The McDougall Newsletter
Five Major Poisons Inherently Found in Animal Foods
Protein, fat, cholesterol, methionine (a sulfur-containing amino acid), and dietary acids, which are all superabundant in animal foods, are poisoning nearly everyone following the standard Western diet. Most people cannot fathom this, because it takes four or more decades of consumption before disability, disfigurement, and death become common from these endogenous toxins. This long latent period fools the public into thinking there is no harm done by choosing an animal-food-based diet. If the case were one of instantaneous feedback—one plate of fried eggs caused excruciating chest pains, paralysis from a stroke followed a prime rib dinner, or a hard cancerous lump appeared within a week of a grilled cheese sandwich—then eating animal foods would be widely recognized as an exceedingly unwise choice. Similar failures to appreciate slow poisonings from our lifestyle choices are seen with tobacco and alcohol use. If one package of cigarettes were followed by a week on a respirator or a bottle or two of gin caused hepatic (liver) coma then no one would indulge in these instruments of long-drawn-out death either. The difference defining the failure to take long overdue actions is that the dangers from tobacco and alcohol use are universally known and accepted, whereas almost everyone considers red meat, poultry, eggs, and dairy products necessary parts of a healthy diet.
The Art of Selling Slow Poisons: Distract the Consumer
Sellers of animal foods for human consumption draw in customers with the marketing strategy of “unique positioning”—each industry tries to make its merchandise stand apart from other foods by promoting a nutrient that is especially plentiful in its product. Over time this effective advertising approach has meant that the mention of calcium brings to mind milk and cheese, iron has become synonymous with beef, and eggs are well known as the “best source of high quality protein.”
Because these highly sensationalized nutrients are always plentiful in basic plant foods, illnesses from deficiencies of these nutrients are essentially unknown, as long as there is enough food to eat. Thus, there are no real nutritional advantages to choosing red meat, poultry, dairy, and egg products with an especially high density of one particular nutrient. Ironically, milk and cheese are iron deficient, and red meat, poultry, and eggs (unless you eat the shells) contain almost no calcium.
Focusing on the abundance of an individual nutrient accomplishes an even more insidious marketing goal; it diverts the consumer’s, and oftentimes the professional dietitian’s, attention away from the harmful impact on the human body of consuming all kinds of animal foods. In my 42-years of providing medical care I have never seen a patient sickened by eating potatoes, sweet potatoes, corn, rice, beans, fruits, and/or vegetables (unspoiled and uncontaminated). However, during my everyday practice I have witnessed (just like every other practicing medical doctor has) a wide diversity of diseases, including heart attacks, strokes, type-2 diabetes, arthritis, osteoporosis, and cancer, from eating fresh killed and/or collected, as well as processed and/or preserved, animal-derived foods.
A Simplified View of Animal-food Poisoning
Animal foods—be they from cow, pig, or chicken muscles or the ovum of a bird or the lactation fluids of a mammal—are all so similar in their nutritional makeup and their impact on human health that they should be considered as the same (see the comparison tables at the end of this article). In order to avoid the confusion created by the marketing strategy of “unique positioning,” lets look at different kinds of animal products mixed together to make one food; and compare them to their antithesis, starches.
If I were to blend together red meat, chicken, eggs, and cheese, which most Americans do three or more times a day in their stomachs, the end product would be a highly acidic mixture of mostly protein, fat, and water—each individual food having contributed a similar amount of each component. A blend of various starches—beans, rice, potatoes, and sweet potatoes—would produce an opposite in composition.
Continued at: http://drmcdougall.com/misc/2010nl/jan/poison.htm