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Tag: infant formula

  • 3-MCPD in Refined Cooking Oils | NutritionFacts.org

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    There is another reason to avoid palm oil and question the authenticity of extra-virgin olive oil.

    The most commonly used vegetable oil in the world today is palm oil. Pick up any package of processed food in a box, bag, bottle, or jar, and the odds are it will have palm oil. Palm oil not only contains the primary cholesterol-raising saturated fat found mostly in meat and dairy, but concerns have been raised about its safety, given the finding that it may contain a potentially toxic chemical contaminant known as 3-monochloropropane-1,2-diol, otherwise known as 3-MCPD, which is formed during the heat treatment involved in the refining of vegetable oils. So, these contaminants end up being “widespread in refined vegetable oils and fats and have been detected in vegetable fat-containing products, including infant formulas.”

    Although 3-MCPD has been found in all refined vegetable oils, some are worse than others. The lowest levels of the toxic contaminants were found in canola oil, and the highest levels were in palm oil. Based on the available data, this may result in “a significant amount of human exposure,” especially when used to deep-fry salty foods, like french fries. In fact, just five fries could blow through the tolerable daily intake set by the European Food Safety Authority. If you only eat such foods once in a while, it shouldn’t be a problem, but if you’re eating fries every day or so, this could definitely be a health concern.

    Because the daily upper limit is based on body weight, particularly high exposure values were calculated for infants who were on formula rather than breast milk, since formula is made from refined oils, which—according to the European Food Safety Authority—may present a health risk. Estimated U.S. infant exposures may be three to four times worse.

    If infants don’t get breast milk, “there is basically no alternative to industrially produced infant formula.” As such, the vegetable oil industry needs to find a way to reduce the levels of these contaminants. This is yet another reason that breastfeeding is best whenever possible.

    What can adults do to avoid exposure? Since these chemicals are created in the refining process of oils, what about sticking to unrefined oils? Refined oils have up to 32 times the 3-MCPD compared to their unrefined counterparts, but there is an exception: toasted sesame oil. Sesame oil is unrefined; manufacturers just squeeze the sesame seeds. But, because they are squeezing toasted sesame seeds, the 3-MCPD may have come pre-formed.

    Virgin oils are, by definition, unrefined. They haven’t been deodorized, the process by which most of the 3-MCPD is formed. In fact, that’s how you can discriminate between the various processing grades of olive oil. If your so-called extra virgin olive oil contains MCPD, then it must have been diluted with some refined olive oil. The ease of adulterating extra virgin olive oil, the difficulty of detection, the economic drivers, and the lack of control measures all contribute to extra virgin olive oil’s susceptibility to fraud. How widespread a problem is it?

    Researchers tested 88 bottles labeled as extra virgin olive oil and found that only 33 were found to be authentic. Does it help to stick to the top-selling imported brands of extra virgin olive oil? In that case, 73% of those samples failed. Only about one in four appeared to be genuine, and not a single brand had even half its samples pass the test, as you can see here and at 3:32 in my video 3-MCPD in Refined Cooking Oils.

    Doctor’s Note

    If you missed the previous post where I introduced 3-MCPD, see The Side Effects of 3-MCPD in Bragg’s Liquid Aminos.

    There is no substitute for human breast milk. We understand this may not be possible for adoptive families or those who use surrogates, though. In those cases, look for a nearby milk bank.

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    Michael Greger M.D. FACLM

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  • Chlorohydrin 3-MCPD in Bragg’s Liquid Aminos | NutritionFacts.org

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    Chlorohydrin contaminates hydrolyzed vegetable protein products and refined oils.

    In 1978, chlorohydrins were found in protein hydrolysates. What does that mean? Proteins can be broken down into amino acids using a chemical process called hydrolysis, and free amino acids (like glutamate) can have taste-enhancing qualities. That’s how inexpensive soy sauce and seasonings like Bragg’s Liquid Aminos are made. This process requires high heat, high pressure, and hydrochloric acid to break apart the protein. The problem is that when any residual fat is exposed to these conditions, it can form toxic compounds called chlorohydrins, which are toxic at least to mice and rats.

    Chlorohydrins like 3-MCPD are considered “a worldwide problem of food chemistry,” but no long-term clinical studies on people have been reported to date. The concern is about the detrimental effects on the kidneys and fertility. In fact, there was a time 3-MCPD was considered as a potential male contraceptive because it could so affect sperm production, but research funding was withdrawn after “unacceptable side effects [were] observed in primates.” Researchers found flaccid testes in rats, which is what they were going for, but it caused neurological scars in monkeys.

    What do you do when there are no studies in humans? How do you set some kind of safety factor? It isn’t easy, but you can take the lowest observed adverse effect level (LOAEL) in animal studies, which, in this case, was kidney damage, add in some kind of fudge factor, and then arrive at an estimated tolerable daily intake (TDI). For 3-MCPD, this means that high-level consumers of soy sauce may exceed the limit. This was based on extraordinarily high contamination levels, though. Since that study, Europe introduced a regulatory limit of 20 parts per billion (ppb) of 3-MCPD in hydrolyzed vegetable protein products like liquid aminos and soy sauce. The U.S. standards are much laxer, though, setting a “guidance level” of up to 50 times more, 1,000 parts per billion.

    I called Bragg’s to see where it fell, and the good news is that it is doing an independent, third-party analysis of its liquid aminos for 3-MCPD. The bad news is that, despite my pleas that it be fully transparent, Bragg’s wouldn’t let me share the results with you. I have seen them, though, but I’m only allowed to confirm they comfortably meet the U.S. standards but fail to meet the European standards.

    This is just the start of the 3-MCPD story, though. A study in Italy tested individuals’ urine for 3-MCPD or its metabolites, and 100% of the people turned up positive, confirming that it’s “a widespread food contaminant.” But 100% of people aren’t consuming soy sauce or liquid aminos every day. Remember, the chemical results from a reaction with residual vegetable oil. When vegetable oil itself is refined, when it’s deodorized and bleached, those conditions also lead to the formation of 3-MCPD.

    Indeed, we’ve known for years that various foods are contaminated. In what kinds of foods have these kinds of chemicals been detected? Well, if they’re in oils and fats, then they’re in greasy foods made from them: margarine, baked goods, pastries, deep-fried foods, fatty snacks like potato and corn chips, as well as infant formula.

    The U.S. Food and Drug Administration’s limit for soy sauce is 1,000 ppb, but donuts can have more than 1,200 ppb, salami more than 1,500 ppb, ham nearly 3,000 ppb, and French fries in excess of 6,000 ppb, as seen here and at 4:03 in my video The Side Effects of 3-MCPD in Bragg’s Liquid Aminos.

    Most of us don’t have to worry about this problem, unless we’re consumers of fried food. Someone weighing about 150 pounds, for example, who eats 116 grams of donuts, would exceed the European Food Safety Authority’s TDI, even if those donuts were the person’s only source of exposure. That’s about two donuts, but the same limit-blowing amount of 3-MCPD could be found in only five French fries.

    Doctor’s Note

    Believe me, I pleaded with the Bragg’s folks over and over. It’s curious to me that Bragg’s allowed me to talk about where its level of 3-MCPD fell compared to the standards but not say the number itself. At least it’s doing third-party testing.

    Learn more about this topic in my video 3-MCPD in Refined Cooking Oils.

    You can also check out Friday Favorites: The Side Effects of 3-MCPD in Bragg’s Liquid Aminos and Refined Cooking Oils.

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    Michael Greger M.D. FACLM

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  • Epigenetics and Obesity  | NutritionFacts.org

    Epigenetics and Obesity  | NutritionFacts.org

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    Identical twins don’t just share DNA; they also share a uterus. Might that help account for some of their metabolic similarities? “Fetal overnutrition, evidenced by large infant birth weight for gestational age, is a strong predictor of obesity in childhood and later life.” Could it be that you are what your mom ate?

    A dramatic illustration from the animal world is the crossbreeding of Shetland ponies with massive draft horses. Either way, the offspring are half pony/half horse, but when carried in the pony uterus, they come out much smaller, as you can see below and at 0:47 in my video The Role of Epigenetics in the Obesity Epidemic. (Thank heavens for the pony mother!) This is presumably the same reason why the mule (horse mom and donkey dad) is larger than the hinny (donkey mom and horse dad). The way you test this in people is to study the size of babies from surrogates after in vitro fertilization. 

    Who do you think most determines the birth weight of a test-tube baby? Is it the donor mom who provided all the DNA or the surrogate who provided the intrauterine environment? When it was put to the test, the womb won. Incredibly, a baby who had a thin biological mother but was born to a surrogate with obesity may harbor a greater risk of becoming obese than a baby with a heavier biological mother but born to a slim surrogate. The researchers “concluded that the environment provided by the human mother is more important than her genetic contribution to birth weight.”

    The most compelling data come from comparing obesity rates in siblings born to the same mother, before and after her bariatric surgery. Compared to their brothers and sisters born before the surgery, those born when mom weighed about 100 pounds less had lower rates of inflammation, metabolic derangements, and, most critically, three times less risk of developing severe obesity—35 percent of those born before the weight loss were affected, compared to 11 percent born after. The researchers concluded that “these data emphasize how critical it is to prevent obesity and treat it effectively to prevent further transmission to future generations.”

    Hold on. Mom had the same DNA before and after surgery. She passed down the same genes. How could her weight during pregnancy affect the weight destiny of her children any differently? Darwin himself admitted, “In my opinion, the greatest error which I have committed, has been not allowing sufficient weight to the direct action of the environment, i.e. food…independently of natural selection.” We finally figured out the mechanism by which this can happen—epigenetics.

    Epigenetics, which means “above genetics,” layers an extra level of information on top of the DNA sequence that can be affected by our surroundings, as well as potentially passed on to our children. This is thought to explain the “developmental programming” that can occur in the womb, depending on the weight of the mother—or even the grandmother. Since all the eggs in your infant daughter’s ovaries are already preformed before birth, a mother’s weight status during pregnancy could potentially affect the obesity risk of her grandchildren, too. Either way, you can imagine how this could result in an intergenerational vicious cycle where obesity begets obesity.

    Is there anything we can do about it? Well, breastfed infants may be at lower risk for later obesity, though the benefits may be confined to those who are exclusively breastfed, as the effect may be due to growth factors triggered by exposure to the excess protein in baby formula, as you can see below and at 3:51 in my video. The breastfeeding data are controversial, though, with charges leveled of a “white hat bias.” That’s the concern that public health researchers might disproportionally shelve research results that don’t fit some goal for the greater good. (In this case, preferably publishing breastfeeding studies showing more positive results.) But, of course, that criticism came from someone who works for an infant formula company. Breast is best, regardless. However, its role in the childhood obesity epidemic remains arguably uncertain.

    Prevention may be the key. Given the epigenetic influence of maternal weight during pregnancy, a symposium of experts on pediatric nutrition concluded that “planning of pregnancy, including prior optimization of maternal weight and metabolic condition, offers a safe means to initiate the prevention rather than treatment of pediatric obesity.” Easier said than done, but overweight moms-to-be may take comfort in the fact that after the weight loss in the surgery study, even the moms who gave birth to kids with three times lower risk were still, on average, obese themselves, suggesting weight loss before pregnancy is not an all-or-nothing proposition.

    What triggered the whole obesity epidemic to begin with? There are a multitude of factors, and I covered many of them in my 11-video series on the epidemic in the related posts below.

    We are what our moms ate in other ways, too. Check out: 

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    Michael Greger M.D. FACLM

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