (the mitochondria) requires a
complex series of chemicals to be present in order
to maintain critical functions such as
transporting nutrients through the cell membrane
and purging the cell of toxic debris.
Mitochondrial energy depletion can result in
congestive heart failure, muscle weakness,
fatigue, and neurological disease.
5.
Hormone Imbalance. The trillions of cells
in the human body are delicately synchronized to
function by chemical signals called hormones.
Aging creates a severe hormone imbalance that is
often a contributing cause to many diseases
associated with aging including depression,
osteoporosis, coronary artery disease, and loss of
libido.
6. Excess calcification. Calcium
ions are transported into and out of cells through
calcium channels in the cell membrane. Aging
disrupts calcium transport, and the result is
excess calcium infiltration into cells of the
brain, heart valves, and middle arterial wall
(causing arteriosclerosis).
7. Fatty acid
Imbalance. The body requires essential
fatty acids to maintain cell energy output. Aging
causes alterations in enzymes required to convert
dietary fats into the specific essential fatty
acids the body requires to sustain life. The
effects of a fatty acid imbalance may manifest as
an irregular heart beat, joint degeneration, low
energy, hypercoagulation, dry skin, or a host of
other common ailments associated with normal
aging.
8. DNA Mutation. Numerous
synthetic and natural compounds mutate cellular
DNA and cause cancer cells to form. Aging cells
lose their DNA gene repair mechanisms and the
result is that DNA genetic damage can cause cells
to proliferate out of control, i.e., turn into
cancer cells.
9. Immune Dysfunction. For a
variety of reasons, the aging immune system loses
its ability to attack bacteria, viruses, and
cancer cells. In aging humans, excessive levels of
dangerous cytokines are produced that cause the
immune system to turn on its host and create
autoimmune diseases associated with aging such as
rheumatoid syndrome.
10. Non-Digestive
Enzyme Imbalance. Internal cellular
functions depend on multiple enzymatic reactions
occurring with precise timing. Aging causes enzyme
imbalances primarily in the brain and liver, which
results in severe neurological diseases such as
Parkinson's or the persistent memory loss aging
people so often complain about. Impaired liver
function results in toxic damage to every cell in
the body.
11. Digestive Enzyme
Deficit. The aging pancreas often fails to
secrete enough digestive enzymes, while the aging
liver does not secrete enough bile acids. The
result is chronic indigestion people complain
about as they age.
12.
Excitotoxicity. The aging brain loses
control of its release of neuro-transmitters such
as glutamate and dopamine, and this results in
devastating brain cell damage and destruction
13.
Circulatory Deficit. Microcapillary
perfusion of blood to the brain, eye, and skin is
impaired as a part of normal aging. The result is
that disorders of the eye (such as cataract,
macular degeneration, glaucoma) are the number one
aging-related degenerative disease. Major and
mini-strokes are common problems associated with
circulatory deficit to the brain and the skin of
all aged people show the effects of lack of
nutrient-rich blood to the upper layers.
14.
Oxidative stress. Free radicals are
unstable molecules that have been implicated in
most diseases associated with aging. Antioxidants
have become popular supplements to protect against
free radical-induced cell damage, but few people
take the proper combination of antioxidant
supplements to adequately compensate for
age-induced loss of endogenous antioxidants such
as SOD and catalase.
Notice that oxidative stress is listed
as number 14 on the above list of controllable
factors that cause aging-related diseases. While
suppressing the free radicals that cause oxidative
stress protects against many disorders, there is
clearly much more that can be done to stave off
aging than merely taking antioxidant
supplements.
Children
can benefit by taking vitamin supplements, but it
is aging humans whose body's are depleted of the
endogenous antioxidants, hormones, enzymatic
repair systems, and other biological chemicals
needed to sustain life. What is optional in
childhood becomes mandatory as humans enter
middle-age and become vulnerable to the plethora
of degenerative diseases that await them if they
do not adequately protect themselves.
The Life Extension
Foundation has designed a scientific program to
counteract ALL the known biochemical processes
proposed (by gerontologists) as primary causes of
aging. The Directory of Life Extension
Technologies provides recommendations on
nutrients, drugs, and hormones to neutralize the
known causes of premature
aging. |
