Excerpted from "The
Omega Diet" by Dr. Artemis P. Simopoulos, M.D.
When you have cancer you have to struggle with the chilling
awareness that your own cells have turned against you. They
have stopped responding to the instructions coded in their
genes and begun transforming their energy into rampant growth.
By and large, our efforts to tame the savage cell have proven
disappointing. Since 1971, the federal government has spent
$30 billion on the War on Cancer. Nonetheless, the overall
incidence of cancer has increased by 18%, and the cancer death
rate has risen by 6%. Given our population increase, this
means that twice as many people will be diagnosed with cancer
compared with a similar time period in the 1970's and twice
as many will die. Men have a one in two chance of having cancer
sometime in their lives, partly due to the high rate of lung
cancer and prostate cancer in older men. Meanwhile, American
women have the world's highest death rates from lung and bronchial
cancer. Cancers that are more common today than they were
twenty years ago include breast cancer, prostate cancer, pancreatic
cancer, melanoma, liver cancer, multiple myeloma, brain cancer,
non-Hodgkin's Lymphoma, esophageal cancer, and chronic leukemia.
 For
decades, there has been a growing suspicion that there is
a link between dietary fat and cancer, but the exact connection
has been ambiguous. Some studies have shown that eating a
high-fat diet increases the risk of cancer, but others have
shown no connection. The source of the confusion is now becoming
clear: different fats have different effects on tumor growth.
As a rule, fats high in 0mega-6 fatty acids promote malignant
growth, while fats high in Omega-3 fatty acids block it. Thus,
a given fat will either increase or decrease your risk of
cancer depending on its fatty acid content. Ultimately it
is the type of fat that matters, not the amount.
Researchers have been exploring the link between individual
fatty acids and cancer for almost twenty years. Two people
who are now pushing the frontier are Leonard A. Sauer and
Robert T. Dauchy from the Cancer Research Laboratory at the
Mary Imogene Bassett Hospital. Sauer and Dauchy wanted to
know if all fatty acids had the same effect on tumor growth.
If they found that some fatty acids promote tumor growth and
others do not, then it might be possible to prevent or even
treat cancer by eating a specific balance of fats. To find
out, they perfected a sophisticated technique that allowed
them to infuse tumors growing in living animals with blood
that had been mixed with known amounts of individual fatty
acids. They found that tumors responded to fatty acids in
dramatically different ways. When the tumors where infused
with Omega-3 fatty acids, their growth rate was greatly slowed.
Three different groups have shown that Omega-3 supplements
can reduce the rate of colon cancer. In a study that took
place in Italy, for example, a group of patients with precancerous
colon cells were given low daily doses of Omega-3 supplements.
In just two weeks, the cells were growing at a more normal
rate. The therapy was well tolerated and without side-effects.
In 1996, Harvard Medical School researchers conducted a similar
study that confirmed these results.
How Do Omega-3 Fatty Acids Fight Cancer?
There are a number of theories to explain how Omega-3
fatty acids fight cancer. First, it has been shown that Omega-3
fatty acids reduce the amount of linoleic acid that tumors
withdraw from the bloodstream, denying them a much needed
nutrient. Blunting the cancer-promoting effects of linoleic
acid in this manner is known as "competitive uptake."
Second, Omega-3 fatty acids compete with Omega-6 fatty acids
for enzymes that are needed for the creation of cancer promoting
metabolites. Third, Omega-3 fatty acids make cancer cells
more vulnerable to free-radical attack by making their membranes
less saturated. A cancer cell will die if it sustains sufficient
free-radical damage. Finally, research suggests that linoleic
acid may help make cancer cells immortal by turning on a gene
that prevents automatic cell death. By contrast, Omega-3 fatty
acids seem to promote the self-destruction of cancer cells,
increasing their rate of die-off and thereby slowing overall
tumor growth.
How Do Omega-3 Fatty Acids Keep Cancer From Spreading?
In order for cancer cells to migrate from the original
tumor to form a distant colony, they must adhere to and then
penetrate tough membranes called "basement membranes"
that surround blood vessels and organs. Omega-3 fatty acids
make it harder for cancer cells to cling to basement membranes
by blocking the expression of molecules on the cell's surface
(adhesion molecules) that provide the necessary "grappling
hooks." If cancer cells manage to attach themselves to
the membranes, Omega-3 fatty acids can interfere with the
next step by blocking the production of an enzyme called "collagenase"
that is needed to dissolve basement membranes and allow cancer
cells to penetrate the barrier.
Therapies that prevent existing tumors from spreading are
critical to cancer therapy because most people die from tumors
that colonize new areas of the body, not ones that remain
in one place. It is very encouraging, therefore that there
is new evidence that Omega-3 fatty acids might slow down the
rate of metastasis. Recently, a group of French researchers
monitored 120 breast cancer patients for a period of three
years. They found that women with low amounts of LNA (Editors
note: LNA is the Omega-3 from plant sources -such as flaxseed
oil) in the fatty tissues surrounding their breasts were five
times as likely to develop metastatic disease. This one factor
alone was a better predictor of metastasis than all other
traditional risk factors. The researchers concluded, "These
data... stress the need for a close evaluation of the dietary
intake of this essential fatty acid."
Lillian Thompson, a cancer researcher from the University
of Toronto, has gone one step further and developed a pilot
study to treat breast cancer patients with LNA. In an ongoing
pilot study, she is giving flaxseeds to women recently diagnosed
with the disease. She hopes to see a measurable reduction
in tumor size in the short time between diagnosis and surgery.
There is already good evidence that Omega-3 fatty acids can
help cancer patients recover from surgery. In a 1996 study,
patients recovering from major gastrointestinal surgery were
given Omega-3 supplements. The patients given the supplements
fared much better than the ones given the standard postoperative
treatment. They had fewer digestive problems, more normal
liver and kidney function, lower triglycerides, and a 50 percent
reduction in the number of postoperative infections. Said
a member of the research team: "Clearly, the [Omega-3]
group had all parameters shifted to a more favorable direction."
How Do Omega-3 Fatty Acids Enhance Radiation And
Chemotherapy?
Radiation and some types of chemotherapy kill cancer
cells by generating large bursts of free radicals (highly
reactive molecules) that attack the cells' membranes. Once
a membrane sustains enough damage, the cell will self destruct.
Omega-3 fatty acids make cancer cells more vulnerable to free
radical attack, thereby enhancing the effects of both chemotherapy
and radiation.
 It
may be years, if not decades, before "Omega-3 therapy"
becomes an accepted part of cancer prevention and treatment,
but you can take advantage of the new research right now by
following "The
Omega Diet" by Dr. Artemis Simopoulos, M.D.
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