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So, last
Wednesday I made a Coconut Creme Pie and brought it into work.
No surprise, it was completely consumed with other coworkers on
the waiting list for slices that were disappointed. What was
surprising was a couple of the consumers commented on how bad
the pie must be for their bodies. I assured them that I used no
additives and kept the ingredients as fresh as possible. I admit
that there were some trans fats in this particular pie because I
was unable to get graham crackers without partially hydrogenated
oils. It turned out that they were concerned mainly about the
coconut. One of my coworkers who was watching his cholesterol
levels said, "It's high in cholesterol!" I assured him
that as a plant product, it was impossible for coconut to have
cholesterol. Then he said, "Well, it's high in saturated
fat then."
Ah, saturated fat
- The most maligned and misunderstood "bad" food in
the last thirty years. During the last year, I've been trying to
figure out why everyone thinks saturated fat is evil and I have
been unable to discover any evidence that there is evidence that
saturated fats are bad for you. In fact, quite the opposite.
I'll take this space and discuss briefly (although it might seem
long to you) saturated fats, polyunsaturated fats, cholesterol
and the misconceptions we've been brought up with. I'll touch
briefly on trans fatty acids too, but that topic is so nasty
that it really deserves it's own article along with the possible
manipulation of the American diet by food oil companies. Okay,
back to saturated fat.
Something that
doesn't help is that saturated fat is specifically called out on
nutrition labels on food products as well as a Daily Value
Percentage. This makes it seem that we need to limit the intake
of saturated fat but not monounsaturated or polyunsaturated.
This implies that saturated fats are worse than the other two
fats and that is not the case.
A
little background first:
Fats
are comprised of fatty acids which are long chains of carbon
atoms with hydrogen atoms hanging off them:
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H H H H H H H H H H H
COOH-C-C-C-C-C-C-C-C-C-C-C-H
H H H H H H H H H H H
(Lauric Acid) |
(This molecule can
be written as CH3(CH2)10COOH)
If all the
carbons between the carboxyl (COOH) group and the methyl (CH3)
group have two hydrogen atoms attached to them then the fatty
acid is considered to be saturated. A saturated fatty acid is
more or less straight (in reality the carbons zigzag a bit, but
the overall chain is straight). This causes the fatty acid to
have a high melting point. The longer the chain, the straighter
the chain, the higher the melting point. That means most
saturated fats are solid. In addition, the carbon single bond is
quite strong resulting in a molecularly stable fatty acid.
Unsaturated
fats refer to fats containing fatty acids that do not
have as many hydrogens attached as is possible. Instead of
bonding to hydrogen, one or more carbon atoms form a double bond
with the next carbon:
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H H H H H H
H H H H H H H H H
COOH-C-C-C-C-C-C-C-C=C-C-C-C-C-C-C-C-C-H
H H H H H H H H H H H H H H H H H
(Oleic Acid) |
This is a monounsaturated
fatty acid because it has only one carbon double bond. This
particular fatty acid (oleic acid) has a double bond in the ninth position
from the methyl (CH3) group making it an omega-9 fatty acid. The majority of
olive oil's monounsaturated fat is comprised of oleic acid. The double bond
causes a bend in the chain (away from the missing hydrogens) so that the
chain is no longer straight. This lowers the melting point and causes
unsaturated fats (like olive oil) to be liquid at room temperature. Also
every double bond in a fatty acid "weakens" the structure.
Polyunsaturated
fatty acid: When a fatty acid has more than one carbon double
bond, then it is considered polyunsaturated:
H H H H H H H H H H H
COOH-C-C-C-C-C-C-C-C=C-C-C=C-C-C=C-C-C-H
H H H H H H H H H H H H H H H H H
(Alpha-Linolenic Acid)
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This particular fatty acid
(alpha-linolenic acid) has the first double bond in the third position from
the methyl (CH3) group making it an omega-3 fatty acid. This fatty acid is
found most commonly in flaxseed oil and salmon. Because of the three double
bonds, this fatty acid is fragile and very sensitive to light and heat.
Also, because of the three double bonds, this fatty acid curves back on
itself and has a very low melting point.
When exposed to free radicals
(molecules with unpaired electrons that are highly reactive),
polyunsaturated fatty acids can undergo a process called lipid peroxidation
which results in the polyunsaturated fatty acid to release additional free
radicals. Lipid peroxidation has been directly linked to artherosclerosis
(the constriction of the arteries due to build up of a plaque composed of
fats, cholesterol, and other substances) and coronary heart disease (artherosclerosis
of the coronary arteries that lead to the heart). Free radicals have little
or no effect on the more stable monounsaturated and saturated fats.
It is commonly believed that
the build up in the arteries is predominantly saturated fat and cholesterol
- This is an inaccurate or incomplete statement. The plaque in the arteries
varies from subject to subject, but it has been demonstrated that 3/4 of the
fatty acids present in arterial plaque is unsaturated [1]. Also,
cholesterol's role in the body is ignored when discussing artherosclerosis.
The plaque formed in the arteries does contain substantial amounts of
cholesterol but probably because cholesterol is used as a healing agent: The
damaged interior artery walls are patched up with cholesterol and then
additional plaque builds up and more cholesterol is used to patch up the
walls. The cholesterol is most likely not a cause of the plaque build up,
but instead a body reaction to the plaque. The fact that no cholesterol is
found sticking to the interior vein walls (where cholesterol concentration
is the same as in the arteries) as you would expect if you were to believe
the predominantly advertised theory that cholesterol causes circulatory
disease [2].
This brings us to the common
belief that saturated fat increases the blood LDL cholesterol levels which
in turn cause artherosclerosis. Low Density Lipoproteins (LDL) carry
cholesterol from the liver to the tissues while High Density Lipoproteins (HDL)
carry cholesterol in the blood back to the liver to be broken down. The buzz
words "good" cholesterol and "bad" cholesterol have been
used to label HDL and LDL, respectively. The belief that saturated fat
lowers HDL in the blood is backed by several scientific studies, but there
are also a number of studies that show that saturated fat intake can result
in an increase in HDL as well [3]. Currently, there is no conclusive proof
that saturated fat intake can be correlated to change in HDL/LDL ratio in
the bloodstream.
An even more interesting fact
is that the claim that LDL and HDL levels play an important part in heart
disease and that there is a fight between "good" and
"bad" cholesterol is short on supporting evidence (but long on
media support). There seems to be as much scientific data that populations
with high incidents of coronary heart disease tend to have higher levels of
HDL (so-called good cholesterol). In addition, low levels of HDL do not
correlate to an increased risk for coronary heart disease. Most interesting
of all, is a study of people who have genetically caused reduced levels HDL
do not have a higher risk of coronary heart disease [4]. Studies across
several countries with similar HDL-LDL levels resulted in very different
incident rates of heart disease. If the theory that HDL-LDL leads to heart
disease is to be true, then a more consistent death rate from the disease
would have been evident in these countries. It has also been shown that
cholesterol level in the blood stream has no correlation with heart disease.
In fact, over 80% of people who suffer heart attacks, do not have elevated
cholesterol levels [5]. In addition, only 30-40% of people with
artherosclerosis have elevated cholesterol levels [6]. It seems that
cholesterol is neither a good indicator nor a risk factor for heart disease.
(Note: A very small percentage of people have a genetic illness called
hypercholesterolemia which interferes with their ability to matabolize
cholesterol. People with this genetic condition do have to watch blood
cholesterol levels.) [7].
So, what is the next most
likely candidate for leading to heart disease? Lipoprotein (a) or Lp(a) has
been pointed to as a coronary heart disease risk factor [8]. Although
research is incomplete, early findings have been strongly suggesting that
Lp(a) contributes to and promotes atherosclerosis. Evidence currently points
to trans fatty acids as a major increaser of Lp(a) levels. What's ironic is
that saturated fats have been linked to lowering Lp(a) levels! [9].
So, what are trans
fatty acids? In polyunsaturated fatty acids, the chains naturally
are found to all bend in the same direction. In chemistry this is referred
to as cis. If the bends alternate, then
this is referred to as trans.
H H H H H H H H H H H H H
COOH-C-C-C-C-C-C-C-C=C-C-C=C-C-C=C-C-C-H
H H H H H H H H H H H H H H H
(Trans-9,12,15-Octadecatrienoic Acid)
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Trans
fatty acids are created through partial hydrogenation of fats
(natural or chemical). In nature this occurs rarely and results in very
small amounts of trans fatty acids. In our supermarkets, this is a common
place fatty acid. It was discovered that if you partially hydrogenated a
fatty acid, about half of the fats would have bends going the other way (not
in the same direction: cis), thus straightening out the chain. This causes
the fatty acid to have a higher melting point, allowing the public to enjoy
solid fats without the saturated fat (which was thought to be bad at the
time). Margarine replaced butter, shortening replaced palm oil and lard, and
partially hydrogenated soybean oil replaced coconut oil. During the last ten
years, a great deal of research has been performed on trans fatty acids and
the conclusions are not good. Trans fats (fats made of trans fatty acids)
promote artherosclerosis and other cardiovascular dieases and increase the
risk factor for cancer. In addition, trans fats have been found to replace
necessary saturated fats in fat cells resulting in an unusable substance
taking the place where a fuel and nutrient source should have been. This
leads to the body increasing capacity of fat cells in order to maintain fuel
and nutrient storage levels. Trans fats are also unstable and may lead to
promotion of free radicals in the human body (for the same reasons that
polyunsaturated fats do). It should be noted that fully hydrogenated fats
are the same as saturated fats and do not exist in cis or trans formations
(as there is no bend).
So, now we have discussed how
saturated fats do not cause directly or indirectly heart disease,
cholesterol is not an indicator or risk factor of heart disease,
polyunsaturated fats should be reduced in the diet, and trans fats are to be
avoided completely. (Pretty much the opposite of what the media and food oil
producing companies tell us.) But, I haven't discussed any benefits of
saturated fats.
Before I get into that, I
want to mention that although a reduced polyunsaturated fat intake is
recommended, there are two families of essential fatty acids that we should
intake: omega-3 and omega-6. These are polyunsaturated fatty acids where the
double bond is three or six carbons from the methyl group. About 1-2% of the
calories you intake in a day should be omega-3 and about 2-3% should be
omega-6. Too much omega-6, however, can limit your body's ability to use
omega-3 fatty acids. Omega-3 fatty acids can be found in fish, flaxseed,
walnut, and unprocessed soybean oil (the processing that removes color and
oil from soybean oil pretty much destroys all the linolenic acid in it).
In a past article, I've
mentioned that I use predominantly olive oils and butter. Here's why: olive
oil is high in monounsaturated fat. In fact it is less than 10%
polyunsaturated. Butter is less than 4% polyunsaturated and contains a large
amount of heathful substances. These include naturally occuring vitamins (A,
D, E, and K), small amounts of linoleic (omega-6) and linolenic (omega-3)
acids, butyric acid (demonstrated anti-tumerigenic properties and a major
fuel source for intestines), lauric acid (anti-microbial and anti-viral),
glycosphingolipids (protects against intestinal infections), conjugated
linoleic acid (strong anti-cancer properties and helps prevent weight gain;
found only in butter and milk from grass-fed cows), lecithin (assists in
metabolising cholesterol and fat components), selenium (aids vitamin E as an
antioxidant; butter is one of the richest selenium food sources available),
and cholesterol. It might seem weird to list cholesterol as a benefit, but
cholesterol is a precursor to vitamin D and many hormones as well as an
antioxidant and the body's primary repair substance. Consuming cholesterol
also contributes to intestinal wall health. Ingesting cholesterol on a
regular basis has been shown to not increase blood cholesterol levels
because the body reduces its natural production and increases cholesterol
metabolism to compensate.
It should also be noted that
the small amount of ingested cholesterol can hardly be noticed in the large
amounts of cholesterol flowing in your blood stream. For example, if you are
capable of intake half of the cholesterol you consume daily (let's say 150
milligrams of 300 milligrams consumed) and you compare that to the amount of
cholesterol in the blood (150 mg/dL), then you'll find that of the 7500 mg
of cholesterol in your blood (150 mg/dL * 10 dL/L * 5 L/human) you've added
only another 150 milligrams (assuming your body is even capable of intaking
50% of the cholesterol you've ingested). A healthy body can easily throttle
back cholesterol production and increase metabolism to absorb the additional
cholesterol intake[3].
Bibliography:
1.
Felton CV, et al; Dietary Polyunsaturated Fatty Acids and Composition of
Human Aortic Plaques. Lancet, 1994.
2.
Cranton EM and Frackelton J; Free Radical Pathology in Age-Associated
Diseases. Journal of Holistic Medicine, 1984.
3.
Enig M; Know Your Fats: The Complete Primer for Understanding the Nutrition
of Fats, Oils and Cholesterol; Bethesda Press, 2000.
4.
Smith R and Pinckney E; Diet, Blood Cholesterol, and Coronary Heart Disease:
A Critical Review of the Literature. Vector Enterprises, 1991.
5.
Rowland D; The Nutritional Bypass. Heath Naturally Publications, 1995.
6.
Reiser R; The Three Weak Links in the Diet-Heart Disease Connection.
Nutrition Today, 1979.
7.
Byrnes S; Diet and Heart Disease: It Is Not What You Think. Whitman
Publications, 2001.
8.
Garrison J and Somer E; The Nutrition Desk Reference; Keats Publishing,
1995.
9.
Enig M; Fat Facts; Price-Pottenger Nutrition Foundation Journal, Winter
1998.
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