If you still have doubts that milk and dairy are bad for you, then the next list of science-based examples should eliminate all suspicion. The truth is that the meat and dairy industry want to make this information hard to access, as it goes against their interest. This is why all marketing strategies are directed towards hypnotizing us into living in a world, where milk is a mystical health drink that heals and preserves your teeth, skin, and bones. What an irony that in fact it is the exact opposite to that!
These lies are being instilled into our brains not simply through the direct advocacy of dairy and milk, but while also promoting other products, such as biscuits and desserts as ‘good for you’, because they contain ‘real milk’. As a result, Americans consume huge amounts of dairy products, with the yearly intake of an average American being estimated to a whooping 600 pounds of dairy products per year.
Still, interestingly enough, dairy foods (including cow’s milk) have not been part of the diet of adults for the vast majority of human evolution. We’ve only been consuming these foods for about 7,500 years, compared to the roughly 200,000 years humans have been around (with our basic biochemical functionality evolving still a few million years before that).
DAIRY HAS COME UNDER FIRE AND SCRUTINY FROM NUTRITIONAL EXPERTS, SCIENTISTS AND PHYSICIANS FOR ITS ASSOCIATIONS WITH A NUMBER OF SERIOUS HEALTH ISSUES.
Dr. Pineda Ochoa gives an in-depth overview for Forks Over Knives on what they are.
1. EVEN ORGANIC MILK USUALLY CONTAINS HORMONES
Dairy is a significant source of female hormone exposure. Commercial cow’s milk contains large amounts of estrogen and progesterone, which is a serious concern. This is further exacerbated by modern dairy cows being genetically altered to continuously produce milk – even throughout their repeated pregnancies.
Even milk products labeled “organic” or “no hormones added” usually contain high levels of these problematic hormones, which are naturally produced by cows (even if those cows have not been given any additional hormones for purposes of the product label).
In both adults and children, milk consumption has resulted in markedly increased levels of estradiol and progesterone in blood and urine, and dairy consumption in general has been associated with increased levels of circulating estradiol.
The data show that men who drink milk will absorb the estrogens in the milk, which has been found to result in significantly decreased testosterone production/levels.
Pediatricians have expressed concern regarding childhood exposure to the exogenous estrogens in commercial milk, given studies showing that early sexual maturation in prepubescent children can be caused by the “ordinary intake of cow milk.”
A broad array of multi-centered, peer-reviewed studies has shown that dairy consumption is one of the most concerning and consistent risk factors for hormone-dependent malignant diseases, including ovarian, uterine, breast, testicular and prostate cancers.
2. CASEIN FROM DAIRY = INCREASED RISK OF CANCER DEVELOPMENT
Casein is the main protein in dairy, and studies have shown that it facilitates the growth and development of cancer. In fact, some studies even found that cancer development could be controlled more by casein levels in diet than by exposure to the underlying carcinogen.
Insulin-like growth factor-1 (or IGF-1), a hormone that promotes cell growth and division in both normal and cancer cells, is thought to be one of the mechanisms responsible for this association. IGF-1 appears to be nutritionally regulated, and animal protein consumption (including casein from dairy foods) leads to higher circulating levels of this cancer-promoting hormone. For this reason, consuming casein from dairy (as well as animal protein in general) is associated with increased risk of cancer development and proliferation.
3. HIGHER RISK OF TYPE 1 DIABETES AND MULTIPLE SCLEROSIS
Our immune system normally protects us from microbes and other harmful substances. But if it loses its ability to recognize and distinguish harmful substances from normal tissues and cells, it can instead mount attacks against our own bodies.
These “auto-attacks” can be triggered by exposure to foreign peptides (including animal protein fragments found in dairy), which have similarities to components in the human body. This can result in our immune system becoming “confused” and misidentifying tissues in our body as “foreign” and thus in need of being attacked and destroyed.
Dairy is associated with increased risk of several immune-related disorders (from allergic conditions to autoimmune diseases), many being life-changing and difficult to treat. The associations with type 1 diabetes and multiple sclerosis are particularly concerning:
Type 1 Diabetes. In type 1 diabetes (also called juvenile diabetes or insulin-dependent diabetes mellitus (IDDM)), the immune system attacks the pancreas, resulting in the body no longer being able to produce insulin to regulate glucose. Multiple large-scale studies have identified an association between cow’s milk consumption and increased prevalence of type 1 diabetes. One such study found that “cows’ milk may contain a triggering factor for the development of IDDM,” and another found that “[e]arly cow’s milk exposure may be an important determinant of subsequent type 1 diabetes and may increase the risk approximately 1.5 times.”
Multiple Sclerosis. In multiple sclerosis (MS), the immune system attacks the insulating sheath of our own nervous system, resulting in a variety of difficult-to-treat and unpredictable neurologic problems. As with type 1 diabetes, numerous studies have reported that cow’s milk consumption may be a significant risk factor for developing MS.
4. EVEN PASTEURIZED MILK CONTAINS MICROORGANISMS
Milk and other dairy products are important vehicles for foodborne pathogens due to a variety of microorganisms they harbor. Even with modern sanitation requirements, including pasteurization and curing, outbreaks still occur, resulting in severe and sometimes even fatal outcomes.
Salmonella, Listeria, and E. coli are some of the more common foodborne outbreaks associated with dairy. Just last year, for example, three people tragically died from Listeria infections linked to Blue Bell Ice Cream (prompting a large-scale recall by Blue Bell Creameries).
Not even our food regulatory agencies expect milk will be sterile after pasteurization; the heating process is done merely to reduce (not eliminate) the amount of microorganisms.
5. DIARY PRODUCTS ACCUMULATE PESTICIDES IN HIGH CONCENTRATIONS
Exposure to organochlorine pesticides (OCP) is another problem associated with dairy. While pesticide contamination affects water and agricultural lands generally, dairy products have a greater capacity to accumulate these pesticides in higher concentrations, due in part to their high fat content.
Even pesticides that have long been banned still show up when dairy products are tested. Some OCPs (like DDT, which was widely used in the past and now banned as a human carcinogen) still persist in the environment and can more easily accumulate in animal food products, including dairy.
In India, milk and other dairy products (like cheese and butter) have been reported as the major sources of dietary DDT and hexachlorocyclohexane (HCH), and routine monitoring detected that milk from dairy farms in Italy’s Sacco River Valley had levels of ß-HCH twenty times higher than the legal limit.
6. INCREASED EXPOSURE TO ANTIBIOTIC RESIDUE
The largest use of antibiotics worldwide is for livestock. Much of that use is for non-therapeutic purposes, such as infection prevention and to promote feed efficiency and animal growth.
Apart from the dire warnings from scientists that agricultural overuse is leading to antibiotic resistance, another problem is that antibiotic residues persist in milk and other dairy products despite protocols aimed to minimize this.
It is difficult to prevent and control these antibiotic residues because milk from individual cows and farms is usually pooled together, and the administration, handling and record-keeping of animal drug use can vary significantly from one dairy operation to another.
The resulting low-dose antibiotic exposure can lead to a variety of problems, from developing antibiotic resistance to allergic reactions to experiencing side-effects of the medication to which a person is exposed.
7. DAIRY CAN LEAD TO BONE PROBLEMS TOO
This may come as a surprise to many, but dairy does not appear to be good for bone health, either.
Not only has the body of scientific evidence been found inadequate to support the idea that dairy consumption promotes bone health, but numerous large-scale studies have found that consuming dairy may actually be detrimental to bone health.[48-51] In fact, there is substantial data linking higher milk intake with significantly increased risk of bone fractures.
There are several mechanisms thought to be responsible for the pathophysiology. One is dairy’s high calcium content, which can cause vitamin D dysregulation and therefore disrupt bone homeostasis. Another is that the high animal protein content of dairy can induce acidosis from its high proportion of sulfur-containing amino acids, which in turn leads to the body compensating by leaching calcium from the bones to help neutralize the increased acidity. Over time, all of this can have a detrimental effect on bone health.
While several other factors, such as physical activity, can affect bone health, it’s significant to note that the U.S. has one of the highest rates of hip fractures in the world, despite our high milk intake. By contrast, in countries like Japan and Peru, where average daily calcium intake is as low as 300 milligrams per day (less than a third of the U.S. daily recommendation for adults), the incidence of bone fractures is actually quite low.
Fortunately, calcium is abundant in plant foods, including leafy green vegetables, legumes and seeds, often with higher absorption rates than the calcium in dairy—and of course without all of dairy’s associated health problems.