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If you are GFCF and looking for gluten free recipes, reviews and engaging discussion, then this blog is for you! We have posted a wide variety of gluten free recipes and information since 2006 for people struggling with Celiac, autism spectrum disorders, ADHD, other health concerns and food allergies. Thankfully, there's been great progress with gfcf food selection and ingredient listings since this blog's first posts. Please join us!
Showing posts with label Research and studies. Show all posts
Showing posts with label Research and studies. Show all posts

2.21.2008

Study shows link between mercury and autism

I don't jump on every study or finding that pops up about autism, mostly because I find the waves of hope and dispair too stressful. But, I found this recent study interesting, mostly because it gets to the heart of the million dollar question -- can mercury cause the problems our kids are struggling to overcome? Sure, all the medical groups and the feds tell us "no." Then, they chastise us for even considering the possibility. Why don't they instead say, "Gee, we're not really sure. So, instead of guessing, we'll study the possibility in an open, nonpolitical environment and let the world know our findings." Yeah, I know, I'm dreaming. Anyway, here's a link to the Rutgers and UMDNJ study and a few lines from the summary.

Link:
http://www.scipub.org/fulltext/ajbb/ajbb42218-225.pdf

Abstract:
"We have shown that mice exposed to either methylmercury (MeHg) or valproic acid (VPA) in early postnatal life display aberrant social, cognitive and motor behavior. Interestingly, early exposure to both compounds has been clinically implicated in the development of autism. We recently found that Trolox, a water-soluble vitamin E derivative, is capable of attenuating a number of neurobehavioral alterations observed in mice postnatally exposed to MeHg."
Oh, and to put this into perspective, here's a little tidbit from a USAToday series on pollutants.

"Mercury is 13.5 times as dense as water. If all the mercury released into the air by U.S. coal-burning power plants in 2005 48.3 tons could be captured and stored in one place, it would fit into the back of a large SUV such as a Chevy Suburban or Ford Excursion. By contrast, depositing just 1/25th of a teaspoon of mercury into a 60-acre lake could contaminate the lake to the point that fish caught there would be unsafe to eat."

Sources: University of North Dakota Energy & Environmental Research Center; North Carolina Divsion of Pollution Prevention and Environmental Assistance

2.13.2008

Stop the presses! You can treat autism through diet!

Yeah, there's a little sarcasm there. You may have seen this item from the Feingold organization circulating across webland. If not, save these links, print out the article and post it on the fridge. Yippee.

A doctor from Children's Hospital in Boston wrote an article for the American Academy of Pediatrics' AAP Grand Rounds publication on the impact that food additives have on people with ADHD. Those of us dealing with the spectrum know how additives, colorings and preservatives really can screw your day up.

So, here's the links for you to enjoy.

-- the actual AAP article is at this link: http://www.feingold.org/Research/PDFstudies/AAP08.pdf

-- a previous study on this issue published in Lancet, in the UK, is at this link: http://www.feingold.org/Research/lancet.html

-- the Feingold write-up on this is at this link: http://www.feingold.org/aap.html

-- Feingold's "Behavior, Learning and Health" publication is at this link: http://www.feingold.org/BLUEBOOK.pdf

I'm not a strict follower of Feingold but we certainly share many of its beliefs.

2.06.2008

Autism and chiropractic help

You might find this interesting. It's a blog entry from a Colorado chiropractor about the use of chiropractic with autistic patients. We take our daughters to a progressive chiropractor for spinal adjustments using the Activator method, which uses less force to manipulate the spine. It's not necessarily the best, but it works for us and the kids don't object to it since it's not very intrusive. We believe this helps. We're also involved in some other treatments there, which I'll write more about later. They have helped (and I wouldn't have believed it if I hadn't seen it with my own eyes). One treatment has helped my youngest daughter shed some of her food intolerances. Really. No "regular" docs were able to do that -- or even willing to try. The author of this is my brother, who you'll find is very informed. Enjoy.

Can Chiropractic Help Children With Autism?

(here's a paragraph - link to read the entire entry)

... A paper published in the March 2006 issue of Clinical Chiropractic reviewed past studies and found that children with Autism are helped with chiropractic care. Furthermore this study found that most children with Autism had problems with their upper cervical (neck) spine[10]. Another study found that 80% of children receive damage to their upper cervical spines due to birth trauma[11]. The upper cervical spine is so important that the two vertebrae located at t he top of the spine have their own names: Atlas and Axis. All the other 22 vertebrae just have numbers assigned to them such as the third thoracic vertebra and the fifth lumbar vertebra. The Atlas and Axis are so important that an entire chiropractic discipline, called Upper Cervical Chiropractic, was established by B.J. Palmer (the Developer of the Chiropractic Profession), simply to restore proper function to that area. Working with the Atlas and Axis directly effects the function of the nervous system. Autistic children have a neurological component to their disorder. It makes sense that Upper Cervical Chiropractic would help them...

12.05.2007

How fever might negate autism behaviors

Yesterday's news, but worth reposting anyway. I've experienced this with my kids. I thought it was pretty freaky when it happened. I remember the last time they were both fairly ill, vomiting, fever, etc. We pulled them off their supplements for the week, but instead of tanking, they were pretty well-behaved and "normal" in their speech and actions. Very odd. Now, it makes sense. Read on....

Newsday.com
Study: Fever lessens autism symptoms
BY DELTHIA RICKS
December 4, 2007

Key behavior ranging from better concentration to improved word use tends to occur when a child with autism has a fever, scientists report in an unusual investigation published yesterday.

Exactly how a fever changes the brain remains a matter of speculation. But scientists at the Kennedy Krieger Institute in Baltimore have found that even though the effects are temporary, the discovery opens a new window to understanding autism.

Dr. Andrew Zimmerman, director of medical research at the institute's autism and related disorders center, said the study was inspired by anecdotal reports from parents and clinicians who found that when a child with autism developed a fever, many classic signs of the condition seem to subside. The effect, however, is fleeting.

Zimmerman and collaborator Laura Curran studied 30 children with autism between the ages of 2 and 18 during and after an episode of fever to determine if there was any truth to the rumors about behavioral changes. The team defined a fever as 100.4 degrees Fahrenheit and asked parents to document their child's behavior throughout the episode.

"The patients we took measurements on all returned to baseline after a week," Zimmerman said, referring to a reversal to previous behavior.Despite the reversal, Zimmerman said the change was eye-opening because children not only spoke more and made better eye contact, some experienced better overall relationships with parents and peers.

Zimmerman, who reports the transformation in the journal Pediatrics, told Newsday the discovery provides a better understanding of the brain. The organ has tremendous plasticity, he said of its ability to adapt to stress, which in this case was a fever. He also said the new data sheds more light on why autism occurs. Fever causes a change in how the brain sends messages between cells.

During a fever, the body produces a flood of infinitesimal proteins called cytokines that may facilitate messages between brain cells. When the fever subsides, this enhanced activity diminishes as well.

"In the science of autism a lot of people are looking at the synapse as the area where the problems are," Zimmerman said. A synapse is the tiny gap between the ends of nerve fibers across which messages are fired.

Edward Carr, a professor of psychology at Stony Brook University, said that though the research is interesting, children with autism experience improvements without fevers. "His point shows there's a certain plasticity, but I don't think improvement depends on a fever.

Dr. Eric Gould, a pediatrician in Great Neck, said he believes the study was published prematurely and provides nothing useful for parents and their children. "Revealing this information at this juncture is purposeless," he said.

Gould added that "observational studies are not worth anything. They're so patently absurd on the surface. You can't compare apples to apples because each of those kids was different. It's not like each of them had strep throat."

11.27.2007

How cell phones and Wi-Fi might cause autism

I don't know about you, but this study makes a heck of a lot of sense to me.


Washington, DC (PressReleaseHelp) November 15, 2007 -- A groundbreaking scientific study published this week in the peer-reviewed Australasian Journal of Clinical Environmental Medicine warns that wireless communication technology may be responsible for accelerating the rise in autism among the world’s children. (J.Aust.Coll.Nutr.& Env.Med, 2007; Vol.26, No.2 pages 3 – 7; report attached.)

Autism is a disabling neuro-developmental disorder whose cause is not completely understood, but is known to involve heavy metal toxicity. American advocacy groups call autism "the fastest-growing developmental disability in the United States." Twenty years ago, only 1 in 10,000 children were diagnosed with some form of autism; U.S. government data show the rate in 2002 to be 1 in 150; clinicians who treat the disease estimate the occurrence today to be closer to 1 in 100.

Although some of the increase in autism can be ascribed to more efficient diagnosis by the medical community
The children studied were seen by Tamara Mariea², a certified clinical nutritionist based in Nashville, Tennessee, specializing in treating autism. She is the primary author of the paper, along with Dr. George Carlo¹, an expert on the dangers of electromagnetic radiation (EMR), who headed the world’s largest research program on mobile phone health hazards in the 1990s. Their work revealed the autism-wireless technology connection following a series of tests on autistic children monitored during 2005 and 2006.

The autistic children followed specific detoxification protocols in an environment that was mitigated with regard to sources of EMR including mobile phones and WiFi³. Heavy metal excretions were monitored from hair, urine and feces over periods ranging from several weeks to several months. The researchers found that with protocols administered in the mitigated environment, heavy metals were cleared from the children’s bodies in a pattern dependent on time and molecular weight. The heaviest metals, such as mercury and uranium, cleared last. In many of the children, the decrease in metals was concomitant with symptom amelioration.Tamara Mariea, said: “These findings give us very important clues to solving some of the enigmas we see in the autism literature regarding the efficacy of detoxification. And, we are extremely pleased with the results we are now seeing in these children. Our protocols are working.”

Dr. Carlo said, “These findings tie in with other studies showing adverse cell-membrane responses and disruptions of normal cell physiology. The EMR apparently causes the metals to be trapped in cells, slowing clearance and accelerating the onset of symptoms.”

The authors point out that the rise in cases of autism is paralleled by the huge growth in mobile phone and WiFi usage since the late 1990’s – with worldwide wireless usage now having reached nearly 4 billion persons.

“Although some of the increase in autism can be ascribed to more efficient diagnosis by the medical community,” Dr. Carlo said, “A rise of this magnitude must have a major environmental cause. Our data offer a reasonable mechanistic explanation for a connection between autism and wireless technology.”

Notes to Editors:1. In the 1990s, Dr George Carlo headed the $28.5 million Wireless Technology Research program, funded by the mobile phone industry and overseen by the federal government, studying health hazards from mobile phone technology. He is currently head of the non-profit Science and Public Policy Institute, based in Washington, D.C. 2. Tamara Mariea is Director of Internal Balance, Inc. in Nashville, Tennessee. Since 2000, she has helped over 500 autistic children.

3. WiFi refers to technologies that use wireless communication to connect computers to the Internet.

11.26.2007

Autism medicine research & a dose of skepticism

Nothing like a strong dose of skepticism to start the morning. Sorry folks, I'm very concerned about this. First, note the word "relieve" in the release. That, to me, means this would be like a cough medicine. If you give the medicine, your child's symptoms are relieved, but not cured. When the medicine wears off, they return. And, then, like other meds, there's other impacts. With my kids, the preservatives and dyes are problems. They cause behavior issues that are almost worse than the initial illness. Again, sorry, but I think this is the mainstream medical community seeking that "pop a pill" answer to autism rather than the complex treatments that actually make life-changing differences for many of us. Make up your own mind. You'll find the original release here.


INVESTIGATIONAL MEDICATION TO BE STUDIED IN CHILDREN WITH AUTISM
PITTSBURGH, Nov. 26 – Children with autism spectrum disorder between the ages of five and 17 years are needed to participate in a research study looking at how a medicine called fluoxetine works to relieve the repetitive behavior and other symptoms associated with autistic spectrum disorder (ASD). The study will take place at the John Merck Child Outpatient Clinic and Western Psychiatric Institute and Clinic of the University of Pittsburgh Medical Center (UPMC).

Researchers are looking for both children with autism and those who have symptoms of ASD. For the purpose of this study, fluoxetine is investigational. An investigational drug is one which has not been approved for this use by the U.S. Food and Drug Administration (FDA).

Autism is a developmental disorder that is characterized by impairments in communication and social interaction skills, as well as the presence of stereotyped patterns of behavior. Many children with autism also experience challenging behaviors, such as overactivity, anxiety, irritability and agitation. The targeted behaviors for this study include:

· constant rocking, spinning, twirling or pacing
· repeating words or phrases over and over
· repeating activities such as going in and out of doorways, picking up and putting down objects
· insisting objects be in a precise order; or that they do things in a particular way or particular order, et cetera
· insisting parents or caregivers perform activities in the same manner over and over again
· asking the same questions or making the same requests over and over
· issues with any other type of repetitive behavior that interferes with daily function

The study will require nine visits, and additional visits may be scheduled if clinically indicated. Participants will be compensated for their time.

11.23.2007

Autism research at Harvard

If you missed Kent Heckenlively's piece "The Harvard Gang" at the Age of Autism site, it's worth reading. Here's a snippet, but you can read the rest by following the link. It's interesting stuff about what Harvard researchers are finding in the autism world.

THE HARVARD GANG
By Kent Heckenlively, Esq.

You can always tell a Harvard guy,” my dad would say, beginning one of the innumerable jokes he told during my youth.

“How?” my brother and I would respond, knowing we were being set up.

“Because he has to tell you he went to Harvard within the first five minutes you meet him,” came the answer.

If earlier generations of the crimson and black were known for trumpeting their credentials, I have to admit that the current crop now impresses me with their research into solving some of the mysteries of autism.

Dr. Martha Herbert of Harvard Medical School first caught my attention back in 2005 with her article, “Large Brains in Autism: The Challenge of Pervasive Abnormality.” Dr. Herbert was investigating the most replicated finding in autism neuroanatomy, namely that autistics seem to have unusually large brains. In her review of autism research, she noted that the picture which was emerging suggested inflammation as a reason for the large brains observed in autistic children.

Dr Herbert wrote, “Although there is a great deal of heterogeneity to the medical complaints that frequently accompany autism, there are common threads that may indicate common or related molecular and cellular mechanisms between body and brain. For instance, the pathophysiologies of inflammation and oxidative stress, and excitotoxicity are greatly linked, and it appears these types of mechanisms are implicated in the brain as well as some of the sensory and sleep regulation, epilepsy, immune, and gastro-intestinal complaints commonly seen in autism.”

To translate the medical-speak, inflammation is something we know from infections or injuries, oxidative stress is another expression for the signs of stress on the body from chemicals, and excitotoxicity is another word for how nerve cells responds to toxins.

Read the rest at Age of Autism.

10.17.2007

Autism cluster found in New Jersey school

For our autism education today, this is an interesting article from The Record in New Jersey about a cluster of autism cases found in one school. The article reports the study found of 24 school staffers, 57 percent of their children were diagnosed with neurodevelopmental disorders and 24 percent were diagnosed with autism. Read more.

The Record
Autism study hints at school cluster
Wednesday, October 17, 2007
By KAREN SUDOL, STAFF WRITER

A research study has found a possible autism cluster among children of teachers who worked at a Northvale school.

"While we cannot yet determine the cause of these findings, we can say for certain today that the prevalence of autism and other neurodevelopmental disorders ... is statistically significantly higher," said study leader Dr. Lawrence D. Rosen.

The study's task force will now look at environmental factors at St. Anthony's that could have caused rates of autism and other learning disorders to be higher than state or national levels.

"Whether the building is contributing is speculation," said Rosen, also the medical adviser for the Deirdre Imus Environmental Center for Pediatric Oncology at Hackensack University Medical Center, which initiated the study.

The findings released Tuesday were based on interviews with 24 school staff members who came forward after 500 letters were mailed to present and past employees. Rosen said he doesn't know the total number of teachers with children who have worked at the school during the past 10 years but that he wants to interview all of them.

Read the rest at The Record.

9.27.2007

The dangers of artificial color and preservatives

This will sound familiar to a lot of you...

TIME
Thursday, Sep. 13, 2007
Hyper Kids? Check Their Diet
By Claudia Wallis

Parents have long observed that some kids go bonkers after eating foods with a lot of artificial ingredients or neon-bright colors. Medical researchers--not to mention the food industry--have been skeptical; there was no proof of this effect, at least nothing like a double-blind, controlled study.

As so often happens, however, the parents turned out to be a step ahead of the pros. A carefully designed study published in the British journal the Lancet shows that a variety of common food dyes and the preservative sodium benzoate--an ingredient in many soft drinks, fruit juices and salad dressings--do cause some kids to become measurably more hyperactive and distractible. The findings prompted Britain's Food Standards Agency to issue an immediate advisory to parents to limit their children's intake of additives if they notice an effect on behavior. In the U.S., there hasn't been a similar response, but doctors say it makes sense for parents to be on the alert.

The study, led by Jim Stevenson, a professor of psychology at England's University of Southampton, involved about 300 children in two age groups: 3-year-olds and 8- and 9-year-olds. Over three one-week periods, the children were randomly assigned to consume one of three fruit drinks daily: one contained the amount of dye and sodium benzoate typically found in a British child's diet, a second had a lower concentration of additives, and a third was additive-free. The children spent a week drinking each of the three mixtures, which looked and tasted alike. During each seven-day period, teachers, parents and graduate students (who did not know which drink the kids were getting) used standardized behavior-evaluation tools to size up such qualities as restlessness, lack of concentration, fidgeting and talking or interrupting too much.

Stevenson found that children in both age groups were significantly more hyperactive when drinking the beverage with higher levels of additives. Three-year-olds had a bigger response than the older kids did to the drink with the lower dose of additives, which had about the same amount of food coloring as in two 2-oz. (57 g) bags of candy. But even within each age group, some children responded strongly and others not at all. Stevenson's team is looking at how genetic differences may explain the range of sensitivity. One of his colleagues believes that the additives may trigger a release of histamines in sensitive kids. In general, the effects of the chemicals are not so great as to cause full-blown attention-deficit/hyperactivity disorder (ADHD). Still, the paper warns that "these adverse effects could affect the child's ability to benefit from the experience of school."

The Lancet paper may be the first to nail down a link between additives and hyperactivity, but as long ago as the 1970s, the idea was the basis for the restrictive Feingold diet, popularized as a treatment for ADHD. Some clinicians still routinely advise parents of kids with ADHD to steer their kids away from preservatives and food dyes. "It matters for some kids, so I tell parents to be their own scientist," says psychiatrist Edward Hallowell, author of several books on ADHD. While a similar link between hyperactivity and sugar remains unproven, Hallowell cautions parents to watch the sweets too. "I've seen too many kids who flip out after soda and birthday cake," he says. "I urge them to eat whole foods. They'll be healthier anyway."

The food industry has responded cautiously to the study, calling for further research. The food dyes used in the study "have gone through substantial safety evaluations by government bodies," notes Cathy Cook of the International Association of Color Manufacturers.

The Lancet study will probably encourage other researchers to conduct food-additive work of their own. People with disorders ranging from autism to atrial fibrillation (a heart condition) have claimed that preservatives worsen their symptoms. "My guess is that if we do similarly systematic work with other additives, we'd learn they, too, have implications for behavior," says Dr. James Perrin, a professor of pediatrics at Harvard. "Kids drink crazy things with colors that are almost flashing," he says. The study is one more reason to cheer the trend toward less processed, more natural fare.

Read the entire article at Time by clicking here.

9.18.2007

The power of cilantro

So, are you aware of Cilantro's power to detoxify the body? How about the link between cilantro and autism? Cilantro and mercury?

It really is a powerful herb. Many people know it as cilantro, which is a common ingredient in salsas. It's green and leafy, and looks something like parsley. The plant's seeds are known as coriander.

Why am I telling you all this -- because of its detoxifying abilities, including heavy metals. If you're interested, do some research, including reading the scientific study that revealed the herb's powers - click here.

Here's a blog article on the topic that might be helpful.

And, here's a page on cilantro's healthy qualities from The World's Healthiest Foods.

Here's a snippet from the cilantro study:


"However, these mercury deposits, which commonly occur in such cases, were successfully eliminated by the oral intake of 100 mg tablet of Chinese parsley (Cilantro) 4 times a day (for average weight adults) with a number of drug-uptake enhancement methods..."
The study is by Omura, Shimotsuura, Fukuoka and Nomoto, from the Heart Disease Research Foundation, in New York.

Now, here's an easy way to store Cilantro, and for my money the best way. Harvest, or buy, fresh cilantro. Do NOT wash. Pull the leaves from the main stem -- keeping the smaller branches is OK. Place on a flat cookie sheet. Place in freezer for 30 minutes. Pull from freezer and place the crisp leaves in a freezer storage bag. Refreeze. Great way to store. When you want to use some, pull them out and wash.

And, here's a great cilantro recipe from Health Diaries:

Cilantro Pesto
Ingredients:
2 cups loosely packed cilantro leaves (stems removed)
2 tablespoons slivered almonds
2 tablespoons parmesan cheese (my kids can't eat cheese, so i was going to try polenta or just leaving it out)
2 tablespoons olive oil
2 tablespoons lemon juice
2 cloves garlic
2-4 teaspoons water (depending on desired consistency)
1/4 teaspoon sea salt
Blend all ingredients in a food processor and blend until smooth. Use more or less water to get the thickness you desire.
Serves 4-6 people.
Enjoy.

9.17.2007

What's the harm in milk?

This is interesting stuff, especially for us Autism families avoiding the casein gene.

The devil in the milk molecule
The Press Saturday, 15 September 2007

Has a Lincoln University researcher spilt the milk industry's secret about the potential harm in its product or is it more crank science? JOHN McCRONE investigates the latest fuss over A1 and A2 milk.

Is there a health risk in drinking milk? Has there been a naughty cover-up of the facts by Fonterra and others?

These, bluntly, are the questions raised in the explosive new book by Lincoln University agribusiness professor Keith Woodford, who this week reopened a long-festering debate within the New Zealand dairy industry.

The theory, which has been around a decade, seems incredible to most people: that our brains and immune systems can literally be poisoned by poorly digested milk.

Only a certain genetic strain of milk is to blame – the A1 type. However, that is also our most common milk.

The science, put as simply as possible, is that the A1 strain breaks down to release a tiny bio-active peptide fragment called beta-casomorphin-7 (BCM-7). The other kind of milk, A2, breaks down quite harmlessly.

In people who are susceptible, which could be as many as one in five (although this is still a guess), BCM-7 may trigger a host of diseases: diabetes, heart disease, autism, schizophrenia, infant cot-death syndrome, multiple sclerosis, coeliac disease, inflammatory bowel disease – the woes of the Western world it seems.

Then there is the question of an industry cover-up. Read the rest by clicking the blog headline.

9.08.2007

High fructose corn syrup -- what's the big deal?

I'm sure you've heard talk about the evils of high fructose corn syrup. But do you understand the problem? I didn't. If you don't, this article is worth reading. It explains the issue well.


washingtonpost.com
Sweet but Not So Innocent?
High-Fructose Corn Syrup May Act More Like Fat Than Sugar in the Body

By Sally Squires
Washington Post Staff Writer
Tuesday, March 11, 2003; Page HE01

From fruit-flavored drinks to energy bars, a huge array of sweetened foods and beverages crowds grocery shelves, vending machines, restaurant menus, school lunches and kitchens. According to the latest figures from the U.S. Department of Agriculture (USDA), consumption of various sweeteners, often in calorie-dense foods and drinks, has risen in the United States from an estimated 113 pounds per person in 1966 to 147 pounds in 2001.

Last week, the World Health Organization (WHO) recommended limiting intake of added sugars found in food and drink to no more than 10 percent of daily calories, a step the WHO said could help stop the worldwide rise in obesity that is fueling the growth of such chronic diseases as type 2 diabetes. The WHO recommendation is far stricter than any that U.S. groups have produced.

But increasingly, it's not just the growing consumption of foods with added sugars that concerns some nutrition experts. What has also changed during the past four decades, the USDA figures show, is the type of sweeteners consumed -- a trend that some studies suggest may help to undermine appetite control and possibly play a role in weight gain.

In 1966, refined sugar, also known as sucrose, held the No. 1 slot, accounting for 86 percent of sweeteners used, according to the USDA. Today, sweeteners made from corn are the leader, racking up $4.5 billion in annual sales and accounting for 55 percent of the sweetener market. That switch largely reflects the steady growth of high-fructose corn syrup, which climbed from zero consumption in 1966 to 62.6 pounds per person in 2001.

While soft drinks and fruit beverages such as lemonade are the leading products containing high-fructose corn syrup, plenty of other items -- including cookies, gum, jams, jellies and baked goods -- also contain this syrup. [For more information about which foods contain these and other added sweeteners, see the Lean Plate Club column on Page F2.]

Made from corn starch, high-fructose corn syrup is a thick liquid that contains two basic sugar building blocks, fructose and glucose, in roughly equal amounts. Sucrose, most familiar to consumers as table sugar, is a larger sugar molecule that breaks down into glucose and fructose in the intestine during metabolism.

An advantage of high-fructose corn syrup is that it "tastes sweeter than refined sugar," making it a popular ingredient for food manufacturers because it enables them to use less, says George A. Bray, former director of Louisiana State University's Pennington Biomedical Research Center in Baton Rouge. As a liquid, the syrup is easier to blend into beverages than refined sugar, according to the National Soft Drink Association (NSDA). Industry taste tests suggested that consumers liked food and drink with high-fructose corn syrup as much as refined beet or cane sugar.

In the 1980s, manufacturing methods improved, prompting a boost in production of high-fructose corn syrup and a drop in price to just pennies below that of refined sugar. "While that may not sound like much to the average consumer, when you consider how many pounds [the soft drink industry buys], it was millions of dollars if not hundreds of millions of dollars in savings," says Drew Davis, NSDA's vice president for federal affairs.

The switch made economic sense and, as Davis notes, "back then, there was no suggestion that high-fructose corn syrup was metabolized differently" than other sugars. More recent research suggests, however, that there may be some unexpected nutritional consequences of using the syrup. "Fructose is absorbed differently" than other sugars, says Bray. "It doesn't register in the body metabolically the same way that glucose does."

For example, consumption of glucose kicks off a cascade of biochemical reactions. It increases production of insulin by the pancreas, which enables sugar in the blood to be transported into cells, where it can be used for energy. It increases production of leptin, a hormone that helps regulate appetite and fat storage, and it suppresses production of another hormone made by the stomach, ghrelin, that helps regulate food intake. It has been theorized that when ghrelin levels drop, as they do after eating carbohydrates composed of glucose, hunger declines.

Fructose is a different story. It "appears to behave more like fat with respect to the hormones involved in body weight regulation," explains Peter Havel, associate professor of nutrition at the University of California, Davis. "Fructose doesn't stimulate insulin secretion. It doesn't increase leptin production or suppress production of ghrelin. That suggests that consuming a lot of fructose, like consuming too much fat, could contribute to weight gain." Whether it actually does do this is not known "because the studies have not been conducted," said Havel.

Another concern is the action of fructose in the liver, where it is converted into the chemical backbone of trigylcerides more efficiently than glucose. Like low-density lipoprotein -- the most damaging form of cholesterol -- elevated levels of trigylcerides are linked to an increased risk of heart disease. A University of Minnesota study published in the American Journal of Clinical Nutrition in 2000 found that in men, but not in women, fructose "produced significantly higher [blood] levels" than did glucose. The researchers, led by J.P Bantle, concluded that "diets high in added fructose may be undesirable, particularly for men."

Other recent research suggests that fructose may alter the magnesium balance in the body. That could, in turn, accelerate bone loss, according to a USDA study published in 2000 in the Journal of the American College of Nutrition.

In November, however, Havel and his colleagues published a review in the American Journal of Clinical Nutrition that examined evidence from multiple studies. They concluded that large quantities of fructose from a variety of sources, including table sugar and high-fructose corn syrup, induce insulin resistance, impair glucose tolerance, produce high levels of insulin, boost a dangerous type of fat in the blood and cause high blood pressure in animals. "The data in humans are less clear," the team noted.

Others are skeptical that high-fructose corn syrup acts differently in the body than table sugar. "I don't see it as a particular evil," says Michael Jacobson, director of the Center for Science in the Public Interest and a vocal critic of soft drinks, which he dubs "liquid candy." "It wouldn't make much difference if soft drinks were sweetened with sucrose [table sugar] or high-fructose corn syrup."

Until scientists sort out the details, many nutrition experts say it makes sense to not surpass the 10 percent recommendation of the WHO. On a 2,000-calorie intake, that works out to about 200 calories -- roughly the amount found in a 16.9-ounce bottle of soda or about eight Chunky Chips Ahoy cookies or about an three ounces of plain M&M's. (Last year, the National Academy of Sciences suggested that added sugars should not exceed 25 percent of daily calories -- about 500 calories on a 2,000-calorie intake.)

"Reducing consumption of added sugars seems reasonable to me," Havel says, "just as you should not consume too many calories from fat and you should exercise regularly."

But industry groups urged consumers not to respond by avoiding any one food ingredient. Audrae Erickson, president of the Corn Refiners Association, notes that many of the studies used pure fructose rather than the combination of fructose and glucose found in corn syrup.

"There are many sources for the obesity epidemic," Erickson says. "There's no one single source of the obesity epidemic or the onslaught of diabetes in America. But there are many contributing factors and no scientific link to suggest that high-fructose corn syrup is a contributing factor."

Erickson says that research published in a 1993 supplement to the American Journal of Clinical Nutrition suggests that there is no evidence linking the syrup to the obesity epidemic.

What does play a role, she noted, "is the lack of physical exercise. You can not discontinue the use of any one food or beverage and expect tomorrow -- or even in 10 years from now -- to be thin without increased physical activity."

That's a message being delivered not just by the food and beverage industries, but also by the U.S. Surgeon General, the National Academy of Sciences and the WHO, which also urged more physical activity -- an hour a day of moderate-intensity activity, such as walking -- in its report last week.•

© 2003 The Washington Post Company

8.05.2007

High Fructose Corn Syrup -- dangerous stuff

Soda Warning? High-fructose Corn Syrup Linked To Diabetes, New Study Suggests

Science Daily Researchers have found new evidence that soft drinks sweetened with high-fructose corn syrup (HFCS) may contribute to the development of diabetes, particularly in children. In a laboratory study of commonly consumed carbonated beverages, the scientists found that drinks containing the syrup had high levels of reactive compounds that have been shown by others to have the potential to trigger cell and tissue damage that could cause the disease, which is at epidemic levels.


New evidence suggests that sodas sweetened with high-fructose corn syrup may increase the risk of diabetes, particularly in children. (Credit: American Chemical Society)

HFCS is a sweetener found in many foods and beverages, including non-diet soda pop, baked goods, and condiments. It is has become the sweetener of choice for many food manufacturers because it is considered more economical, sweeter and more easy to blend into beverages than table sugar. Some researchers have suggested that high-fructose corn syrup may contribute to an increased risk of diabetes as well as obesity, a claim which the food industry disputes. Until now, little laboratory evidence has been available on the topic.

In the current study, Chi-Tang Ho, Ph.D., conducted chemical tests among 11 different carbonated soft drinks containing HFCS. He found 'astonishingly high' levels of reactive carbonyls in those beverages. These undesirable and highly-reactive compounds associated with "unbound" fructose and glucose molecules are believed to cause tissue damage, says Ho, a professor of food science at Rutgers University in New Brunswick, N.J. By contrast, reactive carbonyls are not present in table sugar, whose fructose and glucose components are "bound" and chemically stable, the researcher notes.

Reactive carbonyls also are elevated in the blood of individuals with diabetes and linked to the complications of that disease. Based on the study data, Ho estimates that a single can of soda contains about five times the concentration of reactive carbonyls than the concentration found in the blood of an adult person with diabetes.

Ho and his associates also found that adding tea components to drinks containing HFCS may help lower the levels of reactive carbonyls. The scientists found that adding epigallocatechin gallate (EGCG), a compound in tea, significantly reduced the levels of reactive carbonyl species in a dose-dependent manner when added to the carbonated soft drinks studied. In some cases, the levels of reactive carbonyls were reduced by half, the researchers say.

"People consume too much high-fructose corn syrup in this country," says Ho. "It's in way too many food and drink products and there's growing evidence that it's bad for you." The tea-derived supplement provides a promising way to counter its potentially toxic effects, especially in children who consume a lot of carbonated beverages, he says.

But eliminating or reducing consumption of HFCS is preferable, the researchers note. They are currently exploring the chemical mechanisms by which tea appears to neutralize the reactivity of the syrup.Ho's group is also probing the mechanisms by which carbonation increases the amount of reactive carbonyls formed in sodas containing HFCS. They note that non-carbonated fruit juices containing HFCS have one-third the amount of reactive carbonyl species found in carbonated sodas with HFCS, while non-carbonated tea beverages containing high-fructose corn syrup, which already contain EGCG, have only about one-sixth the levels of carbonyls found in regular soda.

In the future, food and drink manufacturers could reduce concerns about HFCS by adding more EGCG, using less HFCS, or replacing the syrup with alternatives such as regular table sugar, Ho and his associates say. Funding for this study was provided by the Center for Advanced Food Technology of Rutgers University. Other researchers involved in the study include Chih-Yu Lo, Ph.D.; Shiming Li, Ph.D.; Di Tan, Ph.D.; and Yu Wang, a doctoral student.

This research was reported August 23 at the 234th national meeting of the American Chemical Society, during the symposium, "Food Bioactives and Nutraceuticals: Production, Chemistry, Analysis and Health Effects: Health Effects."

Note: This story has been adapted from a news release issued by American Chemical Society.

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11.09.2006

The cause of autism?

This likely is interesting to anyone reading this blog. It might explain why you have to eat this way. This article ran worldwide and you can easily find it on the web. I've reposted the version from the Globe and Mail.

Chemicals may be damaging kids' brains
SHERYL UBELACKER
Canadian Press

Environmental exposure from hundreds of industrial chemicals could be damaging the developing brains of children worldwide, but few of the potentially toxic compounds are regulated because too little is known about their effects, researchers say.
In a paper published on-line today in The Lancet, two specialists in environmental medicine (each of whom has spent decades studying the effects of lead and mercury exposure on fetuses and children) compiled a list of 201 industrial chemicals they say have the capacity to cause irreparable damage to the developing human brain.
Lead author Philippe Grandjean, chair of environmental medicine at the University of Southern Denmark, said he and co-author Philip Landrigan of New York's Mount Sinai School of Medicine had similar experiences while studying the neurotoxicity of lead and mercury.
"First, things were seen in adults," he said, then in children exposed in early childhood, or those whose mothers were exposed during pregnancy. "And then we wondered: Is this only happening with mercury and lead?" Dr. Grandjean said in a telephone interview from Copenhagen.
The two researchers undertook an extensive review of published data on chemical toxicity to create a list of those agents most likely to harm the developing brain. Their tally of 201 compounds includes everything from arsenic to benzene and phenol. About half the chemicals are ubiquitous in industrial processes and products and could make their way into the environment through air, water and food.
But because there is a dearth of research on the effects of these chemicals specifically on children, their use has not been regulated in the same way as mercury, lead and PCBs.
The researchers argue that the lack of international regulation is putting children around the globe at potential risk, and they worry whether exposure to such chemicals could be behind such conditions as autism and attention deficit hyperactivity disorder. (The causes of these conditions remain unknown.)
Calling the potential for harm a "silent pandemic," the researchers are urging governments worldwide to begin strictly controlling these chemicals, instead of waiting for years of testing to provide definitive scientific proof that they are either harmful or benign.
"What we are saying is we cannot afford to wait decades because that way we will expose another generation of children to toxic chemicals that will affect their brains permanently," Dr. Grandjean said. "We cannot afford to do that."
But Warren Foster, director of the Centre of Reproductive Care at Ontario's McMaster University, said there is no data to support the idea that chemical exposure is harming children or that conditions such as autism are caused by such pollution. While Dr. Foster has high regard for the two researchers and calls the goal of their review "lofty," he said their suggestion that industrial chemicals are causing neurotoxic effects in fetuses and young children is "a hypothesis that requires testing."
"The kids actually have to be exposed," Dr. Foster said. "Simply because things are in the environment does not necessarily mean that children are exposed, or are exposed to the concentrations necessary to create the neurotoxicity."
"I don't think it helps them to create fear when we don't have evidence of a problem."
Still, Dr. Foster concedes that until there is definitive evidence of their effects, people should be cautious in limiting exposure to industrial chemicals -- for instance, by not heating food in margarine tubs that can produce harmful compounds.
However, he's more concerned that governments could start banning chemicals based on insufficient data, only to replace them with compounds about which nothing is known.
"We still need coolants, we still need plasticizers, we still need flame retardants, we still need solvents," he said.

2.22.2006

McDonald's gluten fries

I'm going to post a copy of an article just written on the McDonald's fiasco regarding the dairy and wheat in its french fries that it had not disclosed to the public. This is very disturbing. My daughters cannot eat wheat or dairy and have serious reactions to both. McDonald's claimed its fries were clear of both allergens. My family has spent countless hours trying to figure out why my daughters were breaking out with rashes, getting sick, etc. We ruled out the fries based on the company's info. I'm also concerned about the type of oil the fries are cooked in. I believe, based on seeing the oil firsthand, that it contains soy, which the company does not disclose. Here's the article:

Fury At Milk And Wheat In McDonalds' French Fries

20 Feb 2006 -- When McDonalds serves its French Fries, everyone believes
they contain just potatoes and cooking oil - even people who are vegan (eat no
animal product at all) or allergic to wheat. We trust the company and believe
everything they say. Because that is what they have been saying - that their
fries are gluten-free. It has been revealed that McDonald's fries do contain an
animal product - Milk. They also contain wheat. There are thousands and
thousands of people around the world who are allergic to wheat (mainly because
of the gluten in wheat). Surely, out of respect for people who get ill when
consuming wheat, the company could have let us know that wheat and milk were
being added to its French Fries. So far, three people in the USA are suing
McDonald's because of this. Debra Moffatt, from Chicago, has celiac disease. She
cannot consume gluten, which is present in wheat. If she consumes wheat she
experiences serious gastrointestinal problems. Mark and Theresa Chimiak have a
5-year-old girl who is gluten-intolerant. The little girl, Annalise, became
seriously ill after eating French fries in McDonalds. Mark and Theresa, from
Florida, are also suing McDonald's. Nadia Sugich, a vegan, is also suing
McDonald's. Vegans do not eat any animal products at all (vegetarians include
dairy and eggs in their diet, vegans don't). Had she known the product contained
milk she would not have touched them. What many people find incredible is that
McDonald's claimed its fries were free of gluten and milk. It has just added in
its web site that its fries do, in fact, contain wheat and milk ingredients -
now that people are starting to take it to court. What is the consumer to do if
claims made by fast food centers are completely untrue? How can a parent protect
a child if that child has a serious allergy? One minute they claim something is
not present, then they say it is after lawyers start saying they are going to be
sued. Now, McDonald's Vice-President is saying that wheat and milk were added to
enhance the flavour of the French Fries. There is nothing wrong with that. What
is wrong is not telling people about it. Even worse, is telling people there is
no gluten in a product when there is - that is dangerous. Apparently, there is a
third ingredient we knew nothing about in McDonald's French fries - a trans fat.
Here are some comments from our readers:“I am vegan. I have eaten their
vegetable burger with fries for many years. I will never do it again. I really
hope their vegetable burgers were animal free.” “I really do not know where to
take my children any more. I thought these companies had to work under certain
rules - rules laid down to protect the public.” “I cannot believe they would
deliberately add a potentially dangerous ingredient and still claim their
product is free of it. I cannot eat gluten, I get very ill if I do. Each time I
go out to eat now, I am going to feel uneasy.”

Written by: Christian Nordqvist Editor: Medical News Today