Coconut Oil

[Guest guest]

Palm oils are not laced with trans-fats.

Trans-fats are strongly correlated with heart disease, so stay away from margarine and Crisco. Non-dairy creamers are often made from coconut oil, but they are partially hydrogenated in the factory turning them into a trans-fat which is strongly correlated with heart disease.

Palm oils, like coconut oil is 90% saturated fat with no trans-fats.

Saturated fats have a mild correlation with heart disease.

Yet regions which consume large quantities of coconut oil (Sri Lanka, Kerala and the Philippines) have far lower rates of heart disease than Western nations eating polyunsaturated oils.

Coconut oil is primarily lauric acid, a medium-chain fatty acid which has anti-microbial properties when used externally. Lauric acid is the most common ingredient in soaps and shampoos.

http://en.wikipedia.org/wiki/Lauric_acid

> > > I've never heard of this claim for virgin coconut oil. People buy > > this for> > cooking because it's a healthier fat to cook in. When we attend > > the major> > vitamin conventions to hear new research and view new products, > > I've not> > seen these claims made.> > Barrow> pozbod@...>

[Guest guest]

The reason coconut oil has been proposed in fighting HIV (as well as other pathogens) is because it is rich in monolaurin. You can buy monolaurin as a supplement. A lot of HIV buyers clubs like DAAIR were selling monolaurin supplements. As I understand it, monolaurin or lauric acid destroys the lipid envelope of many viruses and other pathogens. I believe mothers' milk is rich in monolaurin. Enig, PhD is a lipid expert who has written a couple of books (which I haven't read, although I've read articles by her). She advocates the use of coconut oil because it is rich in monolaurin and medium chain fatty acids. Although it is high in "saturated" fats, not all saturated fats are alike. I'd love to read one of her books, but I'm living on a disability pension and have other priorities at the moment. She is one of the early opponents of the use of trans fats in foods. I

do know she talks about epidemiological data concering populations that use high amounts of tropical oils, which includes large portions of the world. Some areas use tropical oils almost exclusively. She found no data to support the notion that tropical oils cause increase in atherosclerosis. To the contrary, she claims there's a lot of data showing health benefits. Note, however, that much of the tropical oil used in US food products has been hydrogenated (i.e. turned into trans fat). I think she cites several US studies purporting to prove that tropical oils are bad for you which in fact used hydrogenated versions of those oils. I doubt that monolaurin would effectively control HIV alone, simply because it's been out there and I've only heard a couple annecdotal reports that it worked. One involved a poz guy from Indiana who claims that while on his "last vacation" to South America (I

guess this was before HAART) he visited a tribe which ate vast quantities of coconut, and came home feeling fine.. I assume that if this were true, and generally effective, others would have tried it and we would have heard many other similar anecdotal claims, even if there hadn't been any serious research into it. However, this doesn't mean monolaurin may not be somewhat beneficial. I think it's also supposed to be helpful against several types of parasites. I'm writing this as a response to the post off the top of my head - I'll check out the link somebody else gave - maybe others are more informed than I., I haven't looked into this for quite some time and I'd like to know if there have been any studies done concerning monolaurin and HIV. Here's a link by Ray Sahelian MD which cites some research, but Dr Sahelian statess that studies showing any clinical benefit are lacking or limited. http://www.raysahelian.com/monolaurin.html Wait.... I just found my old copy of Enig's presentation "Coconunt: In Support of Good Health in the 21st Century" from around 2000. It may still be available online. She states that "approximately 50 percent of the fatty acids in coconut are lauric acid. Lauric acid is a medium chain fatty acid, which has the additional benefit of being formed into monolaurin in the human or animal body. Monolaurin is the antiviral, antibacterial, and antiprotozoal monglyceride used by the human or animal to destroy liopid-coated viruses such as HIV, herpes, cytomegalovirus..... Some studies have also shown some antimicrobial effects of the free lauric acid. .... Also, approximately 6-7 percent of the fatty acids in coconunt fat are capric acid. Capric acid is another medium chain fatty acid which ahs a similar

beneficial function when it is formed into monocaprin in the human or animal body. ....." "Origins of the Anti Saturated Fat Agenda The coconut indursty has suffered more than three decades of abusive rhetoric from the consumer activist group Center for Science in the Public Interest, from the American Soybean Association and other member of the edible oil industry... When did the anti saturated fat story begin? It really began in part in the late 1950s when a researcher in Minnesota announced that the heart disease epidemic was being caused by hydrogenated vegetable fats. The edible oil industry's response at that time was to claim it was only the saturated fat in the hydrogenated oils that was causing the problem The industry announced that it would be changing to partially hydrogenated fats and that this would solve the problem. In actual fact, there was no change

because the oils were already being partially hydrogenated, and the levels of saturated fatty acids remained similar, as did the levels of the trans fatty acids. The only thing that really changed was the term for hydrogenation or hardening listed on the food label. During this same period, a researcher in Philadelphia reported that consuming polyunsaturated fatty acids lowered serum cholesterol. This researcher, nhowever, neglected to include the information that the lowering was due to the cholesterol going into the tissues, such as the liver and the arteries. As a result of this research report and the acceptance of this new agneda by the domestic edible oils industries, there was a gradual increase in the emphasis on replacing "saturated fats" in the diet and othe the consuming of larger amounts of "polyunsaturated fats". As manhy of you probably know, this strong emphasis on consuming polyunsaturates has backfired in mnay

ways: the current adjustments being recommended in the US by groups such as the National Academy of Sciences replace the saturates with monosaturates instead of polyunsaturates and replace the polyunaturates with monounsaturates." Dr. Enig continues this story in fascinating detail for several more pages, which I'm too tired to type. Maybe it's still online, or get one of her books. She cites many studies. Tom in Missouri.

How low will we go? Check out Yahoo! Messenger’s low PC-to-Phone call rates.

[Guest guest]

Think away. Meanwhile I'm waiting for Ilanit to read it and sum it

up. I saw how long it was and said there is no way I could read

this! She's the genius here always reading and reading...........

R

> >

> > Reggie...what would you think I would say? Never say never?

> >

> > LOL.

> >

> > xoxo... (coconut oil supporter!)

> >

>

[Guest guest]

interesting article. yes coconut oil has been talked about with regard

to healing properties for the last 10 years or so - increasingly so the

last few years.

many foods have healing properties but it is also important to look at

the diet and life as a whole. and not see one thing as amagic bullet -

tempting though that is!

coconut oil is a saturated fat which can be a good thing or can cause

problems in some people. It is a hrad fat - it is solid at room temp

and in some people it can cause hardening like any saturated fat and

can gum up the kidneys and liver.

it also has many good properties as the article points out. everything

in moderation, even moderation though dont try to tell me that when i

am attacking a jar of it with a spoon! I do like it and find it tasty -

but it does not seem to agree with me as i wrote in my article on fats

and oils which you can see again here....

http://www.energizedeating.com/blog/index.php/2006/02/19/fat-chance-reflections-on-oil-consumption/

it also has a strong odour and flavour which does not lend itself to

all dishes. that is why i do like the rice bran oil for that and

despite some negative press lately i still think small amounts of fresh

organic flax seed oil is a good addition periodically.

reggies, mary enig is associated with the weston price people. I know

you are not a fan of theirs for their pro animal food consumption

ideas. In reality weston price was amazing. he really talked about

traditional diets and very low animal food consumption. yes i think he

was a fan of butter. but he really was looking at native people in

their traditional environments. what is now sold as weston price and

pottenger foundation stuff is interpreted by the modern day proponents

- eg mary and also sally. they have some nice ideas but others i do not

agree with at all - though their promotion of whole, unpolluted food is

a good thing - we can take or leave the rest and the details have to be

interpreted for everyone. So what i am saying is that although weston

price was not promoting an animal free food diet he was singing he

praises and showing very good evidence - amazing stuff in fact that

showed that a plant based diet did extraordinary things for human

beings and moving away from that was the beginning of the decline of

health.

purpleveg wrote:

Ok, for those that REMEMBER.......... I do NOT want any wise

cracks! Ok, , you can crack one or 2 but that's it.

A friend sent this to me today and it's WAY too long for me to ever

have time to read but I thought I'd pass it along. I'm hoping

Ilanit will read it and give me the Cliff notes version.

Peace,

R

Coconut: In Support of Good Health in the 21st Century

by G. Enig, Ph.D., F.A.C.N.

Coconuts play a unique role in the diets of mankind because they are

the source of important physiologically functional components. These

physiologically functional components are found in the fat part of

whole coconut, in the fat part of desiccated coconut, and in the

extracted coconut oil.

Lauric acid, the major fatty acid from the fat of the coconut, has

long been recognized for the unique properties that it lends to

nonfood uses in the soaps and cosmetics industry. More recently,

lauric acid has been recognized for its unique properties in food

use, which are related to its antiviral, antibacterial, and

antiprotozoal functions.

Now, capric acid, another of coconut's fatty acids has been added to

the list of coconut's antimicrobial components. These fatty acids

are found in the largest amounts only in traditional lauric fats,

especially from coconut. Also, recently published research has shown

that natural coconut fat in the diet leads to a normalization of

body lipids, protects against alcohol damage to the liver, and

improves the immune system's anti-inflammatory response.

Clearly, there has been increasing recognition of health- supporting

functions of the fatty acids found in coconut. Recent reports from

the U.S. Food and Drug Administration about required labeling of the

trans fatty acids will put coconut oil in a more competitive

position and may help return to its use by the baking and snack food

industry where it has continued to be recognized for its

functionality. Now it can be recognized for another kind of

functionality: the improvement of the health of mankind.

Functional Properties Of Lauric Fats As Antimicrobials

As a functional food, coconut has fatty acids that provide both

energy (nutrients) and raw material for antimicrobial fatty acids

and monoglycerides (functional components) when it is eaten.

Desiccated coconut is about 69% coconut fat, as is creamed coconut.

Full coconut milk is approximately 24% fat.

Approximately 50% of the fatty acids in coconut fat are lauric acid.

Lauric acid is a medium chain fatty acid, which has the additional

beneficial function of being formed into monolaurin in the human or

animal body.

Monolaurin is the antiviral, antibacterial, and antiprotozoal

monoglyceride used by the human or animal to destroy lipid-coated

viruses such as HIV, herpes, cytomegalovirus, influenza, various

pathogenic bacteria, including listeria monocytogenes and

helicobacter pylori, and protozoa such as giardia lamblia. Some

studies have also shown some antimicrobial effects of the free

lauric acid.

Also, approximately 6-7% of the fatty acids in coconut fat are

capric acid.

Capric acid is another medium chain fatty acid, which has a similar

beneficial function when it is formed into monocaprin in the human

or animal body. Monocaprin has also been shown to have antiviral

effects against HIV and is being tested for antiviral effects

against herpes simplex and antibacterial effects against chlamydia

and other sexually transmitted bacteria.

The food industry has, of course, long been aware that the

functional properties of the lauric oils, and especially coconut

oil, are unsurpassed by other available commercial oils.

Unfortunately, in the U.S., both during the late 1930s and again

during the 1980s and 1990s, the commercial interests of the U.S.

domestic fats and oils industry were successful in driving down

usage of coconut oil.

As a result, in the U.S. and in other countries where the influence

from the U.S. is strong, the manufacturer has lost the benefit of

the lauric oils in its food products. As we will see from the data I

will present in this talk, it is the consumer who has lost the many

health benefits that can result from regular consumption of coconut

products.

The antiviral, antibacterial, and antiprotozoal properties of lauric

acid and monolaurin have been recognized by a small number of

researchers for nearly four decades: this knowledge has resulted in

more than 20 research papers and several U.S. patents, and this past

year it resulted in a comprehensive book chapter, which reviewed the

important aspects of lauric oils as antimicrobial agents (Enig

1998).

In the past, the larger group of clinicians and food and nutrition

scientists has been unaware of the potential benefits of consuming

foods containing coconut and coconut oil, but this is now starting

to change.

Kabara (1978) and others have reported that certain fatty acids

(FAs) (e.g., medium-chain saturates) and their derivatives (e.g.,

monoglycerides (MGs)) can have adverse effects on various

microorganisms: those microorganisms that are inactivated include

bacteria, yeast, fungi, and enveloped viruses. Additionally, it is

report-ed that the antimicrobial effects of the FAs and MGs are

additive, and total concentration is critical for inactivating

viruses (Isaacs and Thormar 1990).

The properties that determine the anti-infective action of lipids

are related to their

structure: e.g., monoglycerides, free fatty acids.

The monoglycerides are active; diglycerides and triglycerides are

inactive. Of the saturated fatty acids, lauric acid has greater

antiviral activity than either caprylic acid (C-8), capric acid (C-

10), or myristic acid (C-14). In general, it is reported that the

fatty acids and monoglycerides produce their killing/inactivating

effect by lysing the plasma membrane lipid bilayer.

The antiviral action attributed to monolaurin is that of

solubilizing the lipids and phospholipids in the envelope of the

virus, causing the disintegration of the virus envelope. However,

there is evidence from recent studies that one antimicrobial effect

in bacteria is related to monolaurin's interference with signal

transduction (Projan et al 1994), and another antimicrobial effect

in viruses is due to lauric acid's interference with virus assembly

and viral maturation (Hornung et al 1994).

Recognition of the antiviral aspects of the antimicrobial activity

of the monoglyceride of lauric acid (monolaurin) has been reported

since 1966. Some of the early work by Hierholzer and Kabara (1982)

that showed virucidal effects of monolaurin on enveloped RNA and DNA

viruses was done in conjunction with the Center for Disease Control

of the U.S. Public Health Service.

These studies were done with selected virus prototypes or recognized

representative strains of enveloped human viruses. The envelope of

these viruses is a lipid membrane, and the presence of a lipid

membrane on viruses makes them especially vulnerable to lauric acid

and its derivative monolaurin.

The medium-chain saturated fatty acids and their derivatives act by

disrupting the lipid membranes of the viruses (Isaacs and Thormar

1991; Isaacs et al 1992). Research has shown that enveloped viruses

are inactivated in both human and bovine milk by added fatty acids

and monoglycerides (Isaacs et al 1991), and also by endogenous fatty

acids and monoglycerides of the appropriate length (Isaacs et al

1986, 1990, 1991, 1992; Thormar et al 1987).

Some of the viruses inactivated by these lipids are

HIV

measles

herpes simplex (HSV-1)

vesicular stomatitis virus

visna virus

cytomegalovirus (CMV)

Many of the pathogenic organisms reported to be inactivated by these

antimicrobial lipids are those known to be responsible for

opportunistic infections in HIV-positive individuals. For example,

concurrent infection with cytomegalovirus is recognized as a serious

complication for HIV+ individuals

Macallan et al 1993).

Thus, it would appear to be important to investigate the practical

aspects and the potential benefit of an adjunct nutritional support

regimen for HIV-infected individuals, which will utilize those

dietary fats that are sources of known antiviral, antimicrobial, and

antiprotozoal monoglycerides and fatty acids such as monolaurin and

its precursor lauric acid.

Until now, no one in the mainstream nutrition community seems to

have recognized the added potential of antimicrobial lipids in the

treatment of HIV-infected or AIDS patients. These antimicrobial

fatty acids and their derivatives are essentially nontoxic to man;

they are produced in vivo by humans when they ingest those commonly

available foods that contain adequate levels of medium-chain fatty

acids such as lauric acid.

According to the published research, lauric acid is one of the

best "inactivating" fatty acids, and its monoglyceride is even more

effective than the fatty acid alone (Kabara 1978, Sands et al 1978,

Fletcher et al 1985, Kabara 1985).

The lipid-coated (envelope) viruses are dependent on host lipids for

their lipid constituents. The variability of fatty acids in the

foods of individuals as well as the variability from de novo

synthesis accounts for the variability of fatty acids in the virus

envelope and also explains the variability of glycoprotein

_expression, a variability that makes vaccine development more

difficult.

Monolaurin does not appear to have an adverse effect on desirable

gut bacteria, but rather on only potentially pathogenic

microorganisms.

For example, Isaacs et al (1991) reported no inactivation of the

common Escherichia coli or Salmonella enteritidis by monolaurin, but

major inactivation of Hemophilus influenzae, Staphylococcus

epidermidis and Group B gram positive streptococcus.

The potentially pathogenic bacteria inactivated by monolaurin

include Listeria monocytogenes, Staphylococcus aureus, Streptococcus

agalactiae, Groups A,F & G streptococci, gram-positive organisms,

and some gram-negative organisms if pretreated with a chelator.

Decreased growth of Staphylococcus aureus and decreased production

of toxic shock syndrome toxin-1 was shown with 150 mg monolaurin per

liter (Holland et al 1994). Monolaurin was 5000 times more

inhibitory against Listeria monocytogenes than ethanol (Oh &

Marshall 1993). Helicobacter pylori is rapidly inactivated by medium-

chain monoglycerides and lauric acid, and there appears to be very

little development of resistance of the organism to the bactericidal

effects (Petschow et al 1996) of these natural antimicrobials.

A number of fungi, yeast, and protozoa are inactivated or killed by

lauric acid or monolaurin. The fungi include several species of

ringworm (Isaacs et al 1991). The yeast reported is Candida albicans

(Isaacs et al 1991). The protozoan parasite Giardia lamblia is

killed by free fatty acids and monoglycerides from hydrolyzed human

milk (Hernell et al 1986, Reiner et al 1986, Crouch et al 1991,

Isaacs et al 1991). Numerous other protozoa were studied with

similar findings; these findings have not yet been published (Jon J.

Kabara, private communication, 1997).

Research continues in measuring the effect of the monoglyceride

derivative of capric acid monocaprin as well as the effects of

lauric acid. Chlamydia trachomatis is inactivated by lauric acid,

capric acid, and monocaprin (Bergsson et al 1998), and hydrogels

containing monocaprin are potent in vitro inactivators of sexually

transmitted viruses such as HSV-2 and HIV-1 and bacteria such as

Neisseria gonorrhoeae (Thormar 1999).

Origins Of The Anti-Saturated Fat Agenda

The coconut industry has suffered more than three decades of abusive

rhetoric from the consumer activist group Center for Science in the

Public Interest (CSPI), from the American Soybean Association (ASA)

and other members of the edible oil industry, and from those in the

medical and scientific community who learned their misinformation

from groups like CSPI and ASA. I would like to review briefly the

origins of the anti-saturated fat, anti-tropical oil campaigns and

hopefully give you some useful insight into the issues.

When and how did the anti-saturated fat story begin?

It really began in part in the late 1950s, when a researcher in

Minnesota announced that the heart disease epidemic was being caused

by hydrogenated vegetable fats. The edible oil industry's response

at that time was to claim it was only the saturated fat in the

hydrogenated oils that was causing the problem. The industry then

announced that it would be changing to partially hydrogenated fats

and that this would solve the problem.

In actual fact, there was no change because the oils were already

being partially hydrogenated, and the levels of saturated fatty

acids remained similar, as did the levels of the trans fatty acids.

The only thing that really changed was the term for hydrogenation or

hardening listed on the food label.

During this same period, a researcher in Philadelphia reported that

consuming polyunsaturated fatty acids lowered serum cholesterol.

This researcher, however, neglected to include the information that

the lowering was due to the cholesterol going into the tissues, such

as the liver and the arteries.

As a result of this research report and the acceptance of this new

agenda by the

domestic edible oils industries, there was a gradual increase in the

emphasis on replacing "saturated fats" in the diet and on the

consuming of larger amounts of the "polyunsaturated fats."

As many of you probably know, this strong emphasis on consuming

polyunsaturates has backfired in many ways: the current adjustments

being recommended in the U.S. by groups such as the National Academy

of Sciences replace the saturates with monounsaturates instead of

with polyunsaturates and replace polyunsaturates with

monounsaturates.

Early promoters of the anti-saturated fat ideas included companies

such as Corn Products Company (CPC International) through a book

written by Stamler in 1963, with the professional edition

published in 1966 by CPC. This book took some of the earliest

pejorative stabs at the tropical oils.

In 1963, the only tropical fat or oil singled out as high in

saturated fats was coconut oil. Palm oil had not entered the U.S.

food supply to any extent, had not become a commercial threat to the

domestic oils, and was not recognized in any of the early texts. An

observation by the editorial staff of Consumer Reports noted that

"...in 1962...one writer observed, the average American now fears

fat (saturated fat, that is) 'as he once feared witches.'"

In 1965, a representative of Procter and Gamble told the American

Heart Association to change its Diet/Heart statement, removing any

reference to the trans fatty acids. This altered official document

encouraged the consumption of partially hydrogenated fats.

In the 1970s, this same Procter and Gamble employee served as

nutrition chairman in two controlling positions for the National

Heart Lung and Blood Institute's Lipid Research Clinic (LRC) trials

and as director of one of the LRC centers. These LRC trials were the

basis for the 1984 NIH Cholesterol Consensus Conference, which in

turn spawned the National Cholesterol Education Program (NCEP).

This program encourages consumption of margarine and partially

hydrogenated fats, while admitting that trans should not be consumed

in excess. The official NCEP document states that "...coconut oil,

palm oil, and palm kernel oil...should be avoided..."

In 1966, the U.S. Department of Agriculture documents on fats and

oils talked about how unstable the unsaturated fats and oils were.

There was no criticism of the saturated fats. That criticism of

saturated fat was to come later to this agency domestic edible fats

and oils industry, and when it developed the U.S. Dietary

Guidelines.

These Dietary Guidelines became very anti-saturated fat and remain

so to this day. Nevertheless, as we will learn later in my talk,

there has started some reversal of the anti-saturated fat stance in

the works in this agency in 1998.

In the early 1970s, although a number of researchers were voicing

concerns about the trans fats, the edible oil industry and the U.S.

Food and Drug Administration (FDA) were engaging in a revolving-door

exchange that would:

promote the increasing consumption of partially hydrogenated

vegetable oils

would condemn the saturated fats

hide the trans issue

As an example of this "oily" exchange, in 1971 the FDA's general

counsel became president of the edible oil trade association, and he

in turn was replaced at the FDA by a food lawyer who had represented

the edible oil industry.

>From that point on, the truth about any real effects of the dietary

fats had to play catch-up. The American edible oil industry

sponsored "information" to educate the public, and the natural dairy

and animal fats industries were inept at countering any of that

misinformation.

Not being domestically grown in the U.S., coconut oil, palm oil, and

palm kernel oil were not around to defend themselves at that time.

The government agencies responsible for disseminating information

ignored those protesting "lone voices," and by the mid-1980s,

American food manufacturers and consumers had made major changes in

their fats and oils usage -- away from the safe saturated fats and

headlong into the problematic trans fats.

The Damaging Role Of The U.S. Consumer Activist Group CSPI

Some of the food oil industry (especially those connected with the

American Soybean Association (ASA)) and some of the consumer

activists (especially the Center for Science in the Public Interest

(CSPI) and also the American Heart Savers Association) further

eroded the status of natural fats when they sponsored the major anti-

saturated fat, anti-tropical oils campaign in the late 1980s.

Actually, an active anti-saturated fat bias started as far back as

1972 in CSPI. But beginning in 1984, this very vocal consumer

activist group started its anti-saturated fat campaign in earnest.

In particular, at this time, the campaign was against

the "saturated" frying fats, especially those being used by fast-

food restaurants. Most of these so-called saturated frying fats were

tallow based, but also included was palm oil in at least one of the

hotel/restaurant chains.

Then in a "News Release" in August 1986, CSPI criticized what it

called "Deceptive Vegetable Oil Labeling: Saturated Fat Without The

Facts," referring to "palm, coconut, and palm kernel oil" as "rich

in artery-clogging saturated fat."

CSPI further announced that it had petitioned the Food and Drug

Administration to stop allowing labeling of foods as having "100%

vegetable shortening" if they contained any of the "tropical oils."

CSPI also asked for mandatory addition of the qualifier "a saturated

fat" when coconut, palm or palm kernel oils were named on the food

label.

In 1988, CSPI published a booklet called "Saturated Fat Attack."

This booklet contained lists of processed foods "surveyed" in

Washington, DC supermarkets. The lists were used for developing

information about the saturated fat in the products.

Section III is entitled "Those Troublesome Tropical Oils," and it

contains statements encouraging pejorative labeling. There were lots

of substantive mistakes in the booklet, including errors in the

description of the biochemistry of fats and oils and completely

erroneous statements about the fat and oil composition of many of

the products.

At the same time CSPI was conducting its campaign in 1986, the

American Soybean Association began its anti-tropical oil campaign by

sending inflammatory letters, etc., to soybean farmers. The ASA took

out advertisements to promote a "Tropical Fat Fighter Kit." The ASA

hired a Washington DC "nutritionist" to survey supermarkets to

detect the presence of tropical oils in foods.

Then early in 1987, the ASA petitioned the FDA to require labeling

of "Tropical Fats," and by mid-1987, the Soybean Digest continued an

active and increasing anti-tropical oils campaign.

At about the same time (June 3, 1987), the New York Times published

an editorial, "The Truth About Vegetable Oil," in which it called

palm, palm kernel, and coconut oils "the cheaper, artery-clogging

oils from Malaysia and Indonesia" and claimed that U.S. federal

dietary guidelines opposed tropical oils, although it is not clear

that this was so. The "artery-clogging" terminology was right out of

CSPI.

Two years later in 1989, the ASA held a press conference with the

help of the CSPI in Washington DC in an attempt to counter the palm

oil group's press conference of March 6. The ASA "Media Alert"

stated that the National Heart Lung and Blood Institute and National

Research Council "recommend consumers avoid palm, palm kernel and

coconut oils."

Only months before these press conferences, millionaire Phil

Sokolof, the head of the National Heart Savers Association (NHSA),

purchased the first of a series of anti-saturated fats and anti-

tropical fats advertisements in major newspapers. No one has found

an overt connection between Sokolof (and his NHSA) and the ASA, but

the CSPI bragged about being his advisor.

What About Heart Disease And Coconut Oil?

The research over four decades concerning coconut oil in the diet

and heart disease is quite clear: coconut oil has been shown to be

beneficial. This research leads us to ask the question, "should

coconut oil be used to both prevent and treat coronary heart

disease?"

This statement is based on several reviews of the scientific

literature concerning the feeding of coconut oil to humans.

Blackburn et al (1988) have reviewed the published literature

of "coconut oil's effect on serum cholesterol and atherogenesis" and

have concluded that when "...[coconut oil is] fed physiologically

with other fats or adequately supplemented with linoleic acid,

coconut oil is a neutral fat in terms of atherogenicity."

After reviewing this same literature, Kurup and Rajmohan (1995)

conducted a study on 64 volunteers and found "...no statistically

significant alteration in the serum total cholesterol, HDL

cholesterol, LDL cholesterol, HDL cholesterol/total cholesterol

ratio and LDL cholesterol/HDL cholesterol ratio of triglycerides

from the baseline values..." A beneficial effect of adding the

coconut kernel to the diet was noted by these researchers.

Kaunitz and Dayrit (1992) have reviewed some of the epidemiological

and experimental data regarding coconut-eating groups and noted that

the "available population studies show that dietary coconut oil does

not lead to high serum cholesterol nor to high coronary heart

disease mortality or morbidity."

They noted that in 1989 Mendis et al reported undesirable lipid

changes when young adult Sri Lankan males were changed from their

normal diets by the substitution of corn oil for their customary

coconut oil.

Although the total serum cholesterol decreased 18.7% from 179.6 to

146.0 mg/dl and the LDL cholesterol decreased 23.8% from 131.6 to

100.3 mg/dl, the HDL cholesterol decreased 41.4% from 43.4 to 25.4

mg/dl (putting the HDL values very much below the acceptable lower

limit of 35 mg/dl) and the LDL/HDL ratio increased 30% from 3.0 to

3.9.

These latter two changes are considered quite undesirable. Mendis

and Kumarasunderam (1990) also compared the effect of coconut oil

and soy oil in normolipidemic young males, and again the coconut oil

resulted in an increase in the HDL cholesterol, whereas the soy oil

reduced this desirable lipoprotein. As noted above, Kurup and

Rajmohan (1995), who studied the addition of coconut oil alone to

previously mixed fat diets, had reported no significant difference

from baseline.

Previously, Prior et al (1981) had shown that islanders with high

intakes of coconut oil showed "no evidence of the high saturated fat

intake having a harmful effect in these populations." When these

groups migrated to New Zealand, however, and lowered their intake of

coconut oil, their total cholesterol and LDL cholesterol increased,

and their HDL cholesterol decreased.

Statements that any saturated fat is a dietary problem is not

supported by evidence (Enig 1993).

Studies that allegedly showed a "hypercholesterolemic" effect of

coconut oil feeding, usually only showed that coconut oil was not as

effective at lowering the serum cholesterol as was the more

unsaturated fat to which coconut oil was being compared. This

appears to be in part because coconut oil does not "drive"

cholesterol into the tissues as does the more polyunsaturated fats.

The chemical analysis of the atheroma shows that the fatty acids

from the cholesterol esters are 74% unsaturated (41% of the total

fatty acids is polyunsaturated) and only 24% are saturated. None of

the saturated fatty acids were reported to be lauric acid or

myristic acid (Felton et al 1994).

There is another aspect to the coronary heart disease picture. This

is related to the initiation of the atheromas that are reported to

be blocking arteries. Recent research shows that there is a

causative role for the herpes virus and cytomegalovirus in the

initial formation of atherosclerotic plaques and the reclogging of

arteries after angioplasty. (New York Times 1991)

What is so interesting is that the herpes virus and cytomegalovirus

are both inhibited by the antimicrobial lipid monolaurin, but

monolaurin is not formed in the body unless there is a source of

lauric acid in the diet. Thus, ironically enough, one could consider

the recommendations to avoid coconut and other lauric oils as

contributing to the increased incidence of coronary heart disease.

Chlamydia pneumoniae, a gram-negative bacteria, is another of the

microorganisms suspected of playing a role in atherosclerosis by

provoking an inflammatory process that would result in the oxidation

of lipoproteins with induction of cytokines and production of

proteolystic enzymes, a typical phenomena in atherosclerosis (Saikku

1997).

Some of the pathogenic gram-negative bacteria with an appropriate

chelator have been reported to be inactivated or killed by lauric

acid and monolaurin as well as capric acid and monocaprin (See

above, Bergsson et al 1997 and Thormar et al 1999).

However, the microorganisms most frequently identified as probable

causative infecting agents are in the herpes virus family and

include cytomegalovirus, type 2 herpes simplex (HSV-2), and

sackie B4 virus. The evidence for a causative role for

cytomegalovirus is the strongest (Ellis 1997, Visseren et al 1997,

Zhou et al 1996, Melnick et al 1996, Epstein et al 1996, Chen &

Yang

1995), but a role for HSV-2 is also shown (Raza-Ahmad et al 1995).

All members of the herpes virus family are reported to be killed by

the fatty acids and monoglycerides from saturated fatty acids

ranging from C-6 to C-14 (Isaacs et al 1991), which include

approximately 80% of the fatty acids in coconut oil.

In spite of what has been said over the past four or more decades

about the culpability of the saturated fatty acids in heart disease,

they are ultimately going to be held blameless. More and more

research is showing the problem to be related to oxidized products.

One protection man has against oxidized products is the naturally

saturated fats such as coconut oil.

The Latest On the Trans Fatty Acids

Both the United States and Canada will soon require labeling of the

trans fatty acids, which will put coconut oil in a more competitive

position than it has been in the past decade. A fear of the

vegetable oil manufacturers has always been that they would have to

label trans fatty acids. The producers of trans fatty acids have

relied on the anti-saturated fat crusade to protect their markets.

However, the latest research on saturated fatty acids and trans

fatty acids shows the saturated fatty acids coming out ahead in the

health race.

It has taken this last decade, from 1988 to 1998, to see changes in

perception. During this period, the trans fatty acids have taken a

deserved drubbing. Research reports from Europe have been emerging

since the seminal report by Mensink and Katan in 1990 that the trans

fatty acids raised the low density lipoprotein (LDL) cholesterol and

lowered the high density lipoprotein (HDL) cholesterol in serum.

This has been confirmed by studies in the U.S. (Judd et al 1994,

Khosla and 1996, Clevidence 1997).

In 1990, the lipids research group at the University of land

published a paper (Enig et al 1990) correcting some of the erroneous

data sponsored by the food industry in the 1985 review by the Life

Sciences Research Office of Federation of American Societies for

Experimental Biology (LSRO-FASEB) (Senti 1985) of the trans fatty

acids.

Also, in 1993, a group of researchers at Harvard University, led by

Professor Walter Willett, reported a positive relationship between

the dietary intake of the trans fatty acids and coronary heart

disease in a greater than 80,000 cohort of nurses who had been

followed by the School of Public Health at Harvard University for

more than a decade.

Pietinen and colleagues (1997) evaluated the findings from the large

cohort of Finnish men who were being studied for a cancer prevention

study. After controlling for the appropriate variables including

several coronary risk factors, the authors observed a significant

positive association between the intake of trans fatty acids and the

risk of death from coronary disease.

There was no association between intakes of saturated fatty acids,

or dietary cholesterol and the risk of coronary deaths.

This is another example of the differences between the effects of

the trans fatty acids and the saturated fatty acids and further

challenge to the dietary cholesterol hypothesis.

The issue of the trans fatty acids as a causative factor in remains

underexplored, but recent reports have found a connection. Bakker

and colleagues (1997) studied the data for the association between

breast-cancer incidence and linoleic acid status across European

countries since animal and ecological studies had suggest a

relationship.

They found that the mean fatty acid composition of adipose did not

show an association with omega-6 linoleic acid and breast, colon or

prostate cancer. However, cancers of the breast and colon were

positively associated with the trans fatty acids. Kohlmeier and

colleagues (1997) also reported that data from the EURAMIC study

showed adipose tissue concentration of trans fatty acids having a

positive association with postmenopausal breast cancer in European

women.

In 1995 a British documentary on the trans fatty acids aired on a

major television station in the U.K. This documentary included an

expose of the battle between the edible oil industry and some of the

major researchers of the trans fatty acids. Just this year, this

same documentary has been aired on television in France where it was

requested by a major television station.

Several of the early researchers into the trans problems, Professor

Fred Kummerow and Dr. Mann, have continued their research

and/or writing (Mann 1994). The popular media has continued to press

the issue of the amounts of trans in the foods, for which there are

still no comprehensive government data bases, and a recent published

paper from a U.S. Department of Agriculture researcher states:

"Because trans fatty acids have no known health benefits and strong

presumptive evidence suggests that they contribute markedly to the

risk of developing CHD, the results published to date suggest that

it would be prudent to lower the intake of trans fatty acids in the

U.S. diet."( 1998).

Professor Meir Stampfer from Harvard University refers to trans fats

as "one of the major nutritional issues of the nation," contending

that "they have a large impact" and "...we should completely

eliminate hydrogenated fats from the diet" (Gottesman 1998).

Lowering the trans fatty acids in the foods in the U.S. can only be

done by returning to the use of the natural unhydrogenated and more

saturated fats and oils.

Predictions can be made regarding the future of the trans fatty

acids. Our ability to predict has been pretty good; for example when

Enig Associates started producing the marketing newsletter Market

Insights written by Enig, we predicted that trans fatty acids

would eventually be swept out of the market. It appears that this

prediction may be close to coming true.

Also in the early 1990s, Market Insights predicted that CSPI would

change its mind about the trans fatty acids, which it had spent

years defending. CSPI did change its mind, and in fact went on the

attack regarding the trans, but CSPI never admitted that it had

originally been promoting the trans or that the high levels of trans

found in the fried foods in the fast food and other restaurants and

in many other foods are directly due to CSPI lobbying.

While its change was welcome, CSPI's revisionist version of its own

history of support of partially hydrogenated oils and trans fatty

acids would have fit perfectly into Orwell's "1984"

Comparison Of Saturated Fats With The Trans Fats

The statement that trans fatty acids are like saturated fatty acids

is not correct for biological systems. A listing of the biological

effects of saturated fatty acids in the diet versus the biological

effects of trans fatty acids in the diet is in actuality a listing

of the good (saturated) versus the bad (trans).

When one compares the saturated fatty acids and the trans fatty

acids, we see that:

saturated fatty acids raise HDL cholesterol, the so-called good

cholesterol, whereas the trans fatty acids lower HDL cholesterol

(Mensink and Katan 1990, Judd et al 1994);

saturated fatty acids lower the blood levels of the atherogenic

lipoprotein [a], whereas trans fatty acids raise the blood levels of

lipoprotein [a] (Khosla and 1996, Hornstra et al 1991,

Clevidence et al 1997);

saturated fatty acids conserve the elongated omega-3 fatty acids

(Gerster 1998), whereas trans fatty acids cause the tissues to lose

these omega-3 fatty acids (Sugano and Ikeda 1996);

saturated fatty acids do not inhibit insulin binding, whereas trans

fatty acids do inhibit insulin binding;

saturated fatty acids are the normal fatty acids made by the body,

and they do not interfere with enzyme functions such as the delta-6-

desaturase, whereas trans fatty acids are not made by the body, and

they interfere with many enzyme functions such as delta-6-

desaturase;

some saturated fatty acids are used by the body to fight viruses,

bacteria, and protozoa, and they support the immune system, whereas

trans fatty acids interfere with the function of the immune system.

What About The Unsaturated Fats?

The arteries of the heart are also compromised by the unsaturated

fatty acids. When the fatty acid composition of the plaques

(atheromas) in the arteries has been analyzed, the level of

saturated fatty acids in the cholesterol esters is only 26 percent

compared to that in the unsaturated fatty acids, which is 74

percent.

When the unsaturated fatty acids in the cholesterol esters in these

plaques are analyzed, it is shown that 38 percent are

polyunsaturated and 36 percent are monounsaturated. Clearly the

problem is not with the saturated fatty acids.

As an aside, you need to understand that the major role of

cholesterol in heart disease and in cancer is as the body's repair

substance, and that cholesterol is a major support molecule for the

immune system, an important antioxidant, and a necessary component

of neurotransmitter receptors. Our brains do not work very well

without adequate cholesterol. It should be apparent to scientists

that the current approach to cholesterol has been wrong.

The pathway to cholesterol synthesis starts with a molecule of

acetyl CoA that comes from the metabolism of excess protein forming

ketogenic amino acids and from the metabolism of excess

carbohydrate, as well as from the oxidation of excess fatty acids.

Grundy in 1978 reported that the degree of saturation of the fat in

the diet did not affect the rate of synthesis of cholesterol.

Research reported in 1997 ( 1997), however, showed that the

polyunsaturated fatty acids in the diet increase the rate of

cholesterol synthesis relative to other fatty acids. Furthermore,

research reported in 1993 (Hodgsons et al 1993) had shown that

dietary intake of the omega-6 polyunsaturated fatty acid linoleic

acid was positively related to coronary artery disease.

Thus, those statements made by the consumer activists in the United

States to the effect that the saturated fatty acids increase

cholesterol synthesis is without any foundation.

What happens when there is an increase or a decrease of cholesterol

in the serum is more like a shift from one compartment to another as

the body tries to rectify the potential damage from the excess

polyunsaturated fatty acids. Research by Dr. Hans Kaunitz reported

in 1978 clearly showed the potential problems with excess

polyunsaturated fatty acids.

Research Showing Beneficial Effects Of Eating The More Saturated

Fats

One major concern expressed by the nutrition community is related to

whether or not people are getting enough elongated omega-3 fatty

acids in their diets. The elongated omega-3 fatty acids of concern

are eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA).

Some research has shown that (the basic omega-3 fatty acid) -

linolenic acid is not readily converted to the elongated forms in

humans or animals, especially when there is ingestion of the trans

fatty acids and the consequent inhibition of the delta-6-desaturase

enzyme.

One recent study (Gerster 1998), which used radioisotope-labeled -

linolenic acid to measure this conversion in adult humans, showed

that if the background fat in the diet was high in saturated fat,

the conversion was approximately 6% for EPA and 3.8% for DHA,

whereas if the background fat in the diet was high in omega-6

polyunsaturated fatty acids (PUFA), the conversion was reduced 40-

50%.

Nanji and colleagues (1995) report that a diet enriched in saturated

but not unsaturated fatty acids reversed alcoholic liver injury in

their animals, which was caused by dietary linoleic acid. These

researchers conclude that this effect may be explained by the down-

regulation of lipid peroxidation.

This is another example of the need for adequate saturated fat in

the diet. Cha and Sachan (1994) studied the effects of saturated

fatty acid and unsaturated fatty acid diets on ethanol

pharmacokinetics. The hepatic enzyme alcohol dehydrogenase and

plasma carnitines were also evaluated. The researchers concluded

that dietary saturated fatty acids protect the liver from alcohol

injury by retarding ethanol metabolism, and that carnitine may be

involved.

Hargrove and colleagues (1999) noted the work of Nanji et al and

postulated that they would find that diets rich in linoleic acid

would also cause acute liver injury after acetaminophen injection.

In the first experiment, two levels of fat (15 g/100 g protein and

20 g/100 g protein) were fed using corn oil or beef tallow.

Liver enzymes indicating damage were significantly elevated in all

the animals except for those animals fed the higher level of beef

tallow. These researchers concluded that "diets with high [linoleic

acid] may promote acetaminophen-induced liver injury compared to

diets with more saturated and monounsaturated fatty acids."

Research Showing General Beneficial Effects From Feeding Coconut Oil

Research that compares coconut oil feeding with other oils to answer

a variety of biological questions is increasingly finding beneficial

results from the coconut oil.

Obesity is a major health problem in the United States and the

subject of much research. Several lines of research dealing with

metabolic effects of high fat diets have been followed. One study

used coconut oil to enrich a high fat diet and the results reported

were that the "coconut-oil enriched diet is effective in...

[producing]...a decrease in white fat stores." (Portillo et al

1998)

Cleary et al (1999) fed genetically obese animals high fat diets of

either safflower oil or coconut oil. Safflower oil-fed animals had

higher hepatic lipogenic enzyme activities than did coconut oil fed

animals. When the number of fat cells were measured, the safflower

oil-fed also had more fat cells than the coconut oil-fed.

Many of the feeding studies produce results at variance with the

popular conception. High fat diets have been used to study the

effects of different types of fatty acids on membrane phospholipid

fatty acid profiles. When such a study was performed on mice, the

phospholipid profiles were similar for diets high in linoleic acid

from high-linoleate sunflower oil relative to diets high in

saturated fatty acids from coconut oil.

However, those animals fed the diets high in oleic acid (from the

high-oleate sunflower oil) or high in elongated omega-3 fatty acids

(from menhaden oil) were not only different from the other two

diets, but they also resulted in enlarged spleens in the animals.

(Huang and Frische 1992)

Oliart-Ros and colleagues (1998), Instituto Technologico de

Veracruz, Mexico, reported on effects of different dietary fats on

sucrose-induced cardiovascular syndrome in rats. The most

significant reduction in parameters of the syndrome was obtained by

the n-3 PUFA-rich diet.

These researchers reported that the diet thought to be PUFA-

deficient presented a tissue lipid pattern similar to the n-3 PUFA-

rich diet (fish oil), which surprised and puzzeled them. When

questioned, it turned out that the diet was not really PUFA-

deficient, but rather just a normal coconut oil (nonhydrogenated),

which conserved the elongated omega-3 and normalized the omega-6-to-

omega-3 balance.

A recent study measured the effect of high-fat diets, fed for more

than three months to the neonatal pig, on the HMG-CoA reductase

enzyme's function and gave some surprises. There were two feeding

protocols: one with the added cholesterol and one without added

cholesterol, but both with coconut oil.

The hepatic reductase activity, which was the same in all groups at

the beginning of the feeding on the third day and similar on the

42nd day, was increased with and without added cholesterol on the

13th day and then decreased on the 25th day.

The data was said to suggest that dietary cholesterol suppressed

hepatic reductase activity in the young pigs regardless of their

genetic background, that the stage of development was a dominant

factor in its regulation, and that both dietary and endogenously

synthesized cholesterol was used primarily for tissue building in

very young pigs. (McWhinney et al 1996) The feeding of coconut oil

did not in any way compromise the normal development of these

animals.

When compared with feeding coconut oil, feeding two different

soybean oils to young females caused a significant decrease in HDL

cholesterol. Both soybean oils, one of which was extracted from a

new mutant soybean thought to be more oxidatively stable, were not

protective of the HDL levels (Lu Z et al 1997).

Trautwein et al (1997) studied cholesterol-fed hamsters on

different

oil supplements for plasma, hepatic, and biliary lipids. The dietary

oils included butter, palm stearin, coconut oil, rapeseed oil, olive

oil, and sunflowerseed oil.

Plasma cholesterol concentrations were higher (9.2 mmol/l) for olive

oil than for coconut oil (8.5 mmol/l), hepatic cholesterol was

highest in the olive oil group, and none of the diet groups differed

for biliary lipids. Even in this cholesterol-sensitive animal

model,

coconut oil performed better than olive oil.

Smit and colleagues (1994) had also studied the effect of feeding

coconut oil compared with feeding corn oil and olive oil in rats and

measured the effect on biliary cholesterol. Bile flow was not

different between the three diets, but the hepatic plasma membranes

showed more cholesterol and less phospholipid from corn and olive

oil feeding relative to coconut oil feeding.

Several studies (Kramer et al 1998) have pointed out problems with

canola oil feeding in newborn piglets, which result in the reduction

in number of platelets and the alteration in their size. There is

concern for similar effects in human infants. These undesirable

effects can be reversed when coconut oil or other saturated fat is

added to the feeding regimen (Kramer et al 1998).

Research has shown that coconut oil is needed for good absorption of

fat and calcium from infant formulas. The soy oil (47%) and palm

olein (53%) formula gave 90.6% absorption of fat and 39% absorption

of calcium, whereas the soy oil (60%) and coconut oil (40%) gave

95.2% absorption of fat and 48.4% absorption of calcium ( et

al 1996). Both fat and calcium are needed by the infant for proper

growth. These results clearly show the folly of removing or lowering

the coconut oil in infant formulas.

Research Showing A Role For Coconut In Enhancing Immunity And

Modulating Metabolic Functions

Coconut oil appears to help the immune system response in a

beneficial manner. Feeding coconut oil in the diet completely

abolished the expected immune factor responses to endotoxin that

were seen with corn oil feeding. This inhibitory effect on

interleukin-1 production was interpreted by the authors of the

study

as being largely due to a reduced prostaglandin and leukotriene

production (Wan and Grimble 1987).

However, the damping may be due to the fact that effects from high

omega-6 oils tend to be normalized by coconut oil feeding. Another

report from this group (Bibby and Grimble 1990) compared the effects

of corn oil and coconut oil diets on tumor necrosis factor-alpha and

endotoxin induction of the inflammatory prostaglandin E2 (PGE2)

production.

The animals fed coconut oil did not produce an increase in PGE2, and

the researchers again interpreted this as a modulatory effect that

brought about a reduction of phospholipd arachidonic acid content. A

study from the same research group (Tappia and Grimble 1994) showed

that omega-6 oil enhanced inflammatory stimuli, but that coconut

oil, along with fish oil and olive oil, suppressed the production of

interleukin-1.

Several recent studies are showing additional helpful effects of

consuming coconut oil on a regular basis, thus supplying the body

with the lauric acid derivative monolaurin. Monolaurin and the ether

analogue of monolaurin have been shown to have the potential for

damping adverse reactions to toxic forms of glutamic acid (Dave et

al 1997).

Lauric acid and capric acid have been reported to have very potent

effects on insulin secretion (Garfinkel et al 1992). Using a model

system of murine splenocytes, Witcher et al 1996 showed that

monolaurin induced proliferation of T cells and inhibited the toxic

shock syndrome toxin-1 mitogenic effects on T cells.

Monserrat and colleagues (1995) showed that a diet rich in coconut

oil could protect animals against the renal necrosis and renal

failure produced by a diet deficient in choline (a methyl donor

group). The animals had less or no mortality and increased survival

time as well as decreased incidence or severity of the renal lesions

when 20% coconut oil was added to the deficient diet. A mixture of

hydrogenated vegetable oil and corn oil did not show the same

benefits.

The immune system is complex and has many feedback mechanism to

protect it, but the wrong fat and oils can compromise these

important mechanisms. The data from the several studies show the

helpful effects of coconut fat. Additionally, there are anecdotal

reports that consumption of coconut is beneficial for individuals

with the chronic fatigue and immune dysfunction syndrome known as

CFIDS.

U.S. Patents For Medical Uses Of Lauric Oils, Medium-Chain Fatty

Acids, And Their Derivatives Such As Monolaurin

A number of patents have been granted in the United States for

medical uses of lauric oils, lauric acid, and monolaurin. Although

one earlier patent was granted to Professor Kabara more than three

decades ago, the rest of these patents have been granted within the

past decade.

In 1989 a patent was issued to the New England Deaconess Hospital

(Bistrian et al 1989) for the invention titled "Kernel Oils and

Disease Treatment." This treatment required lauric acid as the

primary fatty acid source with lauric oils constituting up to 80% of

the diet "using naturally occurring kernel oils."

In 1991 and 1995, two patents were issued to the group of

researchers whose work has been reviewed above. The first invention

(Isaacs et al 1991) was directed to antiviral and antibacterial

activity of both fatty acids and monoglycerides, primarily against

enveloped viruses.

The claims were for "a method of killing enveloped viruses in a host

human...wherein the enveloped viruses are AIDS viruses...

[or]...herpes viruses...[and the]...compounds selected from the

group consisting of fatty acids having from 6 to 14 carbon atoms and

monoglycerides of said fatty acids...[and]...wherein the fatty

acids

are saturated fatty acids."

The second patent (Isaacs et al 1995) was a further extension of the

earlier one. This patent also included discussion of the

inactivation of envelop viruses and specifically cited

monoglycerides of caproic, caprylic, capric, lauric, and myristic

acid. These fatty acids make up more than 80% of coconut oil. Also

included in this patent was a listing of susceptible viruses and

some bacteria and protozoa.

Although these latter patents may provide the owners of the patents

with the ability to extract royalties from commercial manufacturers

of monoglycerides and fatty acids, they cannot require royalties

from the human gastrointestinal tract when it is the "factory" that

is doing the manufacturing of the monoglycerides and fatty acids.

Clearly though, these patents serve to illustrate to us that the

health-giving properties of monolaurin and lauric acid are well-

recognized by some individuals in the research arena, and they lend

credence to our appropriate choice of lauric oils for promoting

health and as adjunct treatment of viral diseases.

How Can We Get Sufficient Coconut Fat Into The Food Supply In The

U.S. And Other Countries That Need Its Benefits?

I would like to review for you my perception of the status regarding

the coconut and coconut products market in the North American

countries such as the United States and Canada at the end of the

20th century and the beginning of the 21st century.

Coconut products are trying to regain their former place in several

small markets. The extraction of oil from fresh coconut has been

reported in the past decade and my impression is that this is being

considered as a desirable source of minimally processed oil, which

produces an oil with desirable characteristics for the natural foods

market.

There have been some niche markets for coconut products developing

during the past half-decade. These are represented primarily by the

natural foods and health foods producers. Some examples are the new

coconut butters produced in the U.S. and Canada by Omega Nutrition

and Carotec, Inc. And, this is no longer as small a market as it has

been in past years.

Desiccated coconut products, coconut milk, and even coconut oil are

appearing on the shelves of many of these markets. After years of

packaging coconut oil for skin use only, one of the large suppliers

of oils to the natural foods and health foods stores has introduced

coconut oil for food use, and it has appeared within the last few

months on shelves in the Washington, DC metropolitan area along with

other oils. I believe I indirectly had something to do with this

turn of events.

Conclusions And Recommendations

Coconut products for inedible and especially edible uses are of the

greatest importance for the health of the entire world.

Some of what I have been telling you, most of you already know. But

in saying these things for the record, it is my intention to tell

those who did not know all the details until they heard or read this

paper about the positive properties of coconut.

Coconut oil is a most important oil because it is a lauric oil. The

lauric fats possess unique characteristics for both food industry

uses and also for the uses of the soaps and cosmetic industries.

Because of the unique properties of coconut oil, the fats and oils

industry has spent untold millions to formulate replacements from

those seed oils so widely grown in the world outside the tropics.

While it has been impossible to truly duplicate coconut oil for some

of its applications, many food manufacturers have been willing to

settle for lesser quality in their products. Consumers have also

been willing to settle for a lesser quality, in part because they

have been fed so much misinformation about fats and oils.

Desiccated coconut, on the other hand, has been impossible to

duplicate, and the markets for desiccated coconut have continued.

The powdered form of desiccated coconut now being sold in Europe and

Asia has yet to find a market in the U.S., but I predict that it

will become an indispensable product in the natural foods industry.

Creamed coconut, which is desiccated coconut very finely ground,

could be used as a nut butter.

APCC needs to promote the edible uses of coconut, and it needs to

promote the reeducation of the consumer, the clinician, and the

scientist. The researcher H. Thormar (Thormar et al 1999) concluded

his abstract with the statement that monocaprin "...is a natural

compound found in certain foodstuffs such as milk and is therefore

unlikely to cause harmful side effects in the concentrations used."

It is not monocaprin that is found in milk, but capric acid. It is

likely safe at most any level found in food. However, the levels in

milk fat are at most 2 percent whereas the levels in coconut fat are

7 percent.

One last reference for the record. Sircar and Kansra (1998) have

reviewed the increasing trend of atherosclerotic disease and type-2

diabetes mellitus in the Indians from both the subcontinent of India

and abroad.

They note that over the time when there has been an alarming

increase in the prevalence of these diseases, there has been a

replacement of traditional cooking fats with refined vegetable oils

that are promoted as heart-friendly, but which are being found to be

detrimental to health. These astute researchers suggest that it is

time to return to the traditional cooking fats like ghee, coconut

oil, and mustard oil.

There are a number of areas of encouragement. The nutrition

community in the United States is slowly starting to recognize the

difference between medium chain saturated fatty acids and other

saturated fatty acids. We predict now that the qualities of coconut,

both for health and food function, will ultimately win out.

G. Enig, Ph.D., F.A.C.N.

12501 Prosperity Drive

Suite 340

Silver Spring, MD, 20904-1689 USA

Tel: Fax:

--

Ilanit Tof - Signature

Ilanit

Ms Ilanit Tof

B.A. (Psychophysiology/Psychology)

Advanced Diploma Healing with Wholefoods

PhD Holistic Nutrition (candidate)

Little Tree Oriental Healing Arts

Helping you grow to new heights of wellbeing

with Oriental Traditions and Modern Nutrition

ilanit@...

www.littletree.com.au

[Guest guest]

Mine is not solid at room temp I wonder why..........

Our society LOVES to see something as a magic pill, herb, whatever.

The microwave disposable world!

I'm not nit picking b/c there were a few others but everyone please

try to not include too many attachments or old emails when replying

b/c I have gotten several personal complaints recently that their

mail box is just packed or something. I usually suggest the no mail

or digest but even with the digest then you have to scroll down

forever. I just simply deleted the article before sending this.

Hopefully others here will remember to do that for our fellow group

mates? Please do try. Thanks in advance.

Peace and Love,

Reggie

>

>

>

> interesting article. yes coconut oil has been talked about with

regard

> to healing properties for the last 10 years or so - increasingly

so the

> last few years.

>

> many foods have healing properties but it is also important to

look at

> the diet and life as a whole. and not see one thing as amagic

bullet -

> tempting though that is!

>

> coconut oil is a saturated fat which can be a good thing or can

cause

> problems in some people. It is a hrad fat - it is solid at room

temp and

> in some people it can cause hardening like any saturated fat and

can gum

> up the kidneys and liver.

>

> it also has many good properties as the article points out.

everything

> in moderation, even moderation though dont try to tell me that

when i am

> attacking a jar of it with a spoon! I do like it and find it

tasty - but

> it does not seem to agree with me as i wrote in my article on fats

and

> oils which you can see again here....

>

> http://www.energizedeating.com/blog/index.php/2006/02/19/fat-

chance-reflections-on-oil-consumption/

>

> it also has a strong odour and flavour which does not lend itself

to all

> dishes. that is why i do like the rice bran oil for that and

despite

> some negative press lately i still think small amounts of fresh

organic

> flax seed oil is a good addition periodically.

>

> reggies, mary enig is associated with the weston price people. I

know

> you are not a fan of theirs for their pro animal food consumption

ideas.

> In reality weston price was amazing. he really talked about

traditional

> diets and very low animal food consumption. yes i think he was a

fan of

> butter. but he really was looking at native people in their

traditional

> environments. what is now sold as weston price and pottenger

foundation

> stuff is interpreted by the modern day proponents - eg mary and

also

> sally. they have some nice ideas but others i do not agree with at

all -

> though their promotion of whole, unpolluted food is a good thing -

we

> can take or leave the rest and the details have to be interpreted

for

> everyone. So what i am saying is that although weston price was

not

> promoting an animal free food diet he was singing he praises and

showing

> very good evidence - amazing stuff in fact that showed that a

plant

> based diet did extraordinary things for human beings and moving

away

> from that was the beginning of the decline of health.

>

[Guest guest]

coconut oil is liquid at a certain temp - like over 20 somthing celcius

- when cold it is solid.

purpleveg wrote:

Mine is not solid at room temp I wonder why..........

Our society LOVES to see something as a magic pill, herb, whatever.

The microwave disposable world!

I'm not nit picking b/c there were a few others but everyone please

try to not include too many attachments or old emails when replying

b/c I have gotten several personal complaints recently that their

mail box is just packed or something. I usually suggest the no mail

or digest but even with the digest then you have to scroll down

forever. I just simply deleted the article before sending this.

Hopefully others here will remember to do that for our fellow group

mates? Please do try. Thanks in advance.

Peace and Love,

Reggie

..

--

Ilanit Tof - Signature

Ilanit

Ms Ilanit Tof

B.A. (Psychophysiology/Psychology)

Advanced Diploma Healing with Wholefoods

PhD Holistic Nutrition (candidate)

Little Tree Oriental Healing Arts

Helping you grow to new heights of wellbeing

with Oriental Traditions and Modern Nutrition

ilanit@...

www.littletree.com.au

[Guest guest]

> coconut oil is liquid at a certain temp - like over 20 somthing celcius

> - when cold it is solid.

I don't really understand, then, why it is compared to other

hydrogenated fats, since body temperature is 38 degrees Celsius. Plus,

it is not chemically altered.

ne

[Guest guest]

Carolyn, if you're looking for coconut oil in the grocery store, look in the

baking section. It's with the solid shortenings not the cooking oils.

andresa

>

> I saw flax seeds and all kinds of things with flax in them in Whole Foods. 

Even flax seed oil.  It looked like it was medicinal and I wondered what it was

used for.  Wasn't in the regular oil section.  Didn't see coconut oil but all

kinds of other oils. 

>  

>  

>

> Carolyn Wilkerson

>

>

>  

>