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From: www.notmilk.com
THE MILK LETTER
: A MESSAGE TO MY PATIENTS
Robert M. Kradjian, MD
Breast Surgery Chief Division of General Surgery,
Seton Medical Centre #302 - 1800 Sullivan Ave.
Daly City, CA 94015 USA
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"MILK"
Just the word itself sounds comforting! "How about a nice cup of hot milk?"
The last time you heard that question it was from someone who cared for you--and
you appreciated their effort.
The entire matter of food and especially that of milk is surrounded with emotional
and cultural importance. Milk was our very first food. If we were fortunate
it was our mother's milk. A loving link, given and taken. It was the only path
to survival. If not mother's milk it was cow's milk or soy milk "formula"--rarely
it was goat, camel or water buffalo milk.
Now, we are a nation of milk drinkers. Nearly all of us. Infants, the young,
adolescents, adults and even the aged. We drink dozens or even several hundred
gallons a year and add to that many pounds of "dairy products" such
as cheese, butter, and yogurt.
Can there be anything wrong with this? We see reassuring images of healthy,
beautiful people on our television screens and hear messages that assure us
that, "Milk is good for your body." Our dieticians insist that: "You've
got to have milk, or where will you get your calcium?" School lunches always
include milk and nearly every hospital meal will have milk added. And if that
isn't enough, our nutritionists told us for years that dairy products make up
an "essential food group." Industry spokesmen made sure that colourful
charts proclaiming the necessity of milk and other essential nutrients were
made available at no cost for schools. Cow's milk became "normal."
You may be surprised to learn that most of the human beings that live on planet
Earth today do not drink or use cow's milk. Further, most of them can't drink
milk because it makes them ill.
There are students of human nutrition who are not supportive of milk use for
adults. Here is a quotation from the March/April 1991 Utne Reader:
If you really want to play it safe, you may decide to join the growing number
of Americans who are eliminating dairy products from their diets altogether.
Although this sounds radical to those of us weaned on milk and the five basic
food groups, it is eminently viable. Indeed, of all the mammals, only humans--and
then only a minority, principally Caucasians--continue to drink milk beyond
babyhood. Who is right? Why the confusion? Where best to get our answers? Can
we trust milk industry spokesmen? Can you trust any industry spokesmen? Are
nutritionists up to date or are they simply repeating what their professors
learned years ago? What about the new voices urging caution? I believe that
there are three reliable sources of information. The first, and probably the
best, is a study of nature. The second is to study the history of our own species.
Finally we need to look at the world's scientific literature on the subject
of milk.
Let's look at the scientific literature first. From 1988 to 1993 there were
over 2,700 articles dealing with milk recorded in the 'Medicine' archives. Fifteen
hundred of these had milk as the main focus of the article. There is no lack
of scientific information on this subject. I reviewed over 500 of the 1,500
articles, discarding articles that dealt exclusively with animals, esoteric
research and inconclusive studies.
How would I summarize the articles? They were only slightly less than horrifying.
First of all, none of the authors spoke of cow's milk as an excellent food,
free of side effects and the 'perfect food' as we have been led to believe by
the industry. The main focus of the published reports seems to be on intestinal
colic, intestinal irritation, intestinal bleeding, anemia, allergic reactions
in infants and children as well as infections such as salmonella. More ominous
is the fear of viral infection with bovine leukemia virus or an AIDS-like virus
as well as concern for childhood diabetes. Contamination of milk by blood and
white (pus) cells as well as a variety of chemicals and insecticides was also
discussed. Among children the problems were allergy, ear and tonsillar infections,
bedwetting, asthma, intestinal bleeding, colic and childhood diabetes. In adults
the problems seemed centered more around heart disease and arthritis, allergy,
sinusitis, and the more serious questions of leukemia, lymphoma and cancer.
I think that an answer can also be found in a consideration of what occurs in
nature and what happens with free living mammals and what happens with human
groups living in close to a natural state as 'hunter-gatherers'.
Our paleolithic ancestors are another crucial and interesting group to study.
Here we are limited to speculation and indirect evidences, but the bony remains
available for our study are remarkable. There is no doubt whatever that these
skeletal remains reflect great strength, muscularity (the size of the muscular
insertions show this), and total absence of advanced osteoporosis. And if you
feel that these people are not important for us to study, consider that today
our genes are programming our bodies in almost exactly the same way as our ancestors
of 50,000 to 100,000 years ago.
WHAT IS MILK?
Milk is a maternal lactating secretion, a short term nutrient for new-borns.
Nothing more, nothing less. Invariably, the mother of any mammal will provide
her milk for a short period of time immediately after birth. When the time comes
for 'weaning', the young offspring is introduced to the proper food for that
species of mammal. A familiar example is that of a puppy. The mother nurses
the pup for just a few weeks and then rejects the young animal and teaches it
to eat solid food. Nursing is provided by nature only for the very youngest
of mammals. Of course, it is not possible for animals living in a natural state
to continue with the drinking of milk after weaning.
IS ALL MILK THE SAME?
Then there is the matter of where we get our milk. We have settled on the cow
because of its docile nature, its size, and its abundant milk supply. Somehow
this choice seems 'normal' and blessed by nature, our culture, and our customs.
But is it natural? Is it wise to drink the milk of another species of mammal?
Consider for a moment, if it was possible, to drink the milk of a mammal other
than a cow, let's say a rat. Or perhaps the milk of a dog would be more to your
liking. Possibly some horse milk or cat milk. Do you get the idea? Well, I'm
not serious about this, except to suggest that human milk is for human infants,
dogs' milk is for pups, cows' milk is for calves, cats' milk is for kittens,
and so forth. Clearly, this is the way nature intends it. Just use your own
good judgement on this one.
Milk is not just milk. The milk of every species of mammal is unique and specifically
tailored to the requirements of that animal. For example, cows' milk is very
much richer in protein than human milk. Three to four times as much. It has
five to seven times the mineral content. However, it is markedly deficient in
essential fatty acids when compared to human mothers' milk. Mothers' milk has
six to ten times as much of the essential fatty acids, especially linoleic acid.
(Incidentally, skimmed cow's milk has no linoleic acid). It simply is not designed
for humans.
Food is not just food, and milk is not just milk. It is not only the proper
amount of food but the proper qualitative composition that is critical for the
very best in health and growth. Biochemists and physiologists - and rarely medical
doctors - are gradually learning that foods contain the crucial elements that
allow a particular species to develop its unique specializations.
Clearly, our specialization is for advanced neurological development and delicate
neuromuscular control. We do not have much need of massive skeletal growth or
huge muscle groups as does a calf. Think of the difference between the demands
make on the human hand and the demands on a cow's hoof. Human new-borns specifically
need critical material for their brains, spinal cord and nerves.
Can mother's milk increase intelligence? It seems that it can. In a remarkable
study published in Lancet during 1992 (Vol. 339, p. 261-4), a group of British
workers randomly placed premature infants into two groups. One group received
a proper formula, the other group received human breast milk. Both fluids were
given by stomach tube. These children were followed up for over 10 years. In
intelligence testing, the human milk children averaged 10 IQ points higher!
Well, why not? Why wouldn't the correct building blocks for the rapidly maturing
and growing brain have a positive effect?
In the American Journal of Clinical Nutrition (1982) Ralph Holman described
an infant who developed profound neurological disease while being nourished
by intravenous fluids only. The fluids used contained only linoleic acid - just
one of the essential fatty acids. When the other, alpha linoleic acid, was added
to the intravenous fluids the neurological disorders cleared.
In the same journal five years later Bjerve, Mostad and Thoresen, working in
Norway found exactly the same problem in adult patients on long term gastric
tube feeding.
In 1930 Dr. G.O.
Burr in Minnesota working with rats found that linoleic acid deficiencies created
a deficiency syndrome. Why is this mentioned? In the early 1960s pediatricians
found skin lesions in children fed formulas without the same linoleic acid.
Remembering the research, the addition of the acid to the formula cured the
problem. Essential fatty acids are just that and cows' milk is markedly deficient
in these when compared to human milk.
WELL, AT LEAST COW'S MILK IS PURE
Or is it? Fifty years ago an average cow produced 2,000 pounds of milk per year.
Today the top producers give 50,000 pounds! How was this accomplished? Drugs,
antibiotics, hormones, forced feeding plans and specialized breeding; that's
how.
The latest high-tech onslaught on the poor cow is bovine growth hormone or BGH.
This genetically engineered drug is supposed to stimulate milk production but,
according to Monsanto, the hormone's manufacturer, does not affect the milk
or meat. There are three other manufacturers: Upjohn, Eli Lilly, and American
Cyanamid Company. Obviously, there have been no long-term studies on the hormone's
effect on the humans drinking the milk. Other countries have banned BGH because
of safety concerns. One of the problems with adding molecules to a milk cows'
body is that the molecules usually come out in the milk. I don't know how you
feel, but I don't want to experiment with the ingestion of a growth hormone.
A related problem is that it causes a marked increase (50 to 70 per cent) in
mastitis. This, then, requires antibiotic therapy, and the residues of the antibiotics
appear in the milk. It seems that the public is uneasy about this product and
in one survey 43 per cent felt that growth hormone treated milk represented
a health risk. A vice president for public policy at Monsanto was opposed to
labelling for that reason, and because the labelling would create an 'artificial
distinction'.
The country is awash
with milk as it is, we produce more milk than we can consume. Let's not create
storage costs and further taxpayer burdens, because the law requires the USDA
to buy any surplus of butter, cheese, or non-fat dry milk at a support price
set by Congress! In fiscal 1991, the USDA spent $757 million on surplus butter,
and one billion dollars a year on average for price supports during the 1980s
(Consumer Reports, May 1992: 330-32).
Any lactating mammal excretes toxins through her milk. This includes antibiotics,
pesticides, chemicals and hormones. Also, all cows' milk contains blood! The
inspectors are simply asked to keep it under certain limits. You may be horrified
to learn that the USDA allows milk to contain from one to one and a half million
white blood cells per millilitre. (That's only 1/30 of an ounce). If you don't
already know this, I'm sorry to tell you that another way to describe white
cells where they don't belong would be to call them pus cells. To get to the
point, is milk pure or is it a chemical, biological, and bacterial cocktail?
Finally, will the Food and Drug Administration (FDA) protect you? The United
States General Accounting Office (GAO) tells us that the FDA and the individual
States are failing to protect the public from drug residues in milk. Authorities
test for only 4 of the 82 drugs in dairy cows.
As you can imagine, the Milk Industry Foundation's spokesman claims it's perfectly
safe. Jerome Kozak says, "I still think that milk is the safest product
we have."
Other, perhaps less biased observers, have found the following: 38% of milk
samples in 10 cities were contaminated with sulfa drugs or other antibiotics.
(This from the Centre for Science in the Public Interest and The Wall Street
Journal, Dec. 29, 1989). A similar study in Washington, DC found a 20 percent
contamination rate (Nutrition Action Healthletter, April 1990).
What's going on here? When the FDA tested milk, they found few problems. However,
they used very lax standards. When they used the same criteria, the FDA data
showed 51 percent of the milk samples showed drug traces.
Let's focus in on this because it's critical to our understanding of the apparent
discrepancies. The FDA uses a disk-assay method that can detect only 2 of the
30 or so drugs found in milk. Also, the test detects only at the relatively
high level. A more powerful test called the 'Charm II test' can detect drugs
down to 5 parts per billion.
One nasty subject must be discussed. It seems that cows are forever getting
infections around the udder that require ointments and antibiotics. An article
from France tells us that when a cow receives penicillin, that penicillin appears
in the milk for from 4 to 7 milkings. Another study from the University of Nevada,
Reno tells of cells in 'mastic milk', milk from cows with infected udders. An
elaborate analysis of the cell fragments, employing cell cultures, flow cytometric
analysis , and a great deal of high tech stuff. Do you know what the conclusion
was? If the cow has mastitis, there is pus in the milk. Sorry, it's in the study,
all concealed with language such as "macrophages containing many vacuoles
and phagocytosed particles," etc.
IT GETS WORSE
Well, at least human mothers' milk is pure! Sorry. A huge study showed that
human breast milk in over 14,000 women had contamination by pesticides! Further,
it seems that the sources of the pesticides are meat and--you guessed it--dairy
products. Well, why not? These pesticides are concentrated in fat and that's
what's in these products. (Of interest, a subgroup of lactating vegetarian mothers
had only half the levels of contamination).
A recent report showed an increased concentration of pesticides in the breast
tissue of women with breast cancer when compared to the tissue of women with
fibrocystic disease. Other articles in the standard medical literature describe
problems. Just scan these titles:
1. Cow's Milk as a Cause of Infantile Colic in Breast-Fed Infants. Lancet 2
(1978): 437
2. Dietary Protein-Induced
Colitis in Breast- Fed Infants, J. Pediatr. I01 (1982): 906
3. The Question of the Elimination of Foreign Protein in Women's Milk, J. Immunology
19 (1930): 15
There are many others. There are dozens of studies describing the prompt appearance
of cows' milk allergy in children being exclusively breast-fed! The cows' milk
allergens simply appear in the mother's milk and are transmitted to the infant.
A committee on nutrition of the American Academy of Pediatrics reported on the
use of whole cows' milk in infancy (Pediatrics 1983: 72-253). They were unable
to provide any cogent reason why bovine milk should be used before the first
birthday yet continued to recommend its use! Doctor Frank Oski from the Upstate
Medical Centre Department of Pediatrics, commenting on the recommendation, cited
the problems of acute gastrointestinal blood loss in infants, the lack of iron,
recurrent abdominal pain, milk-borne infections and contaminants, and said:
Why give it at all - then or ever? In the face of uncertainty about many of
the potential dangers of whole bovine milk, it would seem prudent to recommend
that whole milk not be started until the answers are available. Isn't it time
for these uncontrolled experiments on human nutrition to come to an end?
In the same issue of Pediatrics he further commented: It is my thesis that whole
milk should not be fed to the infant in the first year of life because of its
association with iron deficiency anemia (milk is so deficient in iron that an
infant would have to drink an impossible 31 quarts a day to get the RDA of 15
mg), acute gastrointestinal bleeding, and various manifestations of food allergy.
I suggest that unmodified whole bovine milk should not be consumed after infancy
because of the problems of lactose intolerance, its contribution to the genesis
of atherosclerosis, and its possible link to other diseases.
In late 1992 Dr. Benjamin Spock, possibly the best known pediatrician in history,
shocked the country when he articulated the same thoughts and specified avoidance
for the first two years of life. Here is his quotation: I want to pass on the
word to parents that cows' milk from the carton has definite faults for some
babies. Human milk is the right one for babies. A study comparing the incidence
of allergy and colic in the breast-fed infants of omnivorous and vegan mothers
would be important. I haven't found such a study; it would be both important
and inexpensive. And it will probably never be done. There is simply no academic
or economic profit involved.
OTHER PROBLEMS
Let's just mention the problems of bacterial contamination. Salmonella, E. coli,
and staphylococcal infections can be traced to milk. In the old days tuberculosis
was a major problem and some folks want to go back to those times by insisting
on raw milk on the basis that it's "natural." This is insanity! A
study from UCLA showed that over a third of all cases of salmonella infection
in California, 1980-1983 were traced to raw milk. That'll be a way to revive
good old brucellosis again and I would fear leukemia, too. (More about that
later). In England, and Wales where raw milk is still consumed there have been
outbreaks of milk-borne diseases.
The Journal of the
American Medical Association (251: 483, 1984) reported a multi-state series
of infections caused by Yersinia enterocolitica in pasteurised whole milk. This
is despite safety precautions.
All parents dread juvenile diabetes for their children. A Canadian study reported
in the American Journal of Clinical Nutrition, Mar. 1990, describes a "...significant
positive correlation between consumption of unfermented milk protein and incidence
of insulin dependent diabetes mellitus in data from various countries. Conversely
a possible negative relationship is observed between breast-feeding at age 3
months and diabetes risk.".
Another study from Finland found that diabetic children had higher levels of
serum antibodies to cows’ milk (Diabetes Research 7(3): 137-140 March 1988).
Here is a quotation from this study:
We infer that either the pattern of cows' milk consumption is altered in children
who will have insulin dependent diabetes mellitus or, their immunological reactivity
to proteins in cows' milk is enhanced, or the permeability of their intestines
to cows' milk protein is higher than
normal.
The April 18, 1992 British Medical Journal has a fascinating study contrasting
the difference in incidence of juvenile insulin dependent diabetes in Pakistani
children who have migrated to England. The incidence is roughly 10 times greater
in the English group compared to children remaining in Pakistan! What caused
this highly significant increase? The authors said that "the diet was unchanged
in Great Britain." Do you believe that? Do you think that the availability
of milk, sugar and fat is the same in Pakistan as it is in England? That a grocery
store in England has the same products as food sources in Pakistan? I don't
believe that for a minute. Remember, we're not talking here about adult onset,
type II diabetes which all workers agree is strongly linked to diet as well
as to a genetic predisposition. This study is a major blow to the "it's
all in your genes" crowd. Type I diabetes was always considered to be genetic
or possibly viral, but now this? So resistant are we to consider diet as causation
that the authors of the last article concluded that the cooler climate in England
altered viruses and caused the very real increase in diabetes! The first two
authors had the same reluctance to admit the obvious. The milk just may have
had something to do with the disease.
The latest in this remarkable list of reports, a New England Journal of Medicine
article (July 30, 1992), also reported in the Los Angeles Times. This study
comes from the Hospital for Sick Children in Toronto and from Finnish researchers.
In Finland there is "...the world's highest rate of dairy product consumption
and the world's highest rate of insulin dependent diabetes. The disease strikes
about 40 children out of every 1,000 there contrasted with six to eight per
1,000 in the United States.... Antibodies produced against the milk protein
during the first year of life, the researchers speculate, also attack and destroy
the pancreas in a so-called auto-immune reaction, producing diabetes in people
whose genetic makeup leaves them vulnerable." "...142 Finnish children
with newly diagnosed diabetes. They found that every one had at least eight
times as many antibodies against the milk protein as did healthy children, clear
evidence that the children had a raging auto immune disorder." The team
has now expanded the study to 400 children and is starting a trial where 3,000
children will receive no dairy products during the first nine months of life.
"The study may take 10 years, but we'll get a definitive answer one way
or the other," according to one of the researchers. I would caution them
to be certain that the breast feeding mothers use on cows' milk in their diets
or the results will be confounded by the transmission of the cows' milk protein
in the mother's breast milk.... Now what was the reaction from the diabetes
association? This is very interesting! Dr. F. Xavier Pi-Sunyer, the president
of the association says: "It does not mean that children should stop drinking
milk or that parents of diabetics should withdraw dairy products. These are
rich sources of good protein." (Emphasis added) My God, it's the "good
protein" that causes the problem! Do you suspect that the dairy industry
may have helped the American Diabetes Association in the past?
LEUKEMIA? LYMPHOMA? THIS MAY BE THE WORST--BRACE YOURSELF!
I hate to tell you this, but the bovine leukemia virus is found in more than
three of five dairy cows in the United States! This involves about 80% of dairy
herds. Unfortunately, when the milk is pooled, a very large percentage of all
milk produced is contaminated (90 to 95 per cent). Of course the virus is killed
in pasteurisation--if the pasteurisation was done correctly. What if the milk
is raw? In a study of randomly collected raw milk samples the bovine leukemia
virus was recovered from two-thirds. I sincerely hope that the raw milk dairy
herds are carefully monitored when compared to the regular herds. (Science 1981;
213:1014).
This is a world-wide problem. One lengthy study from Germany deplored the problem
and admitted the impossibility of keeping the virus from infected cows' milk
from the rest of the milk. Several European countries, including Germany and
Switzerland, have attempted to "cull" the infected cows from their
herds. Certainly the United States must be the leader in the fight against leukemic
dairy cows, right? Wrong! We are the worst in the world with the former exception
of Venezuela according to Virgil Hulse MD, a milk specialist who also has a
B.S. in Dairy Manufacturing as well as a Master's degree in Public Health.
As mentioned, the leukemia virus is rendered inactive by pasteurisation. Of
course. However, there can be Chernobyl like accidents. One of these occurred
in the Chicago area in April, 1985. At a modern, large, milk processing plant
an accidental "cross connection" between raw and pasteurized milk
occurred. A violent salmonella outbreak followed, killing 4 and making an estimated
150,000 ill. Now the question I would pose to the dairy industry people is this:
"How can you assure the people who drank this milk that they were not exposed
to the ingestion of raw, unkilled, bully active bovine leukemia viruses?"
Further, it would be fascinating to know if a "cluster" of leukemia
cases blossoms in that area in 1 to 3 decades. There are reports of "leukemia
clusters" elsewhere, one of them mentioned in the June 10, 1990 San Francisco
Chronicle involving Northern California.
What happens to other species of mammals when they are exposed to the bovine
leukemia virus? It's a fair question and the answer is not reassuring. Virtually
all animals exposed to the virus develop leukemia. This includes sheep, goats,
and even primates such as rhesus monkeys and chimpanzees. The route of transmission
includes ingestion (both intravenous and intramuscular) and cells present in
milk. There are obviously no instances of transfer attempts to human beings,
but we know that the virus can infect human cells in vitro. There is evidence
of human antibody formation to the bovine leukemia virus; this is disturbing.
How did the bovine leukemia virus particles gain access to humans and become
antigens? Was it as small, denatured particles?
If the bovine leukemia viruses causes human leukemia, we could expect the dairy
states with known leukemic herds to have a higher incidence of human leukemia.
Is this so? Unfortunately, it seems to be the case! Iowa, Nebraska, South Dakota,
Minnesota and Wisconsin have statistically higher incidence of leukemia than
the national average. In Russia and in Sweden, areas with uncontrolled bovine
leukemia virus have been linked with increases in human leukemia. I am also
told that veterinarians have higher rates of leukemia than the general public.
Dairy farmers have significantly elevated leukemia rates. Recent research shows
lymphocytes from milk fed to neonatal mammals gains access to bodily tissues
by passing directly through the intestinal wall.
An optimistic note from the University of Illinois, Ubana from the Department
of Animal Sciences shows the importance of one's perspective. Since they are
concerned with the economics of milk and not primarily the health aspects, they
noted that the production of milk was greater in the cows with the bovine leukemia
virus. However when the leukemia produced a persistent and significant lymphocytosis
(increased white blood cell count), the production fell off. They suggested
"a need to re-evaluate the economic impact of bovine leukemia virus infection
on the dairy industry". Does this mean that leukemia is good for profits
only if we can keep it under control? You can get the details on this business
concern from Proc. Nat. Acad. Sciences, U.S. Feb. 1989. I added emphasis and
am insulted that a university department feels that this is an economic and
not a human health issue. Do not expect help from the Department of Agriculture
or the universities. The money stakes and the political pressures are too great.
You're on you own. What does this all mean? We know that virus is capable of
producing leukemia in other animals. Is it proven that it can contribute to
human leukemia (or lymphoma, a related cancer)? Several articles tackle this
one:
1. Epidemiologic Relationships of the Bovine Population and Human Leukemia in
Iowa. Am Journal of Epidemiology 112 (1980):80
2. Milk of Dairy Cows Frequently Contains a Leukemogenic Virus. Science 213 (1981): 1014
3. Beware of the Cow. (Editorial) Lancet 2 (1974):30
4. Is Bovine Milk
A Health Hazard?. Pediatrics; Suppl. Feeding the Normal Infant. 75:182-186;
1985
In Norway, 1422 individuals were followed for 11 and a half years. Those drinking
2 or more glasses of milk per day had 3.5 times the incidence of cancer of the
lymphatic organs. British Med. Journal 61:456-9, March 1990.
One of the more thoughtful articles on this subject is from Allan S. Cunningham
of Cooperstown, New York. Writing in the Lancet, November 27, 1976 (page 1184),
his article is entitled, "Lymphomas and Animal-Protein Consumption".
Many people think of milk as a "liquid meat" and Dr. Cunningham agrees
with this. He tracked the beef and dairy consumption in terms of grams per day
for a one year period, 1955-1956., in 15 countries . New Zealand, United States
and Canada were highest in that order. The lowest was Japan followed by Yugoslavia
and France. The difference between the highest and lowest was quite pronounced:
43.8 grams/day for New Zealanders versus 1.5 for Japan. Nearly a 30-fold difference!
(Parenthetically, the last 36 years have seen a startling increase in the amount
of beef and milk used in Japan and their disease patterns are reflecting this,
confirming the lack of 'genetic protection' seen in migration studies. Formerly
the increase in frequency of lymphomas in Japanese people was only in those
who moved to the USA)!
An interesting bit of trivia is to note the memorial built at the Gyokusenji
Temple in Shimoda, Japan. This marked the spot where the first cow was killed
in Japan for human consumption! The chains around this memorial were a gift
from the US Navy. Where do you suppose the Japanese got the idea to eat beef?
The year? 1930.
Cunningham found a highly significant positive correlation between deaths from
lymphomas and beef and dairy ingestion in the 15 countries analysed. A few quotations
from his article follow:
The average intake of protein in many countries is far in excess of the recommended
requirements. Excessive consumption of animal protein may be one co-factor in
the causation of lymphomas by acting in the following manner. Ingestion of certain
proteins results in the adsorption of antigenic fragments through the gastrointestinal
mucous membrane.
This results in chronic stimulation of lymphoid tissue to which these fragments
gain access "Chronic immunological stimulation causes lymphomas in laboratory
animals and is believed to cause lymphoid cancers in men." The gastrointestinal
mucous membrane is only a partial barrier to the absorption of food antigens,
and circulating antibodies to food protein is commonplace especially potent
lymphoid stimulants. Ingestion of cows' milk can produce generalized lymphadenopathy,
hepatosplenomegaly, and profound adenoid hypertrophy. It has been conservatively
estimated that more than 100 distinct antigens are released by the normal digestion
of cows' milk which evoke production of all antibody classes [This may explain
why pasteurized, killed viruses are still antigenic and can still cause disease.
Here's more. A large prospective study from Norway was reported in the British
Journal of Cancer 61 (3):456-9, March 1990. (Almost 16,000 individuals were
followed for 11 and a half years). For most cancers there was no association
between the tumour and milk ingestion. However, in lymphoma, there was a strong
positive association. If one drank two glasses or more daily (or the equivalent
in dairy products), the odds were 3.4 times greater than in persons drinking
less than one glass of developing a lymphoma.
There are two other cow-related diseases that you should be aware of. At this
time they are not known to be spread by the use of dairy products and are not
known to involve man. The first is bovine spongiform encephalopathy (BSE), and
the second is the bovine immunodeficiency virus (BIV). The first of these diseases,
we hope, is confined to England and causes cavities in the animal's brain. Sheep
have long been known to suffer from a disease called scrapie. It seems to have
been started by the feeding of contaminated sheep parts, especially brains,
to the British cows. Now, use your good sense. Do cows seem like carnivores?
Should they eat meat? This profit-motivated practice backfired and bovine spongiform
encephalopathy, or Mad Cow Disease, swept Britain. The disease literally causes
dementia in the unfortunate animal and is 100 per cent incurable. To date, over
100,000 cows have been incinerated in England in keeping with British law. Four
hundred to 500 cows are reported as infected each month. The British public
is concerned and has dropped its beef consumption by 25 per cent, while some
2,000 schools have stopped serving beef to children. Several farmers have developed
a fatal disease syndrome that resembles both BSE and CJD (Creutzfeldt-Jakob-
Disease). But the British Veterinary Association says that transmission of BSE
to humans is "remote."
The USDA agrees that the British epidemic was due to the feeding of cattle with
bonemeal or animal protein produced at rendering plants from the carcasses of
scrapie-infected sheep. The have prohibited the importation of live cattle and
zoo ruminants from Great Britain and claim that the disease does not exist in
the United States. However, there may be a problem. "Downer cows"
are animals who arrive at auction yards or slaughter houses dead, trampled,
lacerated, dehydrated, or too ill from viral or bacterial diseases to walk.
Thus they are "down." If they cannot respond to electrical shocks
by walking, they are dragged by chains to dumpsters and transported to rendering
plants where, if they are not already dead, they are killed. Even a "humane"
death is usually denied them. They are then turned into protein food for animals
as well as other preparations. Minks that have been fed this protein have developed
a fatal encephalopathy that has some resemblance to BSE. Entire colonies of
minks have been lost in this manner, particularly in Wisconsin. It is feared
that the infective agent is a prion or slow virus possible obtained from the
ill "downer cows."
The British Medical Journal in an editorial whimsically entitled "How Now
Mad Cow?" (BMJ vol. 304, 11 Apr. 1992:929- 30) describes cases of BSE in
species not previously known to be affected, such as cats. They admit that produce
contaminated with bovine spongiform encephalopathy entered the human food chain
in England between 1986 and 1989. They say. "The result of this experiment
is awaited." As the incubation period can be up to three decades, wait
we must. The immunodeficency virus is seen in cattle in the United States and
is more worrisome. Its structure is closely related to that of the human AIDS
virus. At this time we do not know if exposure to the raw BIV proteins can cause
the sera of humans to become positive for HIV. The extent of the virus among
American herds is said to be "widespread". (The USDA refuses to inspect
the meat and milk to see if antibodies to this retrovirus is present). It also
has no plans to quarantine the infected animals. As in the case of humans with
AIDS, there is no cure for BIV in cows. Each day we consume beef and diary products
from cows infected with these viruses and no scientific assurance exists that
the products are safe. Eating raw beef (as in steak Tartare) strikes me as being
very risky, especially after the Seattle E. coli deaths of 1993.
A report in the Canadian Journal of Veterinary Research, October 1992, Vol.
56 pp.353-359 and another from the Russian literature, tell of a horrifying
development. They report the first detection in human serum of the antibody
to a bovine immunodeficiency virus protein. In addition to this disturbing report,
is another from Russia telling us of the presence of virus proteins related
to the bovine leukemia virus in 5 of 89 women with breast disease (Acta Virologica
Feb. 1990 34(1): 19-26). The implications of these developments are unknown
at present. However, it is safe to assume that these animal viruses are unlikely
to "stay" in the animal kingdom.
OTHER CANCERS--DOES IT GET WORSE?
Unfortunately it does. Ovarian cancer--a particularly nasty tumour--was associated
with milk consumption by workers at Roswell Park Memorial Institute in Buffalo,
New York. Drinking more than one glass of whole milk or equivalent daily gave
a woman a 3.1 times risk over non-milk users. They felt that the reduced fat
milk products helped reduce the risk. This association has been made repeatedly
by numerous investigators.
Another important study, this from the Harvard Medical School, analyzed data
from 27 countries mainly from the 1970s. Again a significant positive correlation
is revealed between ovarian cancer and per capita milk consumption. These investigators
feel that the lactose component of milk is the responsible fraction, and the
digestion of this is facilitated by the persistence of the ability to digest
the lactose (lactose persistence) - a little different emphasis, but the same
conclusion. This study was reported in the American Journal of Epidemiology
130 (5): 904-10 Nov. 1989. These articles come from two of the country's leading
institutions, not the Rodale Press or Prevention Magazine. Even lung cancer
has been associated with milk ingestion? The beverage habits of 569 lung cancer
patients and 569 controls again at Roswell Park were studied in the International
Journal of Cancer, April 15, 1989. Persons drinking whole milk 3 or more times
daily had a 2-fold increase in lung cancer risk when compared to those never
drinking whole milk.
For many years we have been watching the lung cancer rates for Japanese men
who smoke far more than American or European men but who develop fewer lung
cancers. Workers in this research area feel that the total fat intake is the
difference.
There are not many reports studying an association between milk ingestion and
prostate cancer. One such report though was of great interest. This is from
the Roswell Park Memorial Institute and is found in Cancer 64 (3): 605-12, 1989.
They analyzed the diets of 371 prostate cancer patients and comparable control
subjects:
Men who reported drinking three or more glasses of whole milk daily had a relative
risk of 2.49 compared with men who reported never drinking whole milk the weight
of the evidence appears to favour the hypothesis that animal fat is related
to increased risk of prostate cancer. Prostate cancer is now the most common
cancer diagnosed in US men and is the second leading cause of cancer mortality.
WELL, WHAT ARE THE BENEFITS?
Is there any health reason at all for an adult human to drink cows' milk?
It's hard for me to come up with even one good reason other than simple preference.
But if you try hard, in my opinion, these would be the best two: milk is a source
of calcium and it's a source of amino acids (proteins).
Let's look at the calcium first. Why are we concerned at all about calcium?
Obviously, we intend it to build strong bones and protect us against osteoporosis.
And no doubt about it, milk is loaded with calcium. But is it a good calcium
source for humans? I think not. These are the reasons. Excessive amounts of
dairy products actually interfere with calcium absorption. Secondly, the excess
of protein that the milk provides is a major cause of the osteoporosis problem.
Dr. Hegsted in England has been writing for years about the geographical distribution
of osteoporosis. It seems that the countries with the highest intake of dairy
products are invariably the countries with the most osteoporosis. He feels that
milk is a cause of osteoporosis. Reasons to be given below.
Numerous studies have shown that the level of calcium ingestion and especially
calcium supplementation has no effect whatever on the development of osteoporosis.
The most important such article appeared recently in the British Journal of
Medicine where the long arm of our dairy industry can't reach. Another study
in the United States actually showed a worsening in calcium balance in post-menopausal
women given three 8-ounce glasses of cows' milk per day. (Am. Journal of Clin.
Nutrition, 1985). The effects of hormone, gender, weight bearing on the axial
bones, and in particular protein intake, are critically important. Another observation
that may be helpful to our analysis is to note the absence of any recorded dietary
deficiencies of calcium among people living on a natural diet without milk.
For the key to the osteoporosis riddle, don't look at calcium, look at protein.
Consider these two contrasting groups. Eskimos have an exceptionally high protein
intake estimated at 25 percent of total calories. They also have a high calcium
intake at 2,500 mg/day. Their osteoporosis is among the worst in the world.
The other instructive group are the Bantus of South Africa. They have a 12 percent
protein diet, mostly plant protein, and only 200 to 350 mg/day of calcium, about
half our women's intake. The women have virtually no osteoporosis despite bearing
six or more children and nursing them for prolonged periods! When African women
immigrate to the United States, do they develop osteoporosis? The answer is
yes, but not quite as much as Caucasian or Asian women. Thus, there is a genetic
difference that is modified by diet.
To answer the obvious question, "Well, where do you get your calcium?"
The answer is: "From exactly the same place the cow gets the calcium, from
green things that grow in the ground," mainly from leafy vegetables. After
all, elephants and rhinos develop their huge bones (after being weaned) by eating
green leafy plants, so do horses. Carnivorous animals also do quite nicely without
leafy plants. It seems that all of earth's mammals do well if they live in harmony
with their genetic programming and natural food. Only humans living an affluent
life style have rampant osteoporosis. If animal references do not convince you,
think of the several billion humans on this earth who have never seen cows'
milk. Wouldn't you think osteoporosis would be prevalent in this huge group?
The dairy people would suggest this but the truth is exactly the opposite. They
have far less than that seen in the countries where dairy products are commonly
consumed. It is the subject of another paper, but the truly significant determinants
of osteoporosis are grossly excessive protein intakes and lack of weight bearing
on long bones, both taking place over decades. Hormones play a secondary, but
not trivial role in women. Milk is a deterrent to good bone health.
THE PROTEIN MYTH
Remember when you were a kid and the adults all told you to "make sure
you get plenty of good protein". Protein was the nutritional "good
guy" when I was young. And of course milk is fitted right in.
As regards protein, milk is indeed a rich source of protein--"liquid meat,"
remember? However that isn't necessarily what we need. In actual fact it is
a source of difficulty. Nearly all Americans eat too much protein.
For this information we rely on the most authoritative source that I am aware
of. This is the latest edition (1oth, 1989: 4th printing, Jan. 1992) of the
Recommended Dietary Allowances produced by the National Research Council. Of
interest, the current editor of this important work is Dr. Richard Havel of
the University of California in San Francisco.
First to be noted is that the recommended protein has been steadily revised
downward in successive editions. The current recommendation is 0.75 g/kilo/day
for adults 19 through 51 years. This, of course, is only 45 grams per day for
the mythical 60 kilogram adult. You should also know that the WHO estimated
the need for protein in adults to by .6g/kilo per day. (All RDA's are calculated
with large safety allowances in case you're the type that wants to add some
more to "be sure.") You can "get by" on 28 to 30 grams a
day if necessary!
Now 45 grams a day is a tiny amount of protein. That's an ounce and a half!
Consider too, that the protein does not have to be animal protein. Vegetable
protein is identical for all practical purposes and has no cholesterol and vastly
less saturated fat. (Do not be misled by the antiquated belief that plant proteins
must be carefully balanced to avoid deficiencies. This is not a realistic concern.)
Therefore virtually all Americans, Canadians, British and European people are
in a protein overloaded state. This has serious consequences when maintained
over decades. The problems are the already mentioned osteoporosis, atherosclerosis
and kidney damage. There is good evidence that certain malignancies, chiefly
colon and rectal, are related to excessive meat intake. Barry Brenner, an eminent
renal physiologist was the first to fully point out the dangers of excess protein
for the kidney tubule. The dangers of the fat and cholesterol are known to all.
Finally, you should know that the protein content of human milk is the lowest
(0.9%) in mammals.
IS THAT ALL OF THE TROUBLE?
Sorry, there's more. Remember lactose? This is the principal carbohydrate of
milk. It seems that nature provides new-borns with the enzymatic equipment to
metabolize lactose, but this ability often extinguishes by age 4 or 5 years.
What is the problem with lactose or milk sugar? It seems that it is a disaccharide
which is too large to be absorbed into the blood stream without first being
broken down into monosaccharides, namely galactose and glucose. This requires
the presence of an enzyme, lactase plus additional enzymes to break down the
galactose into glucose.
Let's think about his for a moment. Nature gives us the ability to metabolize
lactose for a few years and then shuts off the mechanism. Is Mother Nature trying
to tell us something? Clearly all infants must drink milk. The fact that so
many adults cannot seems to be related to the tendency for nature to abandon
mechanisms that are not needed. At least half of the adult humans on this earth
are lactose intolerant. It was not until the relatively recent introduction
of dairy herding and the ability to "borrow" milk from another group
of mammals that the survival advantage of preserving lactase (the enzyme that
allows us to digest lactose) became evident. But why would it be advantageous
to drink cows' milk? After all, most of the human beings in the history of the
world did. And further, why was it just the white or light skinned humans who
retained this knack while the pigmented people tended to lose it?
Some students of evolution feel that white skin is a fairly recent innovation,
perhaps not more than 20,000 or 30,000 years old. It clearly has to do with
the Northward migration of early man to cold and relatively sunless areas when
skins and clothing became available. Fair skin allows the production of Vitamin
D from sunlight more readily than does dark skin. However, when only the face
was exposed to sunlight that area of fair skin was insufficient to provide the
vitamin D from sunlight. If dietary and sunlight sources were poorly available,
the ability to use the abundant calcium in cows' milk would give a survival
advantage to humans who could digest that milk. This seems to be the only logical
explanation for fair skinned humans having a high degree of lactose tolerance
when compared to dark skinned people.
How does this break down? Certain racial groups, namely blacks are up to 90%
lactose intolerant as adults. Caucasians are 20 to 40% lactose intolerant. Orientals
are midway between the above two groups. Diarrhea, gas and abdominal cramps
are the results of substantial milk intake in such persons. Most American Indians
cannot tolerate milk. The milk industry admits that lactose intolerance plays
intestinal havoc with as many as 50 million Americans. A lactose-intolerance
industry has sprung up and had sales of $117 million in 1992 (Time May 17, 1993.)
What if you are lactose-intolerant and lust after dairy products? Is all lost?
Not at all. It seems that lactose is largely digested by bacteria and you will
be able to enjoy your cheese despite lactose intolerance. Yogurt is similar
in this respect. Finally, and I could never have dreamed this up, geneticists
want to splice genes to alter the composition of milk (Am J Clin Nutr 1993 Suppl
302s). One could quibble and say that milk is totally devoid of fiber content
and that its habitual use will predispose to constipation and bowel disorders.
The association with anemia and occult intestinal bleeding in infants is known
to all physicians. This is chiefly from its lack of iron and its irritating
qualities for the intestinal mucosa. The pediatric literature abounds with articles
describing irritated intestinal lining, bleeding, increased permeability as
well as colic, diarrhea and vomiting in cows' milk-sensitive babies. The anemia
gets a double push by loss of blood and iron as well as deficiency of iron in
the cows' milk. Milk is also the leading cause of childhood allergy.
LOW FAT
One additional topic: the matter of "low fat" milk. A common and sincere
question is: "Well, low fat milk is OK, isn't it?"
The answer to this question is that low fat milk isn't low fat. The term "low
fat" is a marketing term used to gull the public. Low fat milk contains
from 24 to 33% fat as calories! The 2% figure is also misleading. This refers
to weight. They don't tell you that, by weight, the milk is 87% water!
"Well, then, kill-joy surely you must approve of non-fat milk!" I
hear this quite a bit. (Another constant concern is: "What do you put on
your cereal?") True, there is little or no fat, but now you have a relative
overburden of protein and lactose. It there is something that we do not need
more of it is another simple sugar-lactose, composed of galactose and glucose.
Millions of Americans are lactose intolerant to boot, as noted. As for protein,
as stated earlier, we live in a society that routinely ingests far more protein
than we need. It is a burden for our bodies, especially the kidneys, and a prominent
cause of osteoporosis. Concerning the dry cereal issue, I would suggest soy
milk, rice milk or almond milk as a healthy substitute. If you're still concerned
about calcium, "Westsoy" is formulated to have the same calcium concentration
as milk.
SUMMARY
To my thinking, there is only one valid reason to drink milk or use milk products.
That is just because we simply want to. Because we like it and because it has
become a part of our culture. Because we have become accustomed to its taste
and texture. Because we like the way it slides down our throat. Because our
parents did the very best they could for us and provided milk in our earliest
training and conditioning. They taught us to like it. And then probably the
very best reason is ice cream! I've heard it described "to die for".
I had one patient who did exactly that. He had no obvious vices. He didn't smoke
or drink, he didn’t eat meat, his diet and lifestyle was nearly a perfectly
health promoting one; but he had a passion. You guessed it, he loved rich ice
cream. A pint of the richest would be a lean day's ration for him. On many occasions
he would eat an entire quart - and yes there were some cookies and other pastries.
Good ice cream deserves this after all. He seemed to be in good health despite
some expected "middle age spread" when he had a devastating stroke
which left him paralyzed, miserable and helpless, and he had additional strokes
and died several years later never having left a hospital or rehabilitation
unit. Was he old? I don't think so. He was in his 50s. So don't drink milk for
health. I am convinced on the weight of the scientific evidence that it does
not "do a body good." Inclusion of milk will only reduce your diet's
nutritional value and safety.
Most of the people on this planet live very healthfully without cows' milk.
You can too.
It will be difficult to change; we've been conditioned since childhood to think
of milk as "nature's most perfect food." I'll guarantee you that it
will be safe, improve your health and it won't cost anything. What can you lose?
(Article courtesty of Dr. Kradjian and http://www.afpafitness.com/articles/MILKDOC.HTM)
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