Skip Breakfast, Get Fat
Skip Breakfast, Get Fat
But more meals, if smaller, could make you thinner, study finds
FRIDAY, July 11 (HealthDayNews) — It’s a prime piece of conventional wisdom: Eat right before you go to bed and you’ll get fat.
But new research suggests that late eaters are no more likely to be overweight than anyone else. It’s what you consume the rest of the day — especially in the morning — that counts.
Americans who regularly skip breakfast are 4.5 times more likely to be fat, researchers found. But, in good news for the nibblers among us, those who eat four or more meals a day are actually on the thinner side.
“”We tend to eat because of external cues instead of internal cues — we eat until the plate’s clean. If the plate has a lot less food on it, perhaps you’ll be eating less,”" says Ruth Kava, director of nutrition with the American Council on Science and Health.
Researchers launched their study because experts don’t fully understand how eating habits — such as the timing and frequency of meals — are tied to obesity, says study co-author Yunsheng Ma, an assistant professor of epidemiology at the University of Massachusetts Medical School.
The researchers examined a national cholesterol study that took place from 1994 to 1998. A total of 499 people reported five times a year on what they ate over 24 hours.
The findings of the study appear in the current issue of the American Journal of Epidemiology.
Ma and his colleagues found people who ate more than three times a day were about half as likely to be fat as those who ate three or fewer times a day. Ma suspects the difference may have something to do with fewer spikes in blood sugar levels among the frequent eaters.
Insulin levels go up when blood sugar rises, contributing to hunger and the buildup of fat, Ma says. Similar factors may be at work among those who frequently eat breakfast or dinner away from home, he says. The study found they were 4.5 times more likely to be fat.
Someone who eats breakfast at home might settle for a small, convenient meal, Kava says. “”But if you go out, there’s all kinds of tempting things like bacon and eggs and hash browns. Maybe you tend to indulge a little bit more. You don’t have to do the work or clean up.”"
And what about the link between skipping breakfast and tipping the scales?
“”You have not broken the fast soon enough to only need a moderate amount of calories,”" says Gail Frank, a professor of nutrition at California State University at Long Beach and a spokeswoman for the American Dietetic Association. “”You are starving. How does the normal person respond? They eat, and they keep eating to compensate.”"
As for the study’s rebuttal of the time-honored belief in the fattening properties of late-night meals, Ma says more research is needed to confirm that finding.
But it makes sense, Frank says, and counteracts the “”myth”" about the hazards of midnight munching.
The body continues digesting through the night, she says, even when people are asleep and not active. “”The body doesn’t know when the lights go off,”" she says.
SOURCES: Yunsheng Ma, Ph.D., assistant professor, epidemiology, University of Massachusetts Medical School, Worcester; Ruth Kava, Ph.D, R.D. director, nutrition, American Council on Science and Health, New York City; Gail Frank, DrPH, R.D., professor, nutrition, California State University at Long Beach, and spokeswoman, American Dietetic Association; July 1, 2003, American Journal of Epidemiology
Scientists Learning More Why Aging Cells Fail to Repair Themselves
Why Aging Cells Lose Ability to Repair Themselves Study finds defect that could lead to new treatments for disease
FRIDAY, Sept. 5 (HealthWire) — A defect in the body’s self-defense mechanism against age-related genetic mutations has been identified by researchers at the University of Texas Medical Branch at Galveston.
The finding may help explain why the aging human body can’t defend itself against DNA damage in the mitochondria, the power plants that fuel the growth and activity of cells.
Finding ways to help aging cells repair their own damaged DNA could possibly lead to ways to prevent or treat cancer, Alzheimer’s disease, Parkinson’s disease and other health problems caused by genetic defects.
As cells age, they experience continuous genetic mutations, some of which are caused by the harmful byproducts of the oxygen we inhale. But the body’s repair mechanism is constantly at work fixing this DNA damage. However, this repair activity becomes less efficient as cells age.
In this study, the researchers analyzed why this DNA repair activity becomes less effective in the mitochondria as cells age. They found a biochemical “”roadblock”" that prevents much of the repair enzyme activity from reaching the site of the DNA damage in the mitochondria of aging cells.
In old cells, about half of the repair enzyme activity can’t reach the mitochondria DNA to repair it.
The study was published online this week in the Proceedings of the National Academy of Sciences.
Vitamin D More Essential for Bone Health Than Calcium
Vitamin D More Important Than Calcium For bone Health November 9, 2005 Consuming more than 800 mg of calcium per day may be unnecessary for bone health if the body has enough vitamin D, say Icelandic researchers.
Using food consumption records from more than 900 adults, the researchers determined that sufficient vitamin D levels can ensure an ideal level of parathyroid hormone (PTH) – a measure of calcium metabolism – even when calcium intake is less than 800 mg per day. But consuming more than 1200 mg of calcium daily is not enough to maintain ideal PTH if the vitamin D status is insufficient. The study is part of a growing body of work that points to the important role of vitamin D, and not just calcium alone, in bone health. Bone health is a growing concern as the numbers affected by osteoporosis continue to rise, and an increasing elderly population suggests that these will grow further in the future. In Europe, osteoporosis causes around 1.1 million fractures each year. In light of recent research, and predicting future health problems, some researchers have called for recommended intake of vitamin D to be raised but the adequate amounts needed in the diet are still not known. The new study, published in today
Whole Grains Promote Healthy Weight
Bakers, Food makers and nutritionists are warning about the amazing popularity of the Atkins diet have a new tool in their fight against this food fad in a new study that reveals an inverse assocation between whole grains and weight gain.
It found that while women who ate a large amount of refined grain foods were more likely to be obese, those with the greatest whole grain consumption weighed less and are less likely to gain weight.
The study, published in November’s American Journal of Clinical Nutrition (vol 78, no 5, pp 920-927), investigated the relation between intake of dietary fibre and whole- or refined-grain products with weight gain over time.
They used a prospective cohort study on more than 74,000 US female nurses, aged 38-63 years in 1984 and free of known cardiovascular disease, cancer, and diabetes at baseline. Their dietary habits were assessed in 1984, 1986, 1990, and 1994 with validated food-frequency questionnaires.
Average weight, body mass index, long-term weight changes, and the odds ratio of developing obesity (BMI of 30) according to change in dietary intake were recorded.
The researchers from the Brigham and Women’s Hospital and Harvard Medical School found that women who consumed more whole grains consistently weighed less than women who consumed less whole grains.
Over 12 years, those with the greatest increase in intake of dietary fibre gained an average of 1.52 kg less than did those with the smallest increase in intake of dietary fibre independent of body weight at baseline and age.
Women in the highest quintile of dietary fibre intake had a 49 per cent lower risk of major weight gain than did women in the lowest quintile.
The team concludes that “”weight gain was inversely associated with the intake of high-fibre, whole-grain foods but positively related to the intake of refined-grain foods, which indicated the importance of distinguishing whole-grain products from refined-grain products to aid in weight control”".
Science Begins to Add Weight to CLA
The flurry of activity in CLA applications is being backed by a growing body of research to support the ingredient, particularly for its effects on weight loss. A review published in this month’s Journal of Nutrition supports conjugated linoleic acid’s action on weight management, concluding that it is at least in part due to regulation of glucose and fatty acid uptake and metabolism.
Conjugated linoleic acid is the common name of a group of fatty acids found in dairy products and meat. CLA isomers have been studied for their action on an impressive range of diseases, including cancer, atherosclerosis, obesity, and immune function. However as scientists begin to reveal their effects on reduction of body fat, food makers are increasingly looking at the ingredient for the valuable slimming market.
In Canada, where many of the patents for CLA are held, the dairy industry has long been studying the production of high-CLA milk. In Europe, a research centre in Ireland is studying the compound which could add significant value to its dairy industry, while in Italy, Techno Foods introduced a strawberry flavoured yoghurt naturally rich in CLA (conjugated linoleic acid) and omega-3 fatty acids this summer.
Specific CLA isomers have been shown to prevent the development of obesity in certain rodent and pig models and this has been attributed mainly to trans-10, cis-12 CLA, both in vivo and in vitro, write the University of North Carolina researchers in the review. However, CLA’s ability to modulate human obesity remains controversial because data from clinical trials using mixed isomers are conflicting.
In vitro studies by the team demonstrated that while trans-10, cis-12 CLA prevents triglyceride accumulation in human cells, cis-9, trans-11 CLA increases triglyceride content. The team concluded that the isomers’ regulation of glucose and metabolism must partly explain its mechanism on human fat.
The news is also good for supplement marketers who recently learned of research carried out by Cognis backing the long-term safety of its Tonalin CLA.
Acetyl L-Carntine vs. L-Carnitine
The Essential Difference Between the Carnitines
Do you lack energy, or feel tired and physically or mentally unprepared to take on the tasks of the day? This is not unusual, especially as we age, and today’s topic may help explain some of the reasons for this energy deficit.
Two natural compounds produced by our tissues, L-carnitine and acetyl-L-carnitine (ALC), are similar in that both have identical chemical core structures. However, one (ALC) contains an extra component, an acetic acid bound to the core molecule (in what is known as an ester linkage). It turns out that this extra chemical piece makes a significant difference in how this molecule behaves in our body relative to its non-acetylated cousin, L-carnitine. These differences are described below, but first a brief summary of how these molecules normally function in our body.
L-carnitine functions as a vehicle to ferry fat constituents (fatty acids) across a membrane barrier into the cell’s energy-producing machine, the mitochondria, where the fat is converted to energy. Equally important, L-carnitine works in the reverse direction, too. It ferries toxic products produced during fat metabolism out of the mitochondria. This latter step helps maintain the mitochondria as clean-burning, energy-efficient machines.
We are all aware of the fact that as we age, our energy level diminishes. This decrease in energy parallels a decrease in the plasma level of L-carnitine. L-carnitine also decreases under conditions of stress, both psychological and physical. Consequently, it is described as a conditionally essential nutrient. This simply means that when our bodies cannot produce enough of it to meet demand, we need to increase the intake of this nutrient.
Acetyl-L-carnitine is just as active as L-carnitine in transporting fatty acids into the mitochondria. However, as described below, that extra acetyl group confers additional properties to this form of L-carnitine, which make it superior to its non-acetylated cousin. Both compounds increase energy Acetyl L-Carnitine or ALC Physical Energy Fat Metabolism Brain Protection Neurotransmission
Experiments with rats show a dramatic decrease (between 50-70%) in the activity level of old rats as compared to the young animal. Old rats, too, get tired with age! This decrease, as mentioned above, parallels a decrease in the amount of L-carnitine present in the animal’s tissues and blood.
This observation led researchers to investigate whether the old energy-deficient animals could be transformed into more energetic, youthful animals by feeding them a diet enriched with L-carnitine. Supplying L-carnitine to the diet increased the ambulatory activity of the old rats almost two-fold. The experiment was repeated with ALC, and it too increased the animals’ activity level to about an equal degree. So both compounds worked equally well in improving the old rats’ energy levels. ALC protects the brain
One of the two cousins, ALC, stands out with respect to its effects on the brain and nervous system. First, ALC is more effectively transported into the central nervous system. It more readily traverses the blood-brain barrier
Probiotics for Health
Probiotics for Health By S.K. Dash, Ph.D.
Many health-conscious consumers today want to know when they should take probiotics. They ask whether they should wait until they are sick. If so, they ask, which illnesses respond best to probiotics? Or should they take a preventive approach and take probiotics before they get sick? What about use of probiotics with antibiotics? Today, there is no doubt that taking probiotics is as essential as a multivitamin to your health. So my reply to such questions is that a daily supplement should always be taken to maintain healthy immune and digestive function — but the supplement amount should be increased during times of stress and illness. But let’s start at the beginning.
Probiotics — What Are They?
The concept of ingesting live microorganisms for the purpose of improving one’s intestinal health and general well being can be traced back well before the beginning of the Twentieth Century to earlier eras when most foods were nonrefrigerated and instead preserved with fermentation. But the current practice of using beneficial organisms to improve and sustain health is now referred to as probiotic supplementation. Although numerous types of bacteria (and yeasts) are currently being marketed as probiotic cultures throughout the world, the two most commonly used ones are Lactobacillus and Bifidobacterium.
Probiotics — A Health Essential?
Consumers rarely consider how essential healthy bacterial populations are to their health. But the fact is that a healthy ratio of beneficial to pathogenic bacteria residing within the gastrointestinal tract is essential to good health and influences not only digestive health but also immune function, detoxification, and women’s vaginal health. Unfortunately, great numbers of people today no longer have optimally balanced ratios of beneficial to pathogenic bacteria in their body, thus allowing the “”bad guys”" to gain the upper hand. This is very dangerous and one of the reasons that digestive illnesses, as well as other types of illnesses, are becoming so prevalent. Medically prescribed antibiotic use is certainly one of the most important causes of this change in our natural flora, with travel to foreign lands a close second. But beyond these detrimental impacts on our gastrointestinal health, we face many other daunting challenges to our bacterial balance. Unless one consumes organic dairy products, for example, one is almost certainly consuming traces of antibiotics and sulfa drugs, which have a disruptive effect on bowel ecology. Our highly processed food supply has also denied our bodies the opportunity to ingest beneficial bacteria as we once did through food fermentation (widely used before refrigeration). Our water also tends to be highly chlorinated which, although important from a public health perspective, has drawbacks for individual health when it comes to adversely impacting our body’s bacterial populations. When the body’s bacterial populations are upset, many kinds of illness can result. So for daily maintenance and in times of illness it just makes sense to use a quality probiotic formula.
Prevention and Treatment of Diarrhea and Constipation: Antibiotic-associated diarrhea can be attributed in part to imbalances in intestinal microflora. Bifidobacteria have been used to successfully treat intestinal disorders and in the prevention of rotaviral diarrhea in children and adults. In fact, taking a probiotic formula with antibiotics is now considered to be standard medicine in many countries. But antibiotics and probiotics must be taken a few hours apart. Constipation is a significant problem for many people, especially the elderly. Researchers have shown that enhancing Bifidobacteria in the large intestine of constipated elderly individuals provides a significant laxative effect.
Ulcer Therapy: If you’re taking antibiotics to treat your ulcer, you should be using probiotics along with your doctor’s prescribed antibiotics. That’s the message from researchers reporting in the February 2001 issue of Digestion. Frequently, nausea, bloating, diarrhea, taste disturbances and loss of appetite are side effects from use of antibiotics to eradicate Helicobacter pylori, the bacterium thought to be the causative agent in gastric ulcers. This latest study involving 120 ulcer patients shows that persons given both antibiotics and probiotics experienced markedly reduced incidence of bloating, diarrhea and taste disturbances compared to persons given only antibiotics, and most persons given the natural remedy experienced no side effects.
Enhanced Immune Function: Most of our immune cells are produced within the gastrointestinal tract and much of our protection against orally ingested pathogens (such as salmonella) is the result of a healthy gastrointestinal environment. There is perhaps no greater protection against such food-borne pathogens than the use of probiotics to sustain this healthy environment. Recent studies show that Lactobacilli and Bifidobacteria can stimulate both general immunity and also specific antibodies to certain pathogens.
Lactose Intolerance: Dairy foods are a very important part of a healthy diet, but many of us suffer from some symptoms of lactose intolerance. Studies have shown that strains of Lactobaccilli and Bifidobacteria reduce symptoms of lactose malabsorption.
Establishment of Healthy Flora: in Babies and Infants Premature infants generally take longer to establish a characteristic intestinal flora, which can render them more susceptible to certain intestinal infections. Various strains of Bifidobacterium administered to premature infants results in populations of beneficial bacteria becoming established more quickly in their intestines compared to a control group. You will also likely find that children susceptible to middle ear infections enjoy better health when they are given probiotics (DDS®-Junior Probiotic for Children).
Editor’s Note: Dr. S. K. Dash is among the world’s leading experts today in the field of probiotics. Dr. Dash is founder of America’s leading probiotic company UAS Labs.
See the full unabridged version of this article at www.freedompressonline.com.
References Armuzzi, A., et al. “”Effect of Lactobacillus GG supplementation on antibiotic-associated gastrointestinal side effects during Helicobacter pylori eradication therapy: a pilot study.”" Digestion, 2001;63:1
Fish Oil Supplements Can Be Purer Than Fish
Fish Oil Supplements Can Be Purer Than Fish
University of Southern California School of Pharmacy Detects No PCBs in Fish Oil Supplements in Health Products for Americas Top Retailers.
CARSON, Calif., Jan. 9 — As more Americans eat fish to protect themselves against heart disease and other illnesses, the scientific community debates whether toxins found in fish can do more harm than good. A recent study to be published in the journal Science found that farm raised salmon contained high levels of pollutants like PCBs and pose a health risk to humans. While the debate will continue on acceptable levels of PCB consumption in fish, consumers should understand that fish oil supplements can be purer than fish and are still safe to take.
Recognizing the serious health risks associated with PCBs found in food, Leiner Health Products asked the University of Southern California School of Pharmacy (USC) to test fish oil supplements it sells to the nation’s top retailers. Using analytical procedures approved by the Environmental Protection Agency (EPA), USC randomly analyzed fish oil supplements from 18 different lots. No PCBs, dioxins or heavy metals such as lead, cadium, mercury or arsenic were detected in any of the samples.
“We used EPA’s best method (Gas Chromatography-Electron Capture Detector (GC-ECD) to test Leiner’s fish oil capsules for PCBs. This is a complex, confirmed method of analysis that has been used for over 30 years. Our analysis supports the American Heart Association’s findings of the health benefits from consuming fish oil in the form of dietary supplements. Our research proves that people can take fish oil supplements without risking their health due to possible environmental contaminant intake,” remarked Dr. Roger Clemens, Director of Analytical Research & Services, USC School of Pharmacy.
Additional samples of Leiner’s fish oil capsules were also independently evaluated by Covance Laboratories in Madison, Wisconsin. Those findings were consistent with the USC results.
Some people believe fish oil supplements contain higher concentrations of PCBs than fish but this is not true. In order to produce the purest possible fish oil, Leiner uses a process called molecular distillation to remove pollutants. This process is similar to a water purification process that traps virtually all contaminants, resulting in a “”clean”" oil.
Molecular distillation is an excellent way to rid fish oil of PCBs, other toxins and heavy metals such as mercury, lead, cadium and arsenic to below detectable levels. While it is impossible to remove 100% of all impurities, Leiner fish oil processed using molecular distillation exceeds purity standards set by California’s Proposition 65 requirements and the EPA requirements, which are much more rigorous than FDA.