Today's Sports Nutrition And Exercise Article

How Sports Nutrition Can Affect Health

The sports nutrition that any athlete consumes is a very important aspect and a huge determinant of his health and in turn affects his performance. Everyone knows that in today's competing world of sports, one must perform at his best to even qualify. And when it comes to winning, it's not enough to give your best- you need to be better than the best.

To play any sport, an athlete must maintain a healthy lifestyle. It's not only required to practice and polish the skills of the sport, but is also equally important to nourish the body so that there will be enough energy and strength to play that sport. Let's take a look at how the right sports nutrition can help in this regard.

You, assuming that you are an athlete or thinking of becoming one, must, first and foremost, understand the principles of sports nutrition completely. What is the point of staying healthy when you do not even know what being healthy is all about?

Firstly, it's important to avoid engaging yourself in false beliefs and misconceptions. Myths are completely different from facts, and your sports nutrition health is indeed a fact so do not, under any circumstances, mix unreal and unproven principles with facts. Compromising with your health based on misinterpretation of the facts can seriously jeopardize your career as an athlete.

It's easy to talk about managing your health than actually doing it. So to start with, you must take note of nutrition requirements that are related to your training program. Failure to recognize these said requirements would cause stress not only to your body, but also mentally. When you don't know what are up against, how can you build energy to tackle it?

Taking experts' advice on the sports nutrition is helpful too. You might be taking carbohydrates all right but not in the right amount or in the amount that is appropriate for you. So there will either be an excess or a lack, and neither is helpful for your health status.

Let's make one point clear though. There is a lot of difference between having well balanced sports nutrition and dieting to lose fat. Do not, under any circumstances, mistake them to be the same thing or else your health will be compromised.

You may have an extremely busy schedule, being an athlete and all, but you must still consume appropriate amount of food. So you must manage your time well to have an adequate time for eating. Time management is definitely the key.

For starters, you may not be financially stable right away, but that is how it always is when you are just beginning. However, this scarcity of finances might be a factor for you not to be able to attain adequate food supplies.

For those who are already making it big, your sports nutrition health should always come first. This means you have to manage your money efficiently so that you can have the appropriate supply of food, and still have enough to spend for maintaining your lifestyle.

A usually ignored, but quite important nutrition and health impairing factor is frequent traveling. Besides from the fact that traveling is expensive, it comes with a huge tendency that you will be taking your food on the road which leaves you with very few healthy choices.

Or if you carry the food, it minimized the selection of your food items to those that are portable. That will leave out the food that is difficult for you to carry but is important for your sports nutrition health. The time for eating should also not be modified.

Sports nutrition experts break the nutrition into the basic three types that the food basically is made up of. That is protein, carbohydrates and fats. A correct balance of these components in your body is very important. Anything in excess or in deficiencies could be a cause of a nutritional downfall.

Proteins give energy to the body. Whereas fats are the things that you should be more concerned about since these are the ones that decide what kind of shape to give to your body. You must not lose more than one half pound of fat in a week because if this happens, your body will individually think that you are undergoing a fasting, trying to starve yourself. If this is the case, your metabolism slows down since there is a need to conserve calories that have been used and also since your muscles will be used as sources of energy.

To say the least, you need to carefully follow the guidance about sports nutrition and ponder over the tips given in this article. Remember, it's possible to be a successful athlete provided you maintain your health well!

Discover the proper sports nutrition information and learn how to improve your nutritional diet and sporting performace by reading a free sport nutrition information book at sports nutrition books. More article on the various aspects to sports nutrition can be found at help on sport nutrition programs

American Sports Nutrition Journal

American Sports Nutrition Journal Aside from water, sports drinks must come in handy and must be ready in stock all thoroughout the race weekend. Sports drinks with electrolytes like sodium and with carbohydrates are particularly recommended. Carnohydrates will aid greatly in putting off the occurence of a rider's fatigue.

The amount of sodium present in the drinks is a very important element for the regimen. Sports drinks will high amounts of sodium can give back the sodium that will be lost with the rider's sweat during the competition. Also, the sodium will enhance the thirst of the body in order to make the cyclist drink more water Man Sports Nutrition during the course of the competition.

Motorcycle riders involved in heavy competition to strive to consume 20-40 ounces of liquid every hour during his time at the racetrack and must continue drinking about 20 ounces per hour after the track session. To effectively monitor hydration levels of a rider, he can weigh himself on the scales every morning and do so again after every session.

Two percent of the total body weight, and not more than that, should be eliminated, and it muse be replaced with 150 percent of the water reduced on that day in order to achieve maximum performance for tommorow's session.
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More Information On International Journal Of Sports Nutrition

The New Sports Supplement: Cereal And Milk

Thu, 14 May 2009 12:00:00 GMT
Main Category: Sports Medicine / Fitness Also Included In: Nutrition / Diet Article Date: 14 May 2009 - 5:00 PDT Exercise physiologist Lynne Kammer, from The University of Texas at Austin, led a group of researchers who investigated the post-exercise physiological effects of the foods.

Buy Expensive Sports Drinks? Just Eat Some Cereal Instead

Wed, 13 May 2009 13:00:00 GMT
Research published in BioMed Central's open access Journal of the International Society of Sports Nutrition has shown that the readily available and relatively inexpensive breakfast food is as effective as popular, carbohydrate-based - sports drinks'. Exercise physiologist Lynne Kammer, from The University of Texas at Austin, led a group of ...

Today's Sports Nutrition And Exercise Article

Creatine: More than a sports nutrition supplement

Although creatine offers an array of benefits, most people think of it simply as a supplement that bodybuilders and other athletes use to gain strength and muscle mass. Nothing could be further from the truth.

Although creatine offers an array of benefits, most people think of it simply as a supplement that bodybuilders and other athletes use to gain strength and muscle mass. Nothing could be further from the truth.

A substantial body of research has found that creatine may have a wide variety of uses. In fact, creatine is being studied as a supplement that may help with diseases affecting the neuromuscular system, such as muscular dystrophy (MD).

Recent studies suggest creatine may have therapeutic applications in aging populations for wasting syndromes, muscle atrophy, fatigue, gyrate atrophy, Parkinson's disease, Huntington's disease and other brain pathologies. Several studies have shown creatine can reduce cholesterol by up to 15% and it has been used to correct certain inborn errors of metabolism, such as in people born without the enzyme(s) responsible for making creatine.

Some studies have found that creatine may increase growth hormone production.

What is creatine?

Creatine is formed in the human body from the amino acids methionine, glycine and arginine. The average person's body contains approximately 120 grams of creatine stored as creatine phosphate. Certain foods such as beef, herring and salmon, are fairly high in creatine.

However, a person would have to eat pounds of these foods daily to equal what can be obtained in one teaspoon of powdered creatine.

Creatine is directly related to adenosine triphosphate (ATP). ATP is formed in the powerhouses of the cell, the mitochondria. ATP is often referred to as the "universal energy molecule" used by every cell in our bodies. An increase in oxidative stress coupled with a cell's inability to produce essential energy molecules such as ATP, is a hallmark of the aging cell and is found in many disease states.

Key factors in maintaining health are the ability to: (a) prevent mitochondrial damage to DNA caused by reactive oxygen species (ROS) and (b) prevent the decline in ATP synthesis, which reduces whole body ATP levels. It would appear that maintaining antioxidant status (in particular intra-cellular glutathione) and ATP levels are essential in fighting the aging process.

It is interesting to note that many of the most promising anti-aging nutrients such as CoQ10, NAD, acetyl-l-carnitine and lipoic acid are all taken to maintain the ability of the mitochondria to produce high energy compounds such as ATP and reduce oxidative stress.

The ability of a cell to do work is directly related to its ATP status and the health of the mitochondria. Heart tissue, neurons in the brain and other highly active tissues are very sensitive to this system. Even small changes in ATP can have profound effects on the tissues' ability to function properly.

Of all the nutritional supplements available to us currently, creatine appears to be the most effective for maintaining or raising ATP levels.

How does creatine work?

In a nutshell, creatine works to help generate energy. When ATP loses a phosphate molecule and becomes adenosine diphosphate (ADP), it must be converted back to ATP to produce energy. Creatine is stored in the human body as creatine phosphate (CP) also called phosphocreatine.

When ATP is depleted, it can be recharged by CP. That is, CP donates a phosphate molecule to the ADP, making it ATP again. An increased pool of CP means faster and greater recharging of ATP, which means more work can be performed.

This is why creatine has been so successful for athletes. For short-duration explosive sports, such as sprinting, weight lifting and other anaerobic endeavors, ATP is the energy system used.

To date, research has shown that ingesting creatine can increase the total body pool of CP which leads to greater generation of energy for anaerobic forms of exercise, such as weight training and sprinting. Other effects of creatine may be increases in protein synthesis and increased cell hydration.

Creatine has had spotty results in affecting performance in endurance sports such as swimming, rowing and long distance running, with some studies showing no positive effects on performance in endurance athletes.

Whether or not the failure of creatine to improve performance in endurance athletes was due to the nature of the sport or the design of the studies is still being debated.

Creatine can be found in the form of creatine monohydrate, creatine citrate, creatine phosphate, creatine-magnesium chelate and even liquid versions.

However, the vast majority of research to date showing creatine to have positive effects on pathologies, muscle mass and performance used the monohydrate form. Creatine monohydrate is over 90% absorbable. What follows is a review of some of the more interesting and promising research studies with creatine.

Creatine and neuromuscular diseases

One of the most promising areas of research with creatine is its effect on neuromuscular diseases such as MD. One study looked at the safety and efficacy of creatine monohydrate in various types of muscular dystrophies using a double blind, crossover trial.

Thirty-six patients (12 patients with facioscapulohumeral dystrophy, 10 patients with Becker dystrophy, eight patients with Duchenne dystrophy and six patients with sarcoglycan-deficient limb girdle muscular dystrophy) were randomized to receive creatine or placebo for eight weeks.

The researchers found there was a "mild but significant improvement" in muscle strength in all groups. The study also found a general improvement in the patients' daily-life activities as demonstrated by improved scores in the Medical Research Council scales and the Neuromuscular Symptom scale. Creatine was well tolerated throughout the study period, according to the researchers.1

Another group of researchers fed creatine monohydrate to people with neuromuscular disease at 10 grams per day for five days, then reduced the dose to 5 grams per day for five days.

The first study used 81 people and was followed by a single-blinded study of 21 people.

In both studies, body weight, handgrip, dorsiflexion and knee extensor strength were measured before and after treatment. The researchers found "Creatine administration increased all measured indices in both studies." Short-term creatine monohydrate increased high-intensity strength significantly in patients with neuromuscular disease.2

There have also been many clinical observations by physicians that creatine improves the strength, functionality and symptomology of people with various diseases of the neuromuscular system.

Creatine and neurological protection/brain injury

If there is one place creatine really shines, it's in protecting the brain from various forms of neurological injury and stress. A growing number of studies have found that creatine can protect the brain from neurotoxic agents, certain forms of injury and other insults.

Several in vitro studies found that neurons exposed to either glutamate or beta-amyloid (both highly toxic to neurons and involved in various neurological diseases) were protected when exposed to creatine.3 The researchers hypothesized that "? cells supplemented with the precursor creatine make more phosphocreatine (PCr) and create larger energy reserves with consequent neuroprotection against stressors."

More recent studies, in vitro and in vivo in animals, have found creatine to be highly neuroprotective against other neurotoxic agents such as N-methyl-D-aspartate (NMDA) and malonate.4 Another study found that feeding rats creatine helped protect them against tetrahydropyridine (MPTP), which produces parkinsonism in animals through impaired energy production.

The results were impressive enough for these researchers to conclude, "These results further implicate metabolic dysfunction in MPTP neurotoxicity and suggest a novel therapeutic approach, which may have applicability in Parkinson's disease."5 Other studies have found creatine protected neurons from ischemic (low oxygen) damage as is often seen after strokes or injuries.6

Yet more studies have found creatine may play a therapeutic and or protective role in Huntington's disease7, 8 as well as ALS (amyotrophic lateral sclerosis).9 This study found that "? oral administration of creatine produced a dose-dependent improvement in motor performance and extended survival in G93A transgenic mice, and it protected mice from loss of both motor neurons and substantia nigra neurons at 120 days of age.

Creatine administration protected G93A transgenic mice from increases in biochemical indices of oxidative damage. Therefore, creatine administration may be a new therapeutic strategy for ALS." Amazingly, this is only the tip of the iceberg showing creatine may have therapeutic uses for a wide range of neurological disease as well as injuries to the brain.

One researcher who has looked at the effects of creatine commented, "This food supplement may provide clues to the mechanisms responsible for neuronal loss after traumatic brain injury and may find use as a neuroprotective agent against acute and delayed neurodegenerative processes."

Creatine and heart function

Because it is known that heart cells are dependent on adequate levels of ATP to function properly, and that cardiac creatine levels are depressed in chronic heart failure, researchers have looked at supplemental creatine to improve heart function and overall symptomology in certain forms of heart disease.

It is well known that people suffering from chronic heart failure have limited endurance, strength and tire easily, which greatly limits their ability to function in everyday life. Using a double blind, placebo-controlled design, 17 patients aged 43 to 70 years with an ejection fraction <40 were supplemented with 20 grams of creatine daily for 10 days.

Before and after creatine supplementation, the researchers looked at:

1) Ejection fraction of the heart (blood present in the ventricle at the end of diastole and expelled during the contraction of the heart)

2) 1-legged knee extensor (which tests strength)

3) Exercise performance on the cycle ergometer (which tests endurance)

Biopsies were also taken from muscle to determine if there was an increase in energy-producing compounds (i.e., creatine and creatine phosphate). Interestingly, but not surprisingly, the ejection fraction at rest and during the exercise phase did not increase.

However, the biopsies revealed a considerable increase in tissue levels of creatine and creatine phosphate in the patients getting the supplemental creatine. More importantly, patients getting the creatine had increases in strength and peak torque (21%, P < 0.05) and endurance (10%, P < 0.05).

Both peak torque and 1-legged performance increased linearly with increased skeletal muscle phosphocreatine (P < 0.05). After just one week of creatine supplementation, the researchers concluded: "Supplementation to patients with chronic heart failure did not increase ejection fraction but increased skeletal muscle energy-rich phosphagens and performance as regards both strength and endurance.

This new therapeutic approach merits further attention."10

Another study looked at the effects of creatine supplementation on endurance and muscle metabolism in people with congestive heart failure.11 In particular the researchers looked at levels of ammonia and lactate, two important indicators of muscle performance under stress.

Lactate and ammonia levels rise as intensity increases during exercise and higher levels are associated with fatigue.

High-level athletes have lower levels of lactate and ammonia during a given exercise than non-athletes, as the athletes' metabolism is better at dealing with these metabolites of exertion, allowing them to perform better.

This study found that patients with congestive heart failure given 20 grams of creatine per day had greater strength and endurance (measured as handgrip exercise at 25%, 50% and 75% of maximum voluntary contraction or until exhaustion) and had lower levels of lactate and ammonia than the placebo group.

This shows that creatine supplementation in chronic heart failure augments skeletal muscle endurance and attenuates the abnormal skeletal muscle metabolic response to exercise.

It is important to note that the whole-body lack of essential high energy compounds (e.g. ATP, creatine, creatine phosphate, etc.) in people with chronic congestive heart failure is not a matter of simple malnutrition, but appears to be a metabolic derangement in skeletal muscle and other tissues.

Supplementing with high energy precursors such as creatine monohydrate appears to be a highly effective, low cost approach to helping these patients live more functional lives, and perhaps extend their life spans.

Conclusion

Creatine is quickly becoming one of the most well researched and promising supplements for a wide range of diseases. It may have additional uses for pathologies where a lack of high energy compounds and general muscle weakness exist, such as fibromyalgia.

People with fibromyalgia have lower levels of creatine phosphate and ATP levels compared to controls.13 Some studies also suggest it helps with the strength and endurance of healthy but aging people as well.

Though additional research is needed, there is a substantial body of research showing creatine is an effective and safe supplement for a wide range of pathologies and may be the next big find in anti-aging nutrients.

Although the doses used in some studies were quite high, recent studies suggest lower doses are just as effective for increasing the overall creatine phosphate pool in the body.

Two to three grams per day appears adequate for healthy people to increase their tissue levels of creatine phosphate. People with the aforementioned pathologies may benefit from higher intakes, in the 5-to-10 grams per day range.

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