Posts Tagged ‘deficiencies’

The Whole Truth about Good Health & Eating Nuts . . .

nutrition | Posted by admin July 31st, 2010

Long ago our ancestors gathered nuts as a means for survival. Although no longer needed to persevere, nuts are still a staple in our diets today. Found on coffee tables, at baseball games, tossed in salads, stir fried with vegetables and topped on sundaes, nuts play an integral role in our culture. And they should. There is emerging evidence linking the consumption of nuts to a reduced risk of coronary heart disease.

Two large epidemiological studies, the Nurses’ Health Study (1) and the Adventist Health Study (2) assessed the diets of over 110,000 men and women in relation to coronary heart disease. Adjusting for other coronary heart disease risk factors, they linked the intake of five or more servings (five ounces) of nuts per week to a 35 – 50 percent reduction in risk of coronary heart disease incidence and death (1,2). This is great news, as over the years nuts have received more negative reviews on health than positive ones. Now you and your family can enjoy the culinary versatility, flavor, aroma and crunch nuts provide while at the same time reaping their heart-protective benefits.

Nuts come from many different plant families and are classified as either tree nuts (a one-seeded fruit in a hard shell) or peanuts (a member of the legume family).

A one-ounce serving of nuts contains between 160 and 200 calories, of which 80-90 percent comprises fat. Despite this high-fat content, the fat in nuts is primarily in the monounsaturated form. Monounsaturated fats, when substituted for saturated fat in the diet, can help reduce total and LDL, or “bad” cholesterol levels while maintaining the “good” cholesterol, HDL.

Other added benefits of nuts are they are naturally cholesterol free, a good source of dietary fiber and protein, and contain a variety of heart disease-fighting vitamins and minerals like vitamin E (a potent antioxidant), folic acid, niacin, magnesium, vitamin B 6, zinc, copper and potassium. Nuts also contain the nonessential amino acid arginine. Arginine is touted for it’s role in protecting the inner lining of the arterial walls, making them more pliable and less susceptible to atherogenesis. Lastly, nuts are a good source of healthful phytochemicals, biologically active plant chemicals with high antioxidant properties linked to prevention of coronary heart disease.

Because nuts are so calorically dense it is important to incorporate them into the diet sensibly. To avoid weight gain, substitute added nuts for food sources high in fat, specifically saturated fat. For example, top a salad with nuts instead of bacon bits and croutons. Proper serving size is also a must. Having a scale on-hand is your best bet, although not always practical. If a scale is not available, check the Nutrition Facts panel on the food label to locate the serving size. A one-ounce serving of nuts greatly differs.

The following equal one ounce: 24 almonds, 18 medium cashews, 12 hazelnuts or filberts, 8 medium Brazil nuts, 12 macadamia nuts, 35 peanuts, 15 pecan halves and 14 English walnut halves (3). Prepackaging nuts into small, single-serving containers or bags can help keep the servings under control. All it takes is one, one-ounce serving a day or five ounces per week of a variety of nuts to reap the heart-disease fighting benefits found in the research presented above.

However you enjoy them, remember that adding nuts to your diet is one of many nutritional strategies aimed at reducing your risk of coronary heart disease. The best way to reduce your risk is to combine a high-fiber diet, rich in complex carbohydrates (whole grains, legumes, nuts and seeds) to a variety of fruits, vegetables and low-fat dairy each day to reap optimal heart-health benefits. Add to the equation a healthy body weight and regular physical activity and you can effectively reduce your risk of coronary heart disease.

Some more nut facts:

  • Walnuts contain a large percentage of polyunsaturated fat and are an excellent source of omega-3 fatty acids. Omega-3 fatty acids effectively help reduce triglycerides and are linked to a reduced risk of heart disease.
  • Almonds contain calcium, around 80 milligrams in one ounce, and can be a healthful way to boost calcium in the diet.
  • Pine nuts are a good source of iron, containing almost 3 milligrams in a one-ounce serving.
  • The bulk of calories in chestnuts come from carbohydrate instead of fat. Five ounces of water chestnuts contain only 3 grams of total fat, but pack a whopping 350 calories.
  • Peanut butter contains the same heart-protective benefits as whole peanuts however, manufacturers add salt, sugar and sometimes partially hydrogenated fats to enhance flavor and spreadability. Opt for natural peanut butter, which contain fewer to none of these additives.**
  • Unsalted, dry roasted or unprocessed nuts are typically found in the baking isle, produce or bulk food section of the grocery store; salted, oil-roasted nuts in the snack section. To reduce sodium and added fats in the diet, avoid the salted, oil-roasted nuts.

** Note: a strong association between a reduced incidence of coronary heart disease and consumption of peanut butter was not found in the articles referenced. However, peanut butter can be incorporated into a healthful eating pattern and still provides a variety of heart-disease fighting nutrients. Consume in moderation.

Melissa Stevens, MS, RD, LD
Nutrition Program Coordinator
Preventive Cardiology and Rehabilitative Services
Cleveland Clinic Foundation – Cleveland, Ohio

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CoQ10 – Reduce Muscle Injuries for Athletes?

Recovery - Repair, performance | Posted by admin January 5th, 2010

Marker levels associated with increased wear and tear in the muscle, like creatine kinase and lipid peroxide, were significantly lower in elite Japanese kendo athletes after consuming co-enzyme Q10 for 20 days, compared to placebo.

Researchers from University of Tsukuba, University of Tokyo, and Kobe Gakuin University report their findings in the British Journal of Nutrition.

The study adds to an ever growing body of studies supporting the benefits of the coenzyme for sports nutrition. Only recently, another Japanese group reported that CoQ10 supplements may boost physical performance and reduce feelings of tiredness associated with exercise (Nutrition, doi:10.1016/j.nut.2007.12.007).

CoQ10 has properties similar to vitamins, but since it is naturally synthesized in the body it is not classed as a vitamin. With chemical structure 2,3-dimethoxy-5-methyl-6-decaprenyl-1,4-benzoquinone, it is also known as ubiquinone because of its ‘ubiquitous’ distribution throughout the human body.

The level of CoQ10 produced by the body begins to drop after the age of about 20, and the coenzyme is concentrated in the mitochondria – the ‘power plant’ of body cells. It plays a vital role in the production of chemical energy by participating in the production of adenosince triphosphate (ATP), the body’s so-called ‘energy currency’.

Beyond it’s participation with mitochondria CoQ10 acts as a potent antioxidant. The coenzyme plays an important role in preserving levels of vitamin E and vitamin C.

kendo athletic study

Michihiro Kon and co-workers recruited 18 elite Japanese kendo student athletes and randomly assigned them to receive daily supplements of CoQ10 (300 mg) or placebo for 20 days. The study was double-blind, meaning neither volunteers nor researchers knew who was receiving the active or placebo dose. The volunteers had daily training sessions of five and a half hours per day for six days during the intervention period. At day three and five of the six day training period, the researchers report that both groups experienced increased in serum creatine kinase activity and the concentration of myoglobin, but these increases were significantly lower in the group receiving the CoQ10 supplements.

Creatine kinase is an enzyme that catalyses the conversion of creatine to phosphocreatine, in the process consuming adenosine triphosphate (ATP) and generating adenosine diphosphate (ADP). Elevated levels of the enzyme are indicative of muscle damage and injury. Moreover, levels of lipid peroxide, a marker of oxidative stress, were also lower in the CoQ10 group after three and five days of training, said the researchers.

“These results indicate that CoQ10 supplementation reduced exercise-induced muscular injury in athletes”

Mechanism

The underlying mechanism appears to be due to the antioxidant potential of the coenzyme, suggest the researchers, although further research is necessary to confirm these findings.

Source: British Journal of Nutrition
“Reducing exercise-induced muscular injury in kendo athletes with supplementation of coenzyme Q10″
Authors: M. Kon, K. Tanabe, T. Akimoto, F. Kimura, Y. Tanimura, K. Shimizu, T. Okamoto, I. Kono

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Importance of Magnesium – Prevents Health Risks

nutrition, performance | Posted by admin November 6th, 2009

Most people are aware of the importance of getting enough calcium, which remains a widespread problem. Most people don’t know there are other common micronutrient deficiencies that need to be addressed. Magnesium is one of those important micronutrients that doesn’t seem to get much attention, but plays a huge role in the body promoting health & performance.

Unfortunately the diets of all Americans are likely to be deficient and they don’t even know it. Sources estimate that nearly 70 percent of Americans get inadequate doses of magnesium every day and do not consume the daily recommended amounts of Magnesium. Studies have also shown food alone can’t meet the minimal Recommended Daily Allowances (RDA) micronutrient requirements for preventing nutrient-deficiency diseases. For several years experts have suggested that the availability of magnesium in the soil has significantly decreased and it is difficult to get the amount of magnesium needed to function at an optimal level. This, in combination with diets low in whole grains and fresh fruits and vegetables, has led to a general deficiency in the population.

Magnesium is used for more than 300 bodily functions and assists in energy production, maintains healthy bone density and aids the electrical conduction of the heart. Magnesium belongs in a category of minerals called electrolytes because they conduct electrical signals in the body. It is needed in energy metabolism, glucose utilization, protein synthesis, fatty acid synthesis and breakdown, muscle contraction, all ATPase functions, for almost all hormonal reactions, and in the maintenance of cellular ionic balance. It is found in all of the body’s cells, although it is mostly concentrated in the bones, muscles, and soft tissues. Magnesium also affects calcium’s role in homeostasis through two mechanisms.

Magnesium deficiency results in altered cardiovascular function, including electrocardiographic abnormalities, impaired carbohydrate metabolism, with insulin resistance and decreased insulin secretion, and high blood pressure. Even a mild deficiency causes sensitiveness to noise, nervousness, irritability, mental depression, confusion, twitching, trembling, apprehension, insomnia, muscle weakness and cramps in the toes, feet, legs, or fingers.

In active adults and athletes low magnesium levels can acutely contribute to early fatigue, nausea, muscle cramps & an irregular heartbeat during exercise. Magnesium as well as zinc, chromium and selenium are excreted in the sweat or as part of the process of metabolic acceleration. Heavy sweat loss can interfere with the important functions for which magnesium and other electrolytes are responsible. Also, the rate of magnesium loss is increased in conditions of high humidity and high temperature. An important consideration for athletes is the rate of magnesium loss that occurs during heavy physical activity. Heavy exercise makes you lose magnesium in the urine and scientific evidence suggests this is why long distance runners may suddenly drop dead with heart arrhythmias.

In a very tightly controlled three-month US study carried out last year, the effects of magnesium depletion on exercise performance in 10 women were observed. In the first month, the women received a magnesium-deficient diet (112mgs per day), which was supplemented with 200mgs per day of magnesium to bring the total magnesium content up to the RDA of 310mgs per day. In the second month, the supplement was withdrawn to make the diet magnesium-deficient, but in the third month it was reintroduced to replenish magnesium levels.

At the end of each month, the women were asked to cycle at increasing intensities until they reached 80% of their maximum heart rate, at which time a large number of measurements were taken, including blood tests, ECG and respiratory gas analysis.

The researchers found that, for a given workload, peak oxygen uptake, total and cumulative net oxygen utilization and heart rate all increased significantly during the period of magnesium restriction, with the amount of the increase directly related to the extent of magnesium depletion. In plain English, a magnesium deficiency reduced metabolic efficiency, increasing the oxygen consumption and heart rate required to perform work – exactly what an athlete doesn’t want!

No serious athlete or trainer can afford to overlook the benefits that magnesium brings to athletic performance and the recovery process. Research suggests that even a small shortfall in magnesium can lead to greatly reduced performance and stamina. Many athletic medical specialists believe that magnesium is the single most important mineral to sports nutrition. Not only does it help optimize an athlete’s performance, but it speeds up recovery from fatigue and injuries.

Optimal muscle contraction and relaxation is the foundation of an athlete’s performance. Proper magnesium levels are required for muscles to relax fully following a contraction. Some doctors believe that injuries to hamstring muscles can be partially avoided through intake of magnesium and stated that a shortened hamstring is a result of lack of available magnesium.

The first step is to eat more magnesium rich foods, especially beans, nuts and vegetables. The more active a person is the greater the need to make sure there is a variety of balanced micronutrient-enriched foods into their diet. The challenge is to eat large amounts of magnesium-rich foods on a consistent basis. Often this proves difficult and unrealistic, as an athlete’s requirement of magnesium intake far surpasses that of an average person. Micronutrient supplementation still may be needed to be incorporated into their wellness program as a preventative protocol for preventing these observed deficiencies.

Another important step is to have your levels checked. The residual level of magnesium in the cells is what’s important. The body does all it can to keep the blood levels normal, so if there is a body deficit, it will be found within the cells. Work with a practitioner that will check your RBC-magnesium level (the level of magnesium in red blood cells) or provide an FIA (functional intracellular analysis) for your body’s residual nutrient levels that will benchmark your cell level status to find the amount of supplements needed to achieve normal levels. Recommended intake for endurance athletes is 500 to 800 mg daily.

There is virtually no one that cannot benefit greatly from increasing daily magnesium intake. In terms of health and longevity magnesium is essential. For the professional athlete it means the difference between winning and losing, and in some cases, living and dying.

GoTo: Prevention not Prescriptions

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Importance of Magnesium – Especially for Athletes

performance | Posted by admin June 19th, 2009

Most people are aware of the importance of getting enough calcium, which remains a widespread problem. Most people don’t know there are other common micronutrient deficiencies that need to be addressed. Magnesium is one of those important micronutrients that doesn’t seem to get much attention, but plays a huge role in the body promoting health & performance.

Unfortunately the diets of all Americans are likely to be deficient and they don’t even know it. Sources estimate that nearly 70 percent of Americans get inadequate doses of magnesium every day and do not consume the daily recommended amounts of Magnesium. Studies have also shown food alone can’t meet the minimal Recommended Daily Allowances (RDA) micronutrient requirements for preventing nutrient-deficiency diseases. For several years experts have suggested that the availability of magnesium in the soil has significantly decreased and it is difficult to get the amount of magnesium needed to function at an optimal level. This, in combination with diets low in whole grains and fresh fruits and vegetables, has led to a general deficiency in the population.

Magnesium is used for more than 300 bodily functions and assists in energy production, maintains healthy bone density and aids the electrical conduction of the heart. Magnesium belongs in a category of minerals called electrolytes because they conduct electrical signals in the body. It is needed in energy metabolism, glucose utilization, protein synthesis, fatty acid synthesis and breakdown, muscle contraction, all ATPase functions, for almost all hormonal reactions, and in the maintenance of cellular ionic balance. It is found in all of the body’s cells, although it is mostly concentrated in the bones, muscles, and soft tissues. Magnesium also affects calcium’s role in homeostasis through two mechanisms.

Magnesium deficiency results in altered cardiovascular function, including electrocardiographic abnormalities, impaired carbohydrate metabolism, with insulin resistance and decreased insulin secretion, and high blood pressure. Even a mild deficiency causes sensitiveness to noise, nervousness, irritability, mental depression, confusion, twitching, trembling, apprehension, insomnia, muscle weakness and cramps in the toes, feet, legs, or fingers.

In active adults and athletes low magnesium levels can acutely contribute to early fatigue, nausea, muscle cramps & an irregular heartbeat during exercise. Magnesium as well as zinc, chromium and selenium are excreted in the sweat or as part of the process of metabolic acceleration. Heavy sweat loss can interfere with the important functions for which magnesium and other electrolytes are responsible. Also, the rate of magnesium loss is increased in conditions of high humidity and high temperature. An important consideration for athletes is the rate of magnesium loss that occurs during heavy physical activity. Heavy exercise makes you lose magnesium in the urine and scientific evidence suggests this is why long distance runners may suddenly drop dead with heart arrhythmias.

In a very tightly controlled three-month US study carried out last year, the effects of magnesium depletion on exercise performance in 10 women were observed. In the first month, the women received a magnesium-deficient diet (112mgs per day), which was supplemented with 200mgs per day of magnesium to bring the total magnesium content up to the RDA of 310mgs per day. In the second month, the supplement was withdrawn to make the diet magnesium-deficient, but in the third month it was reintroduced to replenish magnesium levels.

At the end of each month, the women were asked to cycle at increasing intensities until they reached 80% of their maximum heart rate, at which time a large number of measurements were taken, including blood tests, ECG and respiratory gas analysis.

The researchers found that, for a given workload, peak oxygen uptake, total and cumulative net oxygen utilization and heart rate all increased significantly during the period of magnesium restriction, with the amount of the increase directly related to the extent of magnesium depletion. In plain English, a magnesium deficiency reduced metabolic efficiency, increasing the oxygen consumption and heart rate required to perform work – exactly what an athlete doesn’t want!

No serious athlete or trainer can afford to overlook the benefits that magnesium brings to athletic performance and the recovery process. Research suggests that even a small shortfall in magnesium can lead to greatly reduced performance and stamina. Many athletic medical specialists believe that magnesium is the single most important mineral to sports nutrition. Not only does it help optimize an athlete’s performance, but it speeds up recovery from fatigue and injuries.

Optimal muscle contraction and relaxation is the foundation of an athlete’s performance. Proper magnesium levels are required for muscles to relax fully following a contraction. Some doctors believe that injuries to hamstring muscles can be partially avoided through intake of magnesium and stated that a shortened hamstring is a result of lack of available magnesium.

The first step is to eat more magnesium rich foods, especially beans, nuts and vegetables. The more active a person is the greater the need to make sure there is a variety of balanced micronutrient-enriched foods into their diet. The challenge is to eat large amounts of magnesium-rich foods on a consistent basis. Often this proves difficult and unrealistic, as an athlete’s requirement of magnesium intake far surpasses that of an average person. Micronutrient supplementation still may be needed to be incorporated into their wellness program as a preventative protocol for preventing these observed deficiencies.

Another important step is to have your levels checked. The residual level of magnesium in the cells is what’s important. The body does all it can to keep the blood levels normal, so if there is a body deficit, it will be found within the cells. Work with a practitioner that will check your RBC-magnesium level (the level of magnesium in red blood cells) or provide an FIA (functional intracellular analysis) for your body’s residual nutrient levels that will benchmark your cell level status to find the amount of supplements needed to achieve normal levels. Recommended intake for endurance athletes is 500 to 800 mg daily.

There is virtually no one that cannot benefit greatly from increasing daily magnesium intake. In terms of health and longevity magnesium is essential. For the professional athlete it means the difference between winning and losing, and in some cases, living and dying.

Suggest: Isotonic Nutraceutical Calcium Complete with Magnesium & Vitamin D3 daily – http://tinyurl.com/ndn5o9

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