Consuming probiotics reduce liver fat: Study

Consuming probiotics reduce liver fat

A study has revealed that consuming probiotics for a month helps in diminishing fat accumulation in the liver.

Scientists at the University of Granada have demonstrated that the administration of three probiotic strains diminishes the accumulation of fat in the liver of obese rats.

The authors have described that the administration of probiotics led to an accumulation of lipids (most of them triacylglycerides) in the liver which was significantly lower than that occurring in rats fed with a placebo.

Probiotics, the microorganisms (bacteria or yeasts) with healthy effects upon individuals that consume them in adequate doses, were traditionally considered to be living microorganisms, but the concept was widened since some dead microorganisms, or even their components, can display probiotic properties.

According to these researchers these microorganisms can certainly be used as support therapy in joint use with other treatment.

This study is published by the journal PLOS ONE.

Source: business standard

Common cholesterol drug linked to death risk

Common cholesterol drug linked to death risk

Niacin, a common cholesterol drug for 50 years, should no longer be prescribed owing to potential increased risk of death, dangerous side effects and no benefit in reducing heart attacks and strokes, researchers said.

“There might be one excess death for every 200 people we put on Niacin. With that kind of signal, this is an unacceptable therapy for the vast majority of patients,” said cardiologist Donald Lloyd-Jones from Northwestern University’s Feinberg School of Medicine.

Niacin should be reserved only for patients at very high risk for a heart attack and stroke who cannot take statins, Lloyd-Jones added.

Lloyd-Jones’s research was based on a large new study that looked at adults, aged 50 to 80, with cardiovascular disease who took niacin (vitamin B3) to see if it reduced heart attack and stroke compared to a placebo over four years.

All patients in the trial were already being treated with a statin medication. Researchers found that Niacin did not reduce heart attacks and stroke rates compared with a placebo.

More concerning, Niacin was associated with an increased trend towards death from all causes as well as significant increases in serious side effects.

These included liver problems, excess infections, excess bleeding, gout and loss of control of blood sugar for diabetics.

“For the reduction of heart disease and stroke risk, statins remain the most important drug-based strategy,” Lloyd-Jones said.

The research appeared in the New England Journal of Medicine.

Source: Times of India

Caffeine powder dangers in spotlight after teen’s death

Logan Stiner

A few weeks before their prom king’s death, students at an Ohio high school had attended an assembly on narcotics that warned about the dangers of heroin and prescription painkillers.

But it was one of the world’s most widely accepted drugs that killed Logan Stiner – a powdered form of caffeine so potent that as little as a single teaspoon can be fatal.

The teen’s sudden death in May has focused attention on the unregulated powder and drawn a warning from federal health authorities urging consumers to avoid it.

“I don’t think any of us really knew that this stuff was out there,” said Jay Arbaugh, superintendent of the Keystone Local Schools.

The federal Food and Drug Administration said Friday that it’s investigating caffeine powder and will consider taking regulatory action. The agency cautioned parents that young people could be drawn to it.

An autopsy found that Stiner had a lethal amount of caffeine in his system when he died May 27 at his home in LaGrange, Ohio, southwest of Cleveland.

Stiner, a wrestler, had more than 70 micrograms of caffeine per milliliter of blood in his system, as much as 23 times the amount found in a typical coffee or soda drinker, according to the county coroner.

His mother has said she was unaware her son took caffeine powder. He was just days away from graduation and had planned to study at the University of Toledo.

Caffeine powder is sold as a dietary supplement, so it’s not subject to the same federal regulations as certain caffeinated foods. Users add it to drinks for a pick-me-up before workouts or to control weight gain.

A minuscule amount packs a punch.

A mere one-sixteenth of a teaspoon can contain about 200 milligrams of caffeine, roughly the equivalent of two large cups of coffee. That means a heaping teaspoon could kill, said Dr. Robert Glatter, an emergency physician at Lenox Hill Hospital in New York.

The powder is almost impossible to measure with common kitchen tools, the FDA said.

“The difference between a safe amount and a lethal dose of caffeine in these powdered products is very small,” FDA spokeswoman Jennifer Dooren said.

Glatter said he has seen several younger patients experience complications from caffeine in the last few months. Some arrive with rapid heart rates.

“They’re starting to latch onto the powders more because they see it as a more potent way to lose weight,” Glatter said.

Health officials worry about caffeine powder’s potential popularity among exercise enthusiasts and young people seeking an energy boost.

Dr. Henry Spiller directs a poison control center at Nationwide Children’s Hospital in Columbus, Ohio. Over a week or so this month, the center took reports of three people hospitalized for misusing caffeine powder.

“I can’t believe you can buy this,” Spiller said. “Honestly, I mean, it’s frightening. It makes no sense to me.”

Federal investigations have recently prompted some companies to pull products with added caffeine.

Last year, Wrigley halted sales and marketing of Alert caffeinated gum after discussions with the FDA. In 2010, the agency forced manufacturers of alcoholic caffeinated beverages to cease production of those drinks.

Authorities have also pledged to take action if they are able to link deaths to consumption of energy drinks. Hospitalizations from those drinks have been on the rise.

The number of emergency department visits involving energy drinks doubled – from 10,068 visits in 2007 to 20,783 visits in 2011, according to the federal Substance Abuse and Mental Health Services Administration. Most of the cases involved teens or young adults.

A full teaspoon of caffeine powder could contain 3,200 milligrams of caffeine.

In that concentrated amount, a person can experience adverse effects in a matter of minutes, said Dr. Bob Hoffman, a New York University medical toxicologist.

The brain becomes alert, then agitated and confused. The heartbeat picks up and can become dangerously irregular. A person can suffer nausea, vomiting and potentially a seizure.

“The thing about caffeine is just because you see it every day, just because it’s naturally occurring – it comes from a plant – doesn’t mean that it’s safe,” Hoffman said.

Source: Albuquerque journal

9 Foods to Help You Sleep

9 Foods to Help You Sleep

Adding these foods to your diet may help to increase your odds of a successful slumber.
Some people have trouble falling asleep. Others can’t stay asleep. And then there are the people who have trouble turning life “off” and tucking into bed at a reasonable hour.

Whatever the reason, we’re not alone—more than 50 million Americans don’t get enough shut-eye. Yet the health benefits of a good night’s rest are countless: sleep helps keep you happy, your brain sharp, your immune system strong, your waistline trim, your skin looking youthful—and lowers your risk of high blood pressure and heart disease

Here’s the good news: Adding these foods to your diet may help to increase your odds of a successful slumber.

1. Fish
Most fish—and especially salmon, halibut and tuna—boast vitamin B6, which is needed to make melatonin (a sleep-inducing hormone triggered by darkness), according to an article published in the Annals of the New York Academy of Sciences.

2. Jasmine Rice
When healthy sleepers ate carbohydrate-rich suppers of veggies and tomato sauce over rice, they fell asleep significantly faster at bedtime if the meal included high-glycemic-index (GI) jasmine rice rather than lower-GI long-grain rice, in a study published in the American Journal of Clinical Nutrition. While the authors aren’t sure how it happened, they speculated that the greater amounts of insulin triggered by the high-GI meals increased the ratio of sleep-inducing tryptophan relative to other amino acids in the blood, allowing proportionately more to get into the brain.

3. Tart Cherry Juice
In a small study, melatonin-rich tart cherry juice was shown to aid sleep. When adults with chronic insomnia drank a cup of tart cherry juice twice a day they experienced some relief in the severity of their insomnia.

4. Yogurt
Dairy products like yogurt and milk boast healthy doses of calcium—and there’s research that suggests being calcium-deficient may make it difficult to fall asleep.

5. Whole Grains
Bulgur, barley and other whole grains are rick in magnesium—and consuming too little magnesium may make it harder to stay asleep, reported the Journal of Orthomolecular Medicine.

6. Kale
Dairy products are well-known calcium-rich foods. But green leafy vegetables, such as including kale and collards, also boast healthy doses of calcium. And research suggests that being calcium deficient may make it difficult to fall asleep.

7. Bananas
Bananas, well-known for being rich in potassium, are also a good source of Vitamin B6, which is needed to make melatonin (a sleep-inducing hormone triggered by darkness), according to an article published in the Annals of the New York Academy of Sciences.

8. Chickpeas
Chickpeas boast vitamin B6, which is needed to make melatonin (a sleep-inducing hormone triggered by darkness), according to an article published in the Annals of the New York Academy of Sciences.

9. Fortified Cereals
Fortified cereals also boast vitamin B6, which is needed to make melatonin (a sleep-inducing hormone triggered by darkness), according to an article published in the Annals of the New York Academy of Sciences.

Source: eating well

Importance of pure drinking water and reccommendations to optimize hydration

Importance of pure drinking water and reccommendations to optimize hydration

The importance of high quality drinking water is vastly understated. Compromising approximately 75 percent of the body, water is found both inside and outside the cells and is the basis of all body fluids including blood, lymph, saliva, digestive juices, urine, and perspiration. Therefore, an unadulterated source of pure drinking water and learning how to optimize hydration is one of the most fundamentally important things one can do for their health.Water’s role in the body

Since water is the regulator of all the body’s functions, it is equated with life. It is the main source of energy transport for every cell in the body, conducting electrical and magnetic energy that supplies the power to live.

Water also facilitates energizing the skin’s many photo-sensitive and energy-sensitive nerve endings that receive and transmit signals, making them more responsive and enhancing the skin’s vitality. It also protects both the skin and mucous membrane barrier functions and acts as an antioxidant by flushing oxidants and other toxins out through the kidneys. In addition, the sinuses drain better when they are well hydrated and their mucous membrane is more resistant to infection.

One must also consider that the brain is made up of 80 percent water. Severe dehydration can lead to the inability to think clearly, and in severe cases, mental derangement.

Conditions and habits related to dehydration

According to Dr. Batmanghelidj, author of Your Body’s Many Cries For Water, most people unknowingly suffer from chronic dehydration. This condition contributes to toxic overload in the body, which can lead to a hyperactive immune system and cause or contribute to a variety of diseases, including:

• Arthritis
• Asthma
• Colitis
• Depression
• Diabetes
• Dyspeptic ulcer
• Duodenitis
• Gastritis
• Heartburn
• Headaches
• High blood pressure
• High Cholesterol
• Low back pain
• Neck pain
• Osteoporosis
• Kidney problems

Instead of water, most people drink alcohol, coffee, non-herbal teas, soda, and other caffeine-containing beverages. These liquids tend to further exacerbate the dehydration, making it much worse.

Recommendations for optimal hydration

According to Dr. Batmanghelidj, the body needs an absolute minimum of 6 to 8 glasses a day. Other sources suggest up to half your body weight in pounds should be consumed in ounces of water on a daily basis. For someone who weighs 160 pounds, that’s 80 ounces (10 glasses) of pure water on a daily basis.

The best time to drink water is first thing in the morning to wake up the digestive system from its dehydrated and contracted state, and 30 minutes before each meal. Water should be avoided during meals so as to not interfere with stomach acid and proper digestion. It should also be consumed around room temperature, save exceptionally hot days where extra cooling of the body may be required.

Since tap water all too often contains a variety of unhealthy contaminants, including microorganisms, heavy metals, chlorine, fluoride, and other impurities it is recommended that this water be filtered to remove these harmful impurities.

Water is available in a wide variety of formats. Some of the most common ways people consume it is through bottled water and filtering units such as reverse osmosis and alkaline water systems. Each of these ways has varying levels of convenience, purity, and minerals, and the benefits and drawbacks should be closely considered with each before choosing.

Source: natural news

The Common Causes of Severe Knee Pain

The Common Causes of Severe Knee Pain

Knee Pain and an Active Lifestyle

Most people experience knee pain at some point in their lives. Sports, exercise and other activities can cause muscle strains, tendinitis, and more serious injuries to ligaments and cartilage. For some, knee pain can be so severe that it limits daily activities. For others, mild knee pain may be a chronic hindrance to the active lifestyle they desire. In either case, chances are that you’re dealing with a knee problem that shouldn’t be ignored.

Knee Ligament Injuries

The ligaments are what connect your thigh bone to your lower leg bones. They hold your bones together and keep the knee stable. Knee ligament sprains and tears are very common sports injuries, and can occur to the anterior cruciate ligament (ACL), posterior cruciate ligament (PCL), and medial collateral ligament (MCL). Any of these injuries can result in severe knee pain and could require surgery.

Knee Cartilage Tears

Other injuries, including tears, can take place in the cartilage of the knee. Cartilage is a semi-hard (tough, but flexible) tissue that covers the end of your bones. Knee cartilage comprises the two menisci on either side of the joint: the medial meniscus, located on the inside of the knee and the lateral meniscus, positioned on the outside of the knee. You’ve probably heard the phrase “meniscus tear”. A tear in the knee cartilage is a common injury, and typically requires surgery.

Arthritis of the Knee

Arthritis is a common cause of severe knee pain and disability. Unfortunately, arthritis is a chronic degenerative condition that can eventually require surgery. The three most common types of arthritis are rheumatoid arthritis, post-traumatic arthritis, and osteoarthritis. In the case of any of these three, you may experience stiffness and swelling, and it may be hard to bend your knee

Rheumatoid Arthritis of the Knee

Rheumatoid arthritis is an autoimmune disease that causes the tissue around the joint to become inflamed and thickened. Chronic inflammation often leads to damage and loss of cartilage. Rheumatoid arthritis represents only about 10 percent to 15 percent of all arthritis cases.

Post-Traumatic Arthritis

Post-traumatic arthritis can result after a serious knee injury, including bone fractures and ligament tears. These injuries can damage the cartilage in your knee over time and lead to pain, swelling, and stiffness.
Osteoarthritis of the Knee

The most common type of arthritis is osteoarthritis, which is a progressive wearing of the cartilage in the knee joint. It occurs more frequently in individuals 50 and older. After 50, the impact of osteoarthritis can worsen due to accumulated use and the wearing down of cartilage that occurs with age. Osteoarthritis of the knee causes pain, limited range of motion, stiffness of the knee, swelling of the joint, tenderness, deformity and weakness.

Causes of osteoarthritis include age, weight, genetics, previous injuries, infections, and illness (such as a tumor or gout). Osteoarthritis can also be caused by sports injuries and wear and tear resulting from physical work in occupations, such as construction and manufacturing.

Diagnosing Knee Pain

Doctors diagnose arthritis and other knee problems using x-rays and a physical evaluation. You will be asked about your pain level, knee flexibility and function, and general mobility. Medical professionals will also use special tests to identify the type of arthritis affecting your knee.

Treating Knee Pain from Arthritis

Knee pain usually becomes worse as arthritis progresses. Common treatments include: weight loss, strengthening exercises, wrapping, and pain relievers—such as acetaminophen and non-steroidal anti-inflammatory drugs (NSAIDs).

While osteoarthritis is the most common surgical patient diagnosis, those with severe pain from any type of arthritis may benefit from surgery, including a partial or total knee replacement. It’s crucial to discuss and explore all treatment options with your doctor before opting for surgery.

Source: healthline

Stress Slows Metabolism

Stress Slows Metabolism

If you crave chocolate cake or Ben and Jerry’s after a stressful day, you could gain over 10 pounds in a year, warns a new study.

The research, published in Biological Psychiatry, suggests that women burn fewer calories when under stress. The study participants who reported stress also had higher insulin levels.

“This means that, over time, stressors could lead to weight gain,” said Jan Kiecolt-Glaser, professor of psychiatry and psychology at The Ohio State University and lead author of the study, in a press release. “We know from other data that we’re more likely to eat the wrong foods when we’re stressed, and our data say that when we eat the wrong foods, weight gain becomes more likely because we are burning fewer calories.”

Researchers questioned 58 middle-aged women about their stress levels, and then served them a 930-calorie meal, complete with biscuits, gravy and 60 grams of fat. The researchers then measured how long it took the women to burn those calories (their metabolic rate). The stressed-out burned 104 fewer calories than the care-free women.

The researchers also noted that women with a history of depression combined with stress had a bigger rise in triglycerides after the meal. High levels of triglycerides are associated with cardiovascular disease.

“With depression, we found there was an additional layer. In women who had stress the day before and a history of depression, triglycerides after the meal peaked the highest,” Kiecolt-Glaser said. “The double whammy of past depression as well as daily stressors was a really bad combination.”

While it’s unclear whether the effect would be the same in men, it’s probably safer for everyone to reach for a green smoothie after a long day.

Source: discovery news

Poor sleep quality linked to lower physical activity

poor sleep

A new study shows that worse sleep quality predicts lower physical activity in people with post-traumatic stress disorder (PTSD).Results show that PTSD was independently associated with worse sleep quality at baseline, and participants with current PTSD at baseline had lower physical activity one year later.

Further analysis found that sleep quality completely mediated the relationship between baseline PTSD status and physical activity at the one-year follow-up, providing preliminary evidence that the association of reduced sleep quality with reduced physical activity could comprise a behavioral link to negative health outcomes such as obesity.

“We found that sleep quality was more strongly associated with physical activity one year later than was having a diagnosis of PTSD,” said lead author Lisa Talbot, postdoctoral fellow at the San Francisco VA Medical Center and the University of California, San Francisco. “The longitudinal aspect of this study suggests that sleep may influence physical activity.”

Study results are published in the July 15 issue of the Journal of Clinical Sleep Medicine, which is published by the American Academy of Sleep Medicine.
“This study adds to the literature that shows that better sleep leads to healthier levels of exercise, and previous research has shown that better sleep leads to healthier food choices,” said American Academy of Sleep Medicine President Dr. Timothy Morgenthaler. “It is clear that healthy sleep is an essential ingredient in the recipe for a healthy life.”

The study involved data from the Mind Your Heart Study, a prospective cohort study of 736 outpatients recruited from two Department of Veterans Affairs (VA) medical centers. PTSD was assessed with the Clinician-Administered PTSD Scale (CAPS). At baseline participants rated their sleep quality overall during the last month, and at baseline and again one year later they reported how physically active they have been during the last month. Of the 736 military veteran participants, 258 had current or subsyndromal PTSD.

According to Talbot, the results suggest that behavioral interventions to increase physical activity should include an assessment for sleep disturbance.
“The findings also tentatively raise the possibility that sleep problems could affect individuals’ willingness or ability to implement physical activity behavioral interventions,” she said. “Sleep improvements might encourage exercise participation.”

The research was performed in collaboration with principal investigator Dr. Beth Cohen of the San Francisco VA Medical Center and the Department of Medicine at the University of California, San Francisco. Research funding was provided by the National Heart, Lung, and Blood Institute (NHLBI) of the National Institutes of Health (NIH), the Irene Perstein Foundation, and the Mental Illness Research and Education Clinical Center of the U.S. Veterans Health Administration.

According to the National Center for PTSD of the U.S. Department of Veterans Affairs, PTSD symptoms such as nightmares or flashbacks usually start soon after a traumatic event, but they may not appear until months or years later. Symptoms that last longer than four weeks, cause great distress or interfere with daily life may be a sign of PTSD.

Source: science daily

Middle-Aged Americans Hit Hardest By This Year’s Flu

Middle-Aged Americans Hit Hardest By This Year’s Flu

Weather forecasts this winter have brought plenty of bad news. Today brings similarly disappointing news on the flu front. The Centers for Disease Control and Prevention (CDC) released their interim estimates for this year’s flu season, and those being hit the hardest aren’t who you’d expect.

Normally, flu most strongly affects those on the ends of the age spectrum: those under 4 years old and over 65. But so far in the 2013-2014 season, the greatest number of cases—and the greatest number of deaths from flu—fall into the young and middle-aged categories, the people often assumed to be the healthiest and heartiest. Some 61 percent of hospitalizations for influenza this season have been people between the ages of 18 and 64, up from 35 percent last season. The story is similar among deaths from flu: a surprising 60 percent occurred in the middle-age categories, up from last season’s 18 percent.

H1N1 Strikes Again

The trouble, it seems, is the particular strain of flu this season.

The predominant influenza virus circulating in recent months has been the notorious H1N1. Back in 2009, this virus (then called swine flu influenza A) made its presence quickly and painfully known. It started with a single case in a 10-year-old Californian girl, and spread from there. By June, cases had been reported in 70 countries and the World Health Organization declared the disease a pandemic. The U.S. was hit the hardest, with cases in all 50 of the United States and its territories.

While the H1N1 virus has been in circulation since then, this appears to be its first notable flare up. And in 2009, as in our current 2013-2014 season, a surprisingly large percentage of cases occurred in the young and middle-age categories.

Get Your Flu Shot!

With the help of vaccines, this year’s prospects don’t look nearly so grim. The CDC followed up with more than 2,000 people showing flu-like symptoms between December 2013 and January 2014, and found that the risk of influenza requiring a doctor’s visit was reduced in vaccinated individuals by about 61 percent versus those who didn’t get the vaccine.

Flu season isn’t over yet, though. The CDC anticipates weeks of influenza yet to come, and points out that it’s not too late to get a flu shot.

Source: discover magazine

Healthy Body and a Sound Mind?

healthy body and sound mind

The Roman poet Juvenile (in his Satires 10.356-64), writing around the 1st Century AD, famously popularized the view that there was a close relationship between physical health and mental power, with the maxim,

“a sound mind in a healthy body”

In fact, Juvenile was probably paraphrasing an earlier saying attributed to the ancient Greek philosopher Thales, writing around 600 BC, and who is variously identified as the first philosopher and the first scientist. Thales offered a simple prescription for the good life that still seems plausible today:

“Who is happy? ‘The person who has a healthy body, a resourceful mind and a docile nature.’

It is Juvenile who is usually credited with starting the long tradition of linking the development and functioning of the mind and of the body that continues to the present day. In fact, for most of this time this tradition competed rather unsuccessfully with another, present in the writing of an earlier Greek thinker, Plato, and certain strands of the Christian religion, but most commonly associated with the French philosopher René Descartes. This ‘Cartesian’ view portrayed the body not as an inseparable partner of the mind, but as its rather low-rent vessel. It is not difficult to see the influences of this view on most models of schooling and their distinctively disembodied conceptions of human beings, in which the mind is both the subject and object of education, and the body is relegated to a service role that is separate and inferior.

It is only quite recently that science has really caught up with the insights of the ancient Greek to the extent that it can now speak with confidence about the relationships between the body and the mind, and from the perspective of our interests, between physical activity and mental functioning. The evidence is beginning to suggest that Juvenile and Thales may have been on to something.

As was discussed in my last post, serious interest in this issue among researchers can be traced back to the 1960s and 1970s, when scientists began to undertake simple experiments assessing the relationships between levels of physical activity, intellectual performance and educational achievement. At the time, ambition and interest were not matched by access to robust scientific measures, so findings remained frustratingly cautious. More rigorous scientific investigations of the relationship of the brain and physical activity began in the early 1980s, due in large part to advances in scientific measurement and tools. It was around this time, for example, that researchers discovered that physical activity led to an increase in the secretion of endorphins (hormones secreted within the brain and nervous system with a number of physiological functions). This effect was found to be linked to a variety of psychological changes, such as positive mood state changes and improved concentration, and physical changes to the brain, such as increased blood flow, growth of nerve cells in the brain’s center of learning and memory, increased density of networks of nerve cells, and increased brain tissue volume.

Numerous tests and measures have been developed since this time. Some of these infer cognitive processes from the observation of behavior (such as the ability to pass psychological or educational tests), while others have been developed that allowed direct measures of brain activity (such as Functional Magnetic Resonance Imaging, fMRI, and Electroencephalography, EEG). The development of these sorts of technologies has offered a new perspective on the subject of physical activity, fitness, and learning.

Let us focus, for now, on the issue of physical fitness.

It now seems fairly clear that increased physical fitness, especially cardiorespiratory (aka aerobic) fitness, positively effects the brain in numerous ways. Some of the most impressive evidence comes from older people, for whom improved physical capacity can significantly enhance both the quality and quantity of life. Research with children and young people is less advanced, but it is becoming increasingly apparent that fitness is associated with improved cognitive functioning among this group, too. In fact, it seems safe to say that cognitive functioning of people of all ages benefits from increased levels of physical fitness.

There have now been many scientific studies in this area, and I will discuss some of the most significant of these in later blog posts. Let me just mention one particularly interesting set of findings that came from Sweden and examined physical fitness, intelligence performance, and school achievement. This was not an intervention or experiment, but rather was a statistical analysis of a huge sample of data (from 1,221,727 people), from every man born from 1950 through 1976 who were enlisted for military service at age 18.

Analysis of this data set revealed a positive association between cardiovascular fitness and performance in intelligence tests at age 18, and changes in physical fitness measures between 15 years and 18 years predicted cognitive performance at 18 years. In addition, it was found that cardiovascular fitness during early adulthood predicted socioeconomic status and educational attainment later in life. So the contribution of increased fitness on cognitive functioning seems to trigger a ripple effect that can ‘nudge’ towards improved performance in related domains, such as examination success and later employment.

While there is a growing consensus regarding the cognitive virtues of physical fitness among researchers, there remains some debate about the underlying neurological mechanisms. As will be seen in subsequent Smart Moves posts, many researchers discuss the “executive function hypothesis,” which frames discussions of fitness in terms of its influence on the cognitive processes required to select, organize, and properly initiate goal-directed actions. The authors of the Swedish study interpreted their findings in terms of two other hypotheses: “the brain plasticity hypothesis,” according to which fitness supports the brain’s ability to adapt to external conditions and challenges; and the ‘’cardiovascular fitness hypothesis,” in which cardiovascular or aerobic fitness acts as a mediator of changes to cognitive functioning.

From the point of view of education, the effects reported here make an compelling case, since they go to the heart of learning and achievement in school. The improvements to mood and concentration enhance what could be called the mindset of learning, because fitter children tend to approach academic tasks with a more positive attitude and greater attention than their unfit peers. At the same time, the changes to the efficient functioning of the brain relate to the mechanisms of learning. In other words, the evidence from these tests suggest that physical activity can improve students’ mental state while learning, and the efficiency with which they learn.

If a pharmaceutical drug was available that had been demonstrated to have such positive effects on children’s performance at school, I suspect that even the most cautious of parents would be lining the streets outside pharmacies. Physical activity is not a wonder drug, it has no harmful side effects, and it is free!

Source: psycholog today