Foods Linked to ALS

Foods Linked to ALS.jpeg

As explored in my video ALS (Lou Gehrig's Disease): Fishing for Answers, there may be a link in the consumption of the neurotoxin BMAA, produced by algae blooms, and increased risk of ALS. It now appears that BMAA could be found in high concentrations in aquatic animals in many areas of the world.

This could explain ALS clustering around lakes in New Hampshire--up to 25 times the expected rate of ALS with some families eating fish several times a week. Or in Wisconsin, where the most significant ALS risk factor was the past consumption of fish out of Lake Michigan. Or clustering in Finland's Lakeland district, or seafood eaters in France, or around the Baltic sea, building up particularly in fish, mussels and oysters.

When I think of algae blooms I think of the Chesapeake bay near where I live, that gets choked off thanks in part to the poultry industry pollution. And indeed there was a recent report linking BMAA exposure to ALS in Maryland. The ALS victims, all of whom ate Chesapeake Bay blue crabs every week, lived within a half mile of each other, which raised some eyebrows at the Hopkins ALS center. And so researchers tested a few crabs, and two out of three tested positive for BMAA, indicating that the neurotoxin is present in the aquatic food chain of the Chesapeake Bay and is a potential route for human exposure.

To bring the story full circle, things in Guam, where the link between BMAA consumption and ALS was first discovered, are looking up. The ALS epidemic there may have been triggered by their acquisition of guns. Now though, the epidemic appears to be over thanks to near-extinction of the fruit bats they were eating due to over-hunting. But while the rates decline in Guam, neurodegenerative diseases like ALS around the rest of the world are on the rise.

It's plausible that humans have been exposed to some level of BMAA throughout their evolutionary history, but the increase in algae blooms as a result of human activities is probably increasing this exposure. There is a general consensus that harmful algal blooms are increasing worldwide thanks in part to industrialized agriculture (as shown in my video Diet & Amyotrophic Lateral Sclerosis-ALS). More people means more sewage, fertilizer, and manure, which can mean more algae, which may mean more exposure to this neurotoxin, leading to a possible increased incidence of neurodegenerative diseases such as Alzheimer's, Parkinson's, and ALS.

BMAA is considered a strong contender as the cause of, or at least a major contributor to the cause of both endemic and sporadic ALS and Alzheimer's disease, and possibly conferring risk for Parkinson's diseases as well. The ramifications of this discovery are enormous.

As researchers from Australia stated, "With substantial and ever growing evidence that BMAA does play a role in the onset and progression of neurodegenerative diseases, the most important question is, what mode of activity does BMAA exert?" Huh? That's not the most important question we should be asking. The most important question is "How can we reduce our risk?"

We know that the presence of BMAA in aquatic food chains could be a significant human health hazard. There may even be a synergistic toxicity between mercury and BMAA, making certain fish even riskier. Until more is known about the possible link of BMAA to Alzheimer's and ALS, it may be prudent to limit exposure of BMAA in the human diet.

For other neurotoxins found in the food supply, see Amnesic Seafood Poisoning, Essential Tremor and Diet, Ciguatera Poisoning & Chronic Fatigue Syndrome.

Other toxic substances can also build up in the aquatic food chain, for example:

In health,
Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live, year-in-review presentations:

Image Credit: Peter Miller / Flickr. This image has been modified.

Original Link

Foods Linked to ALS

Foods Linked to ALS.jpeg

As explored in my video ALS (Lou Gehrig's Disease): Fishing for Answers, there may be a link in the consumption of the neurotoxin BMAA, produced by algae blooms, and increased risk of ALS. It now appears that BMAA could be found in high concentrations in aquatic animals in many areas of the world.

This could explain ALS clustering around lakes in New Hampshire--up to 25 times the expected rate of ALS with some families eating fish several times a week. Or in Wisconsin, where the most significant ALS risk factor was the past consumption of fish out of Lake Michigan. Or clustering in Finland's Lakeland district, or seafood eaters in France, or around the Baltic sea, building up particularly in fish, mussels and oysters.

When I think of algae blooms I think of the Chesapeake bay near where I live, that gets choked off thanks in part to the poultry industry pollution. And indeed there was a recent report linking BMAA exposure to ALS in Maryland. The ALS victims, all of whom ate Chesapeake Bay blue crabs every week, lived within a half mile of each other, which raised some eyebrows at the Hopkins ALS center. And so researchers tested a few crabs, and two out of three tested positive for BMAA, indicating that the neurotoxin is present in the aquatic food chain of the Chesapeake Bay and is a potential route for human exposure.

To bring the story full circle, things in Guam, where the link between BMAA consumption and ALS was first discovered, are looking up. The ALS epidemic there may have been triggered by their acquisition of guns. Now though, the epidemic appears to be over thanks to near-extinction of the fruit bats they were eating due to over-hunting. But while the rates decline in Guam, neurodegenerative diseases like ALS around the rest of the world are on the rise.

It's plausible that humans have been exposed to some level of BMAA throughout their evolutionary history, but the increase in algae blooms as a result of human activities is probably increasing this exposure. There is a general consensus that harmful algal blooms are increasing worldwide thanks in part to industrialized agriculture (as shown in my video Diet & Amyotrophic Lateral Sclerosis-ALS). More people means more sewage, fertilizer, and manure, which can mean more algae, which may mean more exposure to this neurotoxin, leading to a possible increased incidence of neurodegenerative diseases such as Alzheimer's, Parkinson's, and ALS.

BMAA is considered a strong contender as the cause of, or at least a major contributor to the cause of both endemic and sporadic ALS and Alzheimer's disease, and possibly conferring risk for Parkinson's diseases as well. The ramifications of this discovery are enormous.

As researchers from Australia stated, "With substantial and ever growing evidence that BMAA does play a role in the onset and progression of neurodegenerative diseases, the most important question is, what mode of activity does BMAA exert?" Huh? That's not the most important question we should be asking. The most important question is "How can we reduce our risk?"

We know that the presence of BMAA in aquatic food chains could be a significant human health hazard. There may even be a synergistic toxicity between mercury and BMAA, making certain fish even riskier. Until more is known about the possible link of BMAA to Alzheimer's and ALS, it may be prudent to limit exposure of BMAA in the human diet.

For other neurotoxins found in the food supply, see Amnesic Seafood Poisoning, Essential Tremor and Diet, Ciguatera Poisoning & Chronic Fatigue Syndrome.

Other toxic substances can also build up in the aquatic food chain, for example:

In health,
Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live, year-in-review presentations:

Image Credit: Peter Miller / Flickr. This image has been modified.

Original Link

What Is the Cause of ALS?

What Is the Cause of ALS?.jpeg

Lou Gehrig's disease, known as amyotrophic lateral sclerosis or ALS, strikes healthy, middle-aged people seemingly at random. Of the major neurodegenerative diseases, it has the least hope for treatment and survival. Although mental capabilities stay intact, ALS paralyzes people, often from the outside in, and most patients die within three years when they can no longer breathe or swallow. At any given time, an estimated 30,000 are fighting for their life with it in this country. We each have about a 1 in 400 chance of developing this dreaded disease.

ALS is more common than generally recognized, with an incidence rate now close to that of multiple sclerosis. What causes it? 50 years ago scientists found that the rate of ALS among the indigenous peoples on the island of Guam was 100 times that found in the rest of the world, potentially offering a clue into the cause of the disease. So instead of 1 in 400, in some villages in Guam, 1 in 3 adults died of the disease!

Cycad trees were suspected, since the powdered seeds were a dietary staple of the natives and there were reports of livestock showing neurological disease after eating from it. And indeed, a new neurotoxin was found in the seeds, called BMAA. Maybe that's what was causing such high levels of ALS? But the amount of BMAA in the seeds people ate was so small that it was calculated that people would have to eat a thousand kilograms a day to get a toxic dose--that's around a ton of seeds daily. So, the whole cycad theory was thrown out and the trail went cold.

But then famed neurologist Oliver Sachs and colleagues had an idea. Cycad seeds were not all the natives ate. They also ate fruit bats (also known as flying foxes) who ate Cycad tree seeds. So maybe this is a case of biomagnification up the food chain, as about a "tons" worth of BMAA does accumulate in the flesh of flying foxes.

The final nail in the coffin was the detection of high levels of BMMA in the brains of six out of six native victims of the disease on autopsy, but not in control brains of healthy people that died. So with the final puzzle piece apparently in place, the solution was found to this mysterious cluster on some exotic tropical isle of ALS/PDC, so-called because the form of ALS attacking people in Guam also had signs of Parkinson's disease and dementia, so they called it ALS parkinsonism dementia complex. So when the researchers were choosing a comparison group control brains, they also included two cases of Alzheimer's disease. But these brains had BMAA in their brains too. And not only that, but these were Alzheimer's victims in Canada, on the opposite side of the globe. So the researchers ran more autopsies and found no BMAA in the control brains, but BMAA detected in all the Canadian Alzheimer's victims tested.

Canadians don't eat fruit bats. What was going on? Well, the neurotoxin isn't made by the bat, it's made by the trees, although Canadians don't eat cycad trees either. It turns out that cycad trees don't make the neurotoxin either; it's actually a blue-green algae that grows in the roots of the cycad trees which makes the BMAA that gets in the seeds, which gets in the bats, that finally gets into the people. And it's not just this specific type of blue-green algae, but nearly all types of blue-green algae found all over the world produce BMAA. Up until only about a decade ago we thought this neurotoxin was confined to this one weird tropical tree, but now we know the neurotoxin is created by algae throughout the world; from Europe to the U.S., Australia, the Middle East, and elsewhere.

If these neurotoxin-producing blue-green algae are ubiquitous throughout the world, maybe BMAA is a cause of progressive neurodegenerative diseases including ALS worldwide. Researchers in Miami put it to the test and found BMAA in the brains of Floridians who died from sporadic Alzheimer's disease and ALS, but not in the brains of those that died of a different neurodegenerative disease called Huntington's, which we know is caused by a genetic mutation, not some neurotoxin. They found significant levels of BMAA in 49 out of 50 samples from 12 Alzheimer's patients and 13 ALS patients. The results (shown in the my video ALS: Fishing for Answers) for American Alzheimer's and ALS patients from the Atlantic southeast and from Canadian Alzheimer's patients from the Pacific Northwest suggested that exposure to BMAA was widespread. The same thing was then found in the brains of those dying from Parkinson's disease. You can apparently even pick up more BMAA in the hair of live ALS patients compared to controls.

So is BMAA present in Florida seafood? Yes, in freshwater fish and shellfish, like oysters and bass, and out in the ocean as well. Some of the fish, shrimp, and crabs had levels of BMAA comparable to those found in the fruit bats of Guam.

In the U.S., fish may be the fruit bats.

Maybe the ice bucket challenge should be to not serve seafood in them. See my video Diet and Amyotrophic Lateral Sclerosis (ALS) for more.

Diet may also play a role in other neurodegenerative disorders:

In health,
Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live, year-in-review presentations:

Image Credit: GraphicStock. This image has been modified.

Original Link

What Is the Cause of ALS?

What Is the Cause of ALS?.jpeg

Lou Gehrig's disease, known as amyotrophic lateral sclerosis or ALS, strikes healthy, middle-aged people seemingly at random. Of the major neurodegenerative diseases, it has the least hope for treatment and survival. Although mental capabilities stay intact, ALS paralyzes people, often from the outside in, and most patients die within three years when they can no longer breathe or swallow. At any given time, an estimated 30,000 are fighting for their life with it in this country. We each have about a 1 in 400 chance of developing this dreaded disease.

ALS is more common than generally recognized, with an incidence rate now close to that of multiple sclerosis. What causes it? 50 years ago scientists found that the rate of ALS among the indigenous peoples on the island of Guam was 100 times that found in the rest of the world, potentially offering a clue into the cause of the disease. So instead of 1 in 400, in some villages in Guam, 1 in 3 adults died of the disease!

Cycad trees were suspected, since the powdered seeds were a dietary staple of the natives and there were reports of livestock showing neurological disease after eating from it. And indeed, a new neurotoxin was found in the seeds, called BMAA. Maybe that's what was causing such high levels of ALS? But the amount of BMAA in the seeds people ate was so small that it was calculated that people would have to eat a thousand kilograms a day to get a toxic dose--that's around a ton of seeds daily. So, the whole cycad theory was thrown out and the trail went cold.

But then famed neurologist Oliver Sachs and colleagues had an idea. Cycad seeds were not all the natives ate. They also ate fruit bats (also known as flying foxes) who ate Cycad tree seeds. So maybe this is a case of biomagnification up the food chain, as about a "tons" worth of BMAA does accumulate in the flesh of flying foxes.

The final nail in the coffin was the detection of high levels of BMMA in the brains of six out of six native victims of the disease on autopsy, but not in control brains of healthy people that died. So with the final puzzle piece apparently in place, the solution was found to this mysterious cluster on some exotic tropical isle of ALS/PDC, so-called because the form of ALS attacking people in Guam also had signs of Parkinson's disease and dementia, so they called it ALS parkinsonism dementia complex. So when the researchers were choosing a comparison group control brains, they also included two cases of Alzheimer's disease. But these brains had BMAA in their brains too. And not only that, but these were Alzheimer's victims in Canada, on the opposite side of the globe. So the researchers ran more autopsies and found no BMAA in the control brains, but BMAA detected in all the Canadian Alzheimer's victims tested.

Canadians don't eat fruit bats. What was going on? Well, the neurotoxin isn't made by the bat, it's made by the trees, although Canadians don't eat cycad trees either. It turns out that cycad trees don't make the neurotoxin either; it's actually a blue-green algae that grows in the roots of the cycad trees which makes the BMAA that gets in the seeds, which gets in the bats, that finally gets into the people. And it's not just this specific type of blue-green algae, but nearly all types of blue-green algae found all over the world produce BMAA. Up until only about a decade ago we thought this neurotoxin was confined to this one weird tropical tree, but now we know the neurotoxin is created by algae throughout the world; from Europe to the U.S., Australia, the Middle East, and elsewhere.

If these neurotoxin-producing blue-green algae are ubiquitous throughout the world, maybe BMAA is a cause of progressive neurodegenerative diseases including ALS worldwide. Researchers in Miami put it to the test and found BMAA in the brains of Floridians who died from sporadic Alzheimer's disease and ALS, but not in the brains of those that died of a different neurodegenerative disease called Huntington's, which we know is caused by a genetic mutation, not some neurotoxin. They found significant levels of BMAA in 49 out of 50 samples from 12 Alzheimer's patients and 13 ALS patients. The results (shown in the my video ALS: Fishing for Answers) for American Alzheimer's and ALS patients from the Atlantic southeast and from Canadian Alzheimer's patients from the Pacific Northwest suggested that exposure to BMAA was widespread. The same thing was then found in the brains of those dying from Parkinson's disease. You can apparently even pick up more BMAA in the hair of live ALS patients compared to controls.

So is BMAA present in Florida seafood? Yes, in freshwater fish and shellfish, like oysters and bass, and out in the ocean as well. Some of the fish, shrimp, and crabs had levels of BMAA comparable to those found in the fruit bats of Guam.

In the U.S., fish may be the fruit bats.

Maybe the ice bucket challenge should be to not serve seafood in them. See my video Diet and Amyotrophic Lateral Sclerosis (ALS) for more.

Diet may also play a role in other neurodegenerative disorders:

In health,
Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live, year-in-review presentations:

Image Credit: GraphicStock. This image has been modified.

Original Link

Salmon May Be the Greatest Source of Dietary Pollutants

NF-Aug6 Pollutants in Salmon and Our Own Fat.jpg

In my video Diabetes and Dioxins, I explored a nationwide study that found a strong dose-response relationship between industrial toxins and diabetes. Since then, Harvard researchers have reported a link between persistent pollutants like hexachlorobenzene and diabetes in their Nurse's Health Study (See Food Sources of Perfluerochemicals). This is supported by an analysis they did of six other studies published since 2006 that showed the same thing. The Harvard researchers conclude that "past accumulation and continued exposure to these persistent pollutants may be a potent risk factor for developing diabetes."

Where is hexachlorobenzene found? In a U.S. supermarket survey, salmon and sardines were most heavily tainted with hexachlorobenzene, with salmon "the most contaminated food of all." Farmed salmon specifically is perhaps the greatest source of dietary pollutants, averaging nearly ten times the PCB load of wild-caught salmon.

Wait, isn't there a flaw in this argument? Since many of these chemicals were banned in the 70's, the levels inside people have been going down, whereas the rates of diabetes have been shooting straight up. Therefore, how could pollutant exposure be causing diabetes? This puzzle may be explained by our epidemic of obesity. The nationwide study found that the association between these toxins and diabetes was much stronger among obese subjects than among lean subjects. As people get fatter, the retention and toxicity of pollutants related to the risk of diabetes may increase.

So we're not just exposed by eating the fat of other animals; our own fat can be a continuous source of internal exposure because these persistent pollutants are slowly but continuously released from our fat stores into our circulation.

They don't call them "persistent pollutants" for nothing. These chemicals have such a long half-life that people consuming regular (even just monthly) meals of farmed salmon might end up retaining these chemicals in their bodies for 50 to 75 years.

Hexachlorobenzene in fish has been tied to diabetes; what about the mercury? A 1995 study highlighted in my video, Pollutants in Salmon and Our Own Fat, out of Japan found that diabetics do seem to have higher mercury levels in their body. Mercury alone does not seem to increase diabetes risk, though. It may be the simultaneous exposure to both dioxins and mercury that increases risk, so the safety limits for dioxins and mercury individually may underestimate the risk when they're consumed together in seafood.

So while the pharmaceutical industry works on coming up with drugs to help mediate the impact of these pollutants, a better strategy might be to not get so polluted in the first place.

Unfortunately, because we've so contaminated our world, we can't escape exposure completely. You have to eat something. Some foods are more contaminated than others, though. Exposure to these pollutants comes primarily from the consumption of animal fat, with the highest levels found in fatty fish like salmon. Farmed Atlantic salmon may be the single largest source of these pollutants, and that's the kind of salmon we most commonly find in supermarkets and restaurants.

We hear about advisories warning pregnant women to avoid the consumption of food containing elevated levels of pollutants and mercury, but as a public health journal article points out, since these toxins bio-accumulate in the body for many years "restricting the exposure to these pollutants only during pregnancy would not protect the fetus or future generations against the harmful effects of these hazardous chemicals."

For the existing links between seafood and diabetes risk, see Fish and Diabetes and I explored this concept of our own body fat as a reservoir for disease-causing pollutants in Diabetes and Dioxins.

More on hexachlorobenzene in my video Food Sources of Perfluorochemicals.

Our body has a tougher time getting rid of some toxins than others:

The best way to detox is to stop toxing in the first place.

-Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live year-in-review presentations Uprooting the Leading Causes of Death, More Than an Apple a Day, and From Table to Able.

Image Credit: Sharon Mollerus / Flickr

Original Link

Dr. Greger’s 2015 Live Year-in-Review Presentation

Food as Medicine

View my new live presentation here: Food as Medicine: Preventing and Treating the Most Dreaded Diseases with Diet

Every year I scour the world's scholarly literature on clinical nutrition, pulling together what I find to be the most interesting, practical, and groundbreaking science on how to best feed ourselves and our families. I start with the thousands of papers published annually on nutrition (27,000 this year--a new record!) and, thanks to a crack team of volunteers (and now staff!), I'm able to whittle those down (to a mere 8,000 this year). They are then downloaded, categorized, read, analyzed, and churned into the few hundred short videos. This allows me to post new videos and articles every day, year-round, to NutritionFacts.org. This certainly makes the site unique. There's no other science-based source for free daily updates on the latest discoveries in nutrition. The problem is that the amount of information can be overwhelming.

Currently I have more than a thousand videos covering 1,931 nutrition topics. Where do you even begin? Many have expressed their appreciation for the breadth of material, but asked that I try to distill it into a coherent summary of how best to use diet to prevent and treat chronic disease. I took this feedback to heart and in 2012 developed Uprooting the Leading Causes of Death, which explored the role diet may play in preventing, arresting, and even reversing our top 15 killers. Not only did it rise to become one of the Top 10 Most Popular Videos of 2012, it remains my single most viewed video to date, watched over a million times (NutritionFacts.org is now up to more than 1.5 million hits a month!).

In 2013 I developed the sequel, More Than an Apple a Day, in which I explored the role diet could play in treating some of our most common conditions. I presented it around the country and it ended up #1 on our Top 10 Most Popular Videos of 2013. Then in 2014 I premiered the sequel-sequel, From Table to Able, in which I explored the role diet could play in treating some of our most disabling diseases, landing #1 on our Top 10 Most Popular Videos of 2014.

Every year I wonder how I'm going to top the year before. Knowing how popular these live presentations can be and hearing all the stories from folks about what a powerful impact they can have on people's lives, I put my all into this new 2015 one. I spent more time putting together this presentation than any other in my life. It took me an entire month, and when you see it I think you'll appreciate why.

This year, I'm honored to bring you Food as Medicine, in which I go through our most dreaded diseases--but that's not even the best part! I'm really proud of what I put together for the ending. I spend the last 20 minutes or so (starting at 56:22) going through a thought experiment that I'm hoping everyone will find compelling. I think it may be my best presentation ever. You be the judge.

You can watch it at no cost online, but it is also available on DVD through my website or on Amazon. If you want to share copies with others, I have a five for $40 special (enter coupon code 5FOR40FAM). All proceeds from the sales of all my books, DVDs, downloads, and presentations go to the 501c3 nonprofit charity that keeps NutritionFacts.org free for all, for all time. If you want to support this initiative to educate millions about eradicating dietary diseases, please consider making a donation.

After you've watched the new presentation, make sure you're subscribed to get my video updates daily, weekly, or monthly to stay on top of all the latest.

-Michael Greger

Original Link

How Fruits and Vegetables Can Prevent Asthma

NF-June30 Preventing Asthma with Fruits and Vegetables.jpg

Asthma is the most common chronic disease in children and the prevalence is increasing around the world. Despite this, most research dollars are spent on adult chronic disease. "One might ask," a group of researchers posited "whether this is because our politicians and senior administrators feel themselves to be more likely to suffer from the latter, and thus ignore allergic diseases as they mostly impact children and young adults" - who don't vote.

An enormous study about asthma and allergies in childhood, highlighted in my video, Preventing Asthma with Fruits and Vegetables, was published that includes more than a million children in nearly a hundred countries, making it the most comprehensive survey of asthma and allergies ever undertaken. The researchers found striking worldwide variations in the prevalence and severity of asthma, allergies, and eczema--a 20 to 60-fold difference in prevalence of symptoms of asthma, allergic runny nose, and atopic eczema around the world. The large variability suggests a crucial role of local characteristics that are determining the differences in prevalence between one place and another.

What kind of environmental factors? Why does the prevalence of itchy eyes and runny noses range anywhere from 1% in India, for example, and up to 45% of kids elsewhere? There were some associations with regional air pollution and smoking rates, but the most significant associations were with diet. Adolescents showed a consistent pattern of decreases in symptoms of wheeze (current and severe), allergic rhinoconjunctivitis, and atopic eczema with increases in per capita consumption of plant foods. The more their calories and protein came from plant sources, the less allergies they tended to have.

In general, there seems to be an association between an increase in asthma prevalence and a decrease in consumption of fresh fruits, green vegetables, and other dietary sources of antioxidants, helping to explain why the prevalence of asthma and respiratory symptoms are lower in populations with high intake of foods of plant origin. High intakes of fat and sodium, and low intakes of fiber and carbohydrates, are linked with asthma, while traditional and vegetarian diets are associated with lower rates. For example, if we look closer within India, in a study of more than 100,000 people, "those who consumed meat (daily or occasionally) were more likely to report asthma than those who were strictly vegetarian." This also meant avoiding eggs.

Eggs have been associated (along with soft drink consumption) with increased risk of respiratory symptoms and asthma in schoolchildren. On the other hand, consumptions of soy foods and fruits were associated with reduced risk of respiratory symptoms. In fact, removing eggs and dairy from the diet may improve lung function in asthmatic children in as little as eight weeks. Therefore, it may be a combination of eating fewer animal foods and more plants.

High vegetable intake, for example, has been found protective in children, potentially cutting the odds of allergic asthma in half. And fruit has also shown a consistent protective association for current and severe wheeze and runny nose in adolescents, and for current and severe asthma, allergies, and eczema in children.

Why is this? I've talked about the endocrine-disrupting industrial pollutants (see Dietary Sources of Alkylphenol Endocrine Disruptors) building up in the meat supply that may increase the risk of allergic disease, but the increase in asthma may be a combination of both a more toxic environment and a more susceptible population. One review notes that, "The dietary changes which have occurred over recent years may have led to a reduction in these natural antioxidant defenses, resulting in a shift of the antioxidant status of the whole population and leading to increased susceptibility to oxidant attack and airway inflammation."

In adults, for example, the risk of airway hyper-reactivity may increase seven-fold among those with the lowest intake of vitamin C from plant foods, while those with the lowest intake of saturated fats may have a 10-fold protection, presumably because of saturated fat's role in triggering inflammation.

The protective effect of plant-based food may also be mediated through effects on intestinal microflora. It turns out that differences in the indigenous intestinal flora might affect the development and priming of the immune system in early childhood. Kids with allergies, for example, tend to be less likely to harbor lactobacilli, the good bacteria that's found in fermented foods, and naturally on many fruits and vegetables. Lactobacillus probiotics may actually help with childhood asthma, which may help explain why children raised on largely organic vegetarian diets may have a lower prevalence of allergic reactions. Infants raised this way tend to have more good lactobacilli in their guts compared to controls, though they were also more likely to have been born naturally, breastfed longer, and not been given antibiotics, so we can't really tell if it's the diet until we put it to the test (See Treating Asthma with Fruits and Vegetables).

More on preventing allergic diseases can be found in my videos Preventing Childhood Allergies and Preventing Allergies in Adulthood.

More on protecting lung function with fruits and vegetables can be found in Preventing COPD With Diet.

Surprised probiotics can affect immune function? Check out my video Preventing the Common Cold with Probiotics? And if you think that is wild, wait until you see Gut Feelings: Probiotics and Mental Health.

What might be in plants that's so beneficial? See Anti-inflammatory Antioxidants.

What might be in animal products that is harmful to lung function? There are endocrine-disrupting industrial pollutants that build up in the food chain that may be playing a role. See my video Alkylphenol Endocrine Disruptors and Allergies. Also there's an inflammatory omega-6 fatty acid found predominantly in chicken and eggs that may contribute to inflammation as well. See Inflammatory Remarks About Arachidonic Acid.

Choosing fragrance-free personal care products may also help reduce airway reactivity: Throw Household Products Off the Scent.

I compare the efficacy of plants to pills (Treating Asthma With Plants vs. Supplements?) and explore the role an entire diet filled with plants might play in Treating Asthma and Eczema With Plant-Based Diets.

-Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live year-in-review presentations Uprooting the Leading Causes of Death, More Than an Apple a Day, and From Table to Able.

Image Credit: EdTech Stanford University School of Medicine / Flickr

Original Link

How Contaminated Are Our Children?

NF-June18 California Children are Contaminated.jpg

In a study highlighted in my video, California Childen Are Contaminated, researchers analyzed the diets of California children ages two through seven to determine the cancer and non-cancer health effects from food contaminant exposures. It turns out food may be the primary route of exposure to toxic heavy metals, persistent pollutants, and pesticides. "Though food-borne toxic contaminants are a concern for all ages, they are of greatest concern for children, who are disproportionately impacted because they're still developing and have greater intake of food and fluids relative to their weight. Pediatric problems that have been linked to preventable environmental toxin exposures include cancer, asthma, lead poisoning, neurobehavioral disorders, learning and developmental disabilities, and birth defects."

The good news is that changing one's diet can change one's exposure. Quoting from the study, "A diet high in fish and animal products, for example, results in greater exposure to persistent pollutants like DDT and dioxins and heavy metals than does a plant-based diet because these compounds bioaccumulate up the food chain." Plants are at the bottom of the food chain. The sample of California kids, however, was not eating a plant-based diet. Cancer benchmark levels were exceeded by all 364 children for arsenic, the banned pesticide dieldrin, a metabolite of DDT called DDE, and dioxins.

Children exceeded safety levels by a greater margin than adults. This is especially of concern for children because all of these compounds are suspected endocrine disruptors and thus may impact normal development. Cancer risk ratios were exceeded by over a factor of 100 for both arsenic and dioxins.

Which foods were the worse? For preschoolers, the number one food source of arsenic was poultry, though for their parents, it was tuna. The number one source of lead was dairy, and for mercury it was seafood. And the number one source of the banned pesticides and dioxins was dairy. (See Preventing Parkinson's Disease With Diet.)

The researchers also recommended children should eat lower quantities of chips, cereal, crackers, and other crispy carbs to reduce acrylamide intake.

The California study didn't split up the groups by gender, but a similar study in Europe found that men had higher levels of some of these pollutants than women. For example, levels of the banned pesticide chlordane were higher in men, but women who never breastfed were right up there alongside men, with the lowest levels found in women who breastfed over 12 months. Therefore, it is likely that the lactation-related reduction in blood pollutant levels partly explains the lower body burdens among women compared with men. So cows can lower their levels by giving some to us, then we can pass it along to our children.

What non-cancer effects might some of these pollutants have? They can affect our immune system. Studies clearly demonstrate the "ability of dioxins and related compounds to have a long-lasting and deleterious impact on immune function." This manifests as increased incidences of respiratory infections, ear infections, cough, and sore throat. At first, most of the data was for during infancy, but now we have follow-up studies showing that the immunosuppressive effects of these toxins may persist into early childhood, so we should try to reduce our exposure as much as possible. Because these pollutants accumulate in animal fat, consuming a plant-based diet-decreasing meat, dairy, and fish consumption-may reduce exposure for children and adults alike.

These findings should come as no surprise to those who saw my video Pollutants in California Breast Tissue. For an overview see CDC Report on Environmental Chemical Exposure and President's Cancer Panel Report on Environmental Risk.

Pollutant exposure may affect the ability to have children in the first place (Male Fertility and Diet and Meat Hormones & Female Infertility). Such a delay, though, may allow one an opportunity to reduce one's toxic burden through dietary change (Hair Testing for Mercury Before Considering Pregnancy and How Long to Detox From Fish Before Pregnancy?).

During pregnancy, pollutants can be transferred directly (DDT in Umbilical Cord Blood), and after pregnancy through breastfeeding (The Wrong Way to Detox). Once our kids are contaminated, How Fast Can Children Detoxify from PCBs? The chemicals have implications for older children too: Protein, Puberty, and Pollutants.

Seafood is not the only source of toxic heavy metals. See:

Videos on primary food sources of other industrial pollutants include:

There are some things we can eat, though, to counteract some of the toxins:

-Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live year-in-review presentations Uprooting the Leading Causes of Death,More Than an Apple a Day, and From Table to Able.

Image Credit: Kevin Krejci / Flickr

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How to Reduce Exposure to Alkylphenols Through Your Diet

NF-Apr28 Dietary Sources of Alkylphenol Endocrine Disruptors.jpg

Alkylphenols are industrial chemicals that are found in hair products, spermicides, cleaning products and detergents. They are considered endocrine disruptors. For more information on alkylphenols, check out my video Alkylphenol Endocrine Disruptors and Allergies.

Concern about alkylphenols first surfaced decades ago when a group at Tufts observed an excessive proliferation of human breast cancer cells in certain types of plastic containers, something that would normally only be seen if the cells were exposed to some type of estrogen. They identified an alkylphenol leaching from the plastic as the culprit, having "estrogen-like properties when tested in the human breast tumor cells." Excessive proliferation of human breast cancer cells is never good, so countries in Europe started banning and restricting the use of these chemicals. However, the U.S. EPA has been slow to respond.

A half million tons of alkylphenols continue to spew out into the environment every year, so much so that now that they come down in the rain and then accumulate up the food chain.

One study, highlighted in my video, Dietary Sources of Alkylphenol Endocrine Disruptors, examined the Japanese food supply to find out which foods had these potentially allergy-exacerbating endocrine disruptors. The researchers found that chicken and fish had the highest levels. Water animals and birds concentrate these compounds to levels several thousands of times greater than those in the environment because these are fat-soluble chemicals. "Therefore, they can easily contaminate foods of animal origin, which are thought to represent the most important source of human exposure to many organic pollutants," not just the alkylphenols. Another research group also found that fish was the worst.

Which kind of fish? Anchovies, mackerel, salmon and cod seem to have the highest levels. In fact, salmon was the only food found contaminated with nonylphenol diethoxylate, which is even more potent than regular nonylphenol. The levels of contamination in fish were at the concentrations that start to make breast cancer cells go crazy in vitro.

These findings are consistent with the fact that seafood consumption has been associated with severe asthma, current and severe rhinoconjunctivitis, (seasonal pollen allergies), and current and severe eczema (an allergic-type disease of the skin) in adolescent populations around the globe.

If these synthetic xenoestrogens are playing a role, what about natural phytoestrogens, such as those found in soy foods? It turns out that in patients with asthma, consumption of a diet with moderate to high amounts of soy phytoestrogens is associated with better lung function and better asthma control. If anything then, it's these chemical pollutants, which come down in the rain, contaminate the soil, the plants, and then concentrate up the food chain in the fat of animals. We're now the animals at the top of the food chain, like the polar bear or bald eagle, building up higher levels of these synthetic xenoestrogens.

Thankfully, there aren't many cannibals around anymore. However, there is one group that continues to feed off human tissues--babies (See The Wrong Way to Detox). Alkylphenols have been found to concentrate in human breast milk, particularly in women who eat fish. The highest levels of these endocrine-disrupting pollutants were recorded in milk samples from mothers who said they ate fish at least twice a week, consistent with the fact that seafood consumption represents an important source of alkylphenol intake. Even these "slightly elevated levels of endocrine disruptors in the milk of mothers with a seafood-rich diet may be associated with adverse effects on neurological development, fetal and postnatal growth, and memory functions on breastfed infants, because these contaminants may interfere with the endocrine [hormonal] system."

Since these toxins concentrate in fat, the highest concentrations may be found in straight animal fat, such as chicken fat, lard, tallow, or fish oil. Consumption of fish oil capsules and processed fish products has been associated with alkylphenol concentration in mothers' milk, again due to bioaccumulation up the food chain. And then we recycle the leftover remains of farm animals into farm animal feed, so the levels can get higher and higher in animal products.

As one commentator noted, while these pollutants do contaminate human milk, they also contaminate cow's milk--humans and cows live in the same polluted world. In fact, infant formula was found to be over five times more contaminated, so breast is still best, absolutely. But these kinds of studies are important in order to provide good suggestions for food choices to nursing mothers to prevent excess exposure to these pollutants in their infants.

We can kind of cut out the middlefish and move lower down the food chain in hopes of decreasing our exposure to industrial toxins.

Endocrine disruptors have also been linked to conditions such as male infertility (Male Fertility and Diet and Xenoestrogens and Sperm Counts) and early onset of puberty (Protein, Puberty, and Pollutants and Xenoestrogens and Early Puberty).

What other industrial pollutants build up in the aquatic fish chain? See, for example:

Farmed Fish vs. Wild Caught. Which is worse?

How Long to Detox from Fish Before Pregnancy? If it's too late, How Fast Can Children Detoxify from PCBs?

-Michael Greger, M.D.

PS: If you haven't yet, you can subscribe to my free videos here and watch my live year-in-review presentations Uprooting the Leading Causes of Death, More Than an Apple a Day, and From Table to Able.

Image Credit: Andrea Pokrzywinski / Flickr

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