Posts Tagged ‘health’

Are Your Prescriptions Depleting Your Nutritional Status ?

anti-aging, disease, Fitness, Free Radicals, nutrition, performance, Recovery - Repair, strength | Posted by admin September 1st, 2015

Becoming familiar with the nutritional depletion effects of taking prescription drugs must be considered in order to adjust diet and nutritional supplements for maintaining optimal health, strength and performance…  Check below for your potential risks…

 

Micronutrient Depletion Rx GuideRev 

(Revised  – September 2, 2015)

Patients shouldn’t self-medicate with supplements. Over-supplementing can be harmful.

Understanding how nutrients correlate with each other is a critical part of a personalized

supplement plan.

 

Inflammation – degrades health at the cellular level

anti-aging, disease, Fitness, Free Radicals, nutrition, performance, Recovery - Repair | Posted by admin May 25th, 2012

Inflammation is central to the body’s ability to defend, maintain and repair itself. Its symptoms appear as redness, heat, swelling and pain, announcing a part of the body that is inflamed.  Heat and redness are signs of blood rushing to the injured area. Swelling is from changes in the small blood vessels that allow plasma to seep into the tissues. Pain results from the release of compounds used by the immune system to draw defensive support to the injured area. The inflammatory response is regulated by hormones which both intensify and dampen the response.  Unchecked inflammation, or chronic inflammation, is abnormal, and occurs upon an imbalance of these hormones which inhibits the ability to turn off the defensive action when healing is complete.

Chronic inflammation extends beyond the location of the original injury, and spreads to areas of the body which are healthy. It is at the cellular level that chronic inflammation begins and is most often due to oxidative stress, brought on by the burning of energy in our bodies along with toxic elements in our environment. Toxins in the form of free radicals build up over time in our bodies, from both external and internal sources (internally, the consumption of fuel by our cells). These free radicals cause an inflammatory reaction at the cellular level, becoming chronic over time.

It is becoming widely known that this inflammation at the cellular level is at the root of over 200 common degenerative, chronic diseases.  A broad category of inflammation related disease is autoimmunity. These diseases include Type I Diabetes, Rheumatoid arthritis, asthma, eczema, coronary heart disease, Alzheimer’s, Parkinson’s, ALS, and even cancer.

There is also mounting evidence of a critical role of inflammation in the development of hypertension. Metabolic syndrome, marked by increased levels of C-reactive protein, is associated the inflammatory response, and a known precursor to high blood pressure, and an increased risk of heart attack and stroke.

Oxidative stress promotes the inflammatory response because the body sees the oxidation of cells as injury, and where excessive oxidative stress exists, inflammation begins to cause the body’s immune system to attack otherwise healthy cells.

Inflammation can be avoided by choices in the diet.

The macronutrients (fats, carbohydrates, and proteins) and micronutrients (vitamins, minerals, enzymes and phytonutrients) we consume have a direct role in maintaining a healthy inflammatory response.

Macronutrients:

Fats:
We all know about the bad fats (the saturated fats) and the good fats (polyunsaturated and monounsaturated fats). The saturated fats will have a more pro-inflammatory response in our bodies. Some fats are extremely pro-inflammatory. These are the artificially hardened fats: margarine, vegetable shortening, and partially hydrogenated vegetable oils. These products include oxidized fatty acids and trans fats. Balancing essential fatty acids (EFAs) is critical in maintaining the body’s ability to temper the inflammatory response. In general, the hormones synthesized from omega-6 fatty acids, which are abundant in our SAD (Standard American Diet) increase inflammatory reaction, while the hormones we create from omega-3 fatty acids have the dampening effect on this response. In the distant past our diets consisted of a more equivalent amount of these fats, but are now heavily weighted in the omega-6 fats. Unfortunately, omega-3’s are much harder to come by than omega-6’s. They are found in low concentrations in leafy greens, a few seeds and nuts (pumpkin seeds, walnuts, flax, hemp) and a few vegetable oils (soy, canola), sea vegetables, and oily fish from cold waters (salmon, sardines herring, mackerel, black cod, and bluefish). Animals that are allowed to graze on grass rather than being fattened on grains accumulate omega-3s in their fat. Oxidized fatty acids occur when oils are exposed to air, light and heat. Rancidity is a sign of oxidation; if your oil smells at all funny, toss it! This includes nuts and seeds, which do not have a long shelf life. The omega-3’s in these foods break down with oxidation, and as with oils, dispose of them when they begin to smell the least bit rancid. Refrigeration can extend their shelf life.

Carbohydrates:

As with the fats, our sources of carbohydrates can be pro-inflammatory. The glycemic index and glycemic load are indicators of the oxidative stress that will occur as a result of ingesting certain foods.  As you eat more high-GI foods, such as bread, white potatoes, white pasta, sugars, chips, crackers and snack foods, your body processes these foods as simple sugars. It burns these sugars very rapidly, causing excessive oxidation which results in an inflammatory response. Eat foods with a low-GI such as whole grains, beans, sweet potatoes, winter squashes and other vegetables, temperate fruits (berries, cherries, apples and pears) and less refined or processed food. Eating these foods will avoid inflammation, as the body will process these foods in a more regulated manner.

Proteins:
The influence of proteins on inflammation is not as direct, but are more a result of their fat and carbohydrates. Animal fats are more commonly saturated, while they also come with greater environmental contamination than plant foods.  Toxins from this environmental contamination cause inflammatory response from the resulting oxidative stress. Vegetable sources of proteins include soy and other legumes. These sources of protein are no less nutritious than meat protein but limit and even aid in controlling chronic inflammation.  Fish is highly recommended in favor of meat for its omega-3 fatty acids, but it is desirable to avoid some fish, such as tuna or shark, for their levels of mercury and PCBs. Good choices are wild Alaskan salmon, Alaskan black code (sablefish or butterfish), and sardines.

If fish oil supplements are taken, they should be distilled and toxin free, and not from farmed fish as they will contain no omega-3s which are derived from plankton and other natural sources not available to farm fish.  If you are taking EFA supplements, try to find those which have parental rather than derived fatty acids, and contain the correct balance.

Micronutrients:

Vitamins, minerals, enzymes, and phytonutrients are obtained for the most part from fruits and vegetables. We are told by the FDA that we should consume from 5-9 servings of fruit per day (1 cup of raw or 1/2 cup of cooked is considered one serving).

However it is not recommended that variety and raw foods are extremely important considerations. But it is well known that these nutrients are critical in reducing oxydative stress and related inflammation.

Phytonutrients are indicated by the colors of fruit and vegetables. There are tens of thousands of known phytonutrients, and more are being studied every day.  For example, the phytonutrients creating the red, blue, and purple in fruits and vegetables contain anthocyanins, which are water soluble. Anthocyanins are part of a larger subgroup of plant compounds called flavanoids, which are a subclass of plant polyphenols.  Plant polyphenols are known to have significant antioxidant capabilities, and so in turn, limit inflammatory response. Plant polyphenols have been studied for some time now for their role in protecting cells against cancerous conditions.

Reference:  Nutrition-To-Wellness
Nutrition and Health Blog, Discover Wellness, by Vicky Berry

Sugar is Sugar ??? – Not So . . .

anti-aging, disease, Fitness, nutrition, obesity, performance | Posted by admin November 14th, 2011

Your Brain Reacts to Fructose and Glucose in  Very Different Ways

A study performed at Oregon Health and  Science University is intriguing, as it shows that the difference between  fructose and glucose is not just limited to how they’re metabolized in your  body; your brain also reacts to these two sugars in entirely different ways. Nine healthy, normal-weight subjects  received either glucose, fructose, or saline (as the control). Their brains  were then scanned to evaluate activity around the hypothalamus, which is a key  player in appetite control and production of metabolic hormones. Interestingly, the researchers  discovered that the “cortical control areas” surrounding the  hypothalamus responded very differently to each substance:

  • Glucose significantly raised the level of neural activity for about 20 minutes
  • Fructose reduced neural activity in the area for about the same amount of time
  • Saline had no effect on neural activity

So, what does this mean?

At this point, the implications of these differences are unclear. The Chicago Tribune reported that:

“At this point, said [lead researcher] Purnell in a phone interview, it means nothing more than that the two substances did prompt different responses in the brain–that the brain did not respond to them identically.

Within some of the “cortical control areas” where differences were seen, lie some important neural real estate, including regions where notions of reward and addiction are processed.

As scientists have a closer look in future studies, they should be able to zero in on which specific areas are affected differently by the two forms of sugar.”

So, time will tell what these latest findings really mean, but we already know that fructose has a detrimental impact on two hormones involved with satiety and hunger, namely leptin and ghrelin, and that this influence sets in motion a vicious cycle of hunger, increased food intake, and increased fat storage.

Fructose Packs on the Pounds Faster than Any Other Nutrient

Part of what makes HFCS so unhealthy is that it is metabolized to fat in your body far more rapidly than any other sugar. The entire burden of metabolizing fructose falls on your liver, and it promotes a particularly dangerous kind of body fat, namely adipose fat. This is the fat type of fat that collects in your abdominal region and is associated with a greater risk of heart disease.  Additionally, because most fructose is consumed in liquid form (i.e. soda and sweetened beverages of all kinds), its negative metabolic effects are magnified. Because while HFCS has about the same amount of fructose as cane sugar, the fructose in HFCS is in its “free” form and not attached to any other carbs. The fructose in fruits and in cane sugar is bonded to other sugars which results in a decrease in its metabolic toxicity.

Consuming foods that contain high amounts of fructose—even if it’s a natural product—is, to put it bluntly, the fastest way to trash your health. Among the health problems you invite with a high-fructose diet are:

  • Obesity, insulin resistance, metabolic syndrome and type 2 diabetes
  • Elevated triglycerides and LDL (bad) cholesterol levels
  • Elevated blood pressure
  • Liver disease
  • Depletion of vitamins and minerals—Unbound fructose, found in large quantities in HFCS, can interfere with your heart’s use of minerals such as magnesium, copper and chromium.
  • Cardiovascular disease, arthritis, gout, and cancer

Beware: Mixing Fructose with Glucose Increases Destructive Effect

Fructose consumption clearly causes insulin resistance whereas straight glucose does not. However, it’s worth knowing that glucose accelerates fructose absorption!  So when you mix glucose and fructose together, you absorb more fructose than if  you consumed fructose alone…

This is an important piece of information if you are struggling to control your weight. Remember, sucrose, or table sugar,  is exactly this blend — fructose plus glucose. So, the key to remember is to not get too nit-picky about the names of the sugars. ALL of these contribute to decreased health:

  • Sucrose (table sugar)
  • Corn syrup
  • High fructose corn syrup (HFCS)
  • Crystalline fructose, and any other high-fructose sweetener they may dream up
  • Natural fructose in the form of fruits, fruit juices, and natural sweeteners such as honey and agave.

Is Fructose from HFCS Worse than Fructose from Table Sugar?

High fructose corn syrup is about 55 percent fructose while table sugar is about 50 percent. The fructose in the corn syrup is also dissociated from the glucose, unlike table sugar which has it attached. So HFCS is clearly worse than table sugar, but not orders of
magnitude. It is only marginally worse.

The MAIN reason why fructose and HFCS are so bad is that in the mid 70s two things happened. Earl Butz changed the US Agriculture policy to massively subsidize corn production in the US, and scientists also figured out how to make HFCS in the lab from corn.  The combination of these two events made fructose VERY cheap. So cheap that it’s put in virtually all processed  foods because it is virtually free and massively improves the flavor of most foods. So if you are a processed food producer there are virtually no downsides. So it becomes a QUANTITY issue, and the average person is now consuming 600 percent more than their ancestors did, and some are consuming 1500 percent more. So the massive increase in this toxin is what is causing the problem. If table sugar was as cheap and used as much it would cause virtually identical side effects.

Fructose Metabolism Basics

Without getting into the very complex biochemistry of carbohydrate metabolism, it is important to understand how your body processes glucose versus fructose. Dr. Robert Lustig, Professor of Pediatrics in the Division of Endocrinology at the University of California, has been a pioneer in decoding sugar metabolism. His work has highlighted some major differences in how different sugars are broken down and used.

Here’s a summary of the main points:

  • After eating fructose, 100 percent of the metabolic burden rests on your liver. With glucose, your liver has to  break down only 20 percent.
  • Every cell in your body, including your brain, utilizes glucose. Therefore, much of it is “burned up” immediately after you consume it. By contrast, fructose is turned into free fatty acids (FFAs), VLDL (the damaging form of cholesterol), and triglycerides, which get stored as fat.
  • The fatty acids created during fructose metabolism accumulate as fat droplets in your liver and skeletal muscle tissues, causing insulin resistance and non-alcoholic fatty liver disease (NAFLD). Insulin resistance progresses to metabolic syndrome and type II diabetes.
  • Fructose is the most lipophilic carbohydrate. In other words, fructose converts to activated glycerol (g-3-p), which is directly used to turn FFAs into triglycerides. The more g-3-p you have, the more fat you store. Glucose does not do this.
  • When you eat 120 calories of glucose, less than one calorie is stored as fat. 120 calories of fructose results in 40 calories being stored as fat. Consuming fructose is essentially consuming fat!
  • The metabolism of fructose by your liver creates a long list of waste products and toxins, including a large amount of uric acid, which drives up blood pressure and causes gout.
  • Glucose suppresses the hunger hormone ghrelin and stimulates leptin, which suppresses your appetite. Fructose has no effect on ghrelin and interferes with your brain’s communication with leptin, resulting in overeating.

So, if anyone tries to tell you “sugar is sugar,” they are way behind the times. As you can see, there are major differences in how your body processes each one. The bottom line is: fructose leads to increased belly fat, insulin resistance and metabolic syndrome — not to mention the long list of chronic diseases that directly result.

If you, like so many others, have struggled with your weight for years; examined your diet; avoided fat and counted your calories, yet not getting anywhere and wondering what you’re doing wrong, please pay very close attention to this issue!

In many cases the primary culprit is an excessive intake of hidden sugar in the form of fructose, whether natural fructose (such as agave syrup or 100 percent fruit juice, for example), or in the form of corn syrup (or high fructose corn syrup), which is a main ingredient in countless beverages and processed, pre-packaged foods.  It’s extremely easy to consume high amounts of fructose on a daily basis, especially if most of your foods are processed in any way, or if you drink sodas or any other sweetened beverages  such as ice-teas, fruit juices and sports drinks. As previously discussed, even seemingly “health-conscious” beverages like Vitamin Water, Jamba Juice and Odwalla SuperFood contain far more added sugar and/or fructose than many desserts!  So please, understand that it’s not dietary fat that’s making you fat. It’s fructose.

Recommended Fructose Allowance

As a standard recommendation, keep your TOTAL fructose consumption below 25 grams per day.

For most people it would also be wise to limit your fructose from fruit to 15 grams or less, as you’re virtually guaranteed to
consume “hidden” sources of fructose if you drink beverages other than water and eat processed food. Remember, the average 12-ounce can of soda contains 40 grams of sugar, at least half of which is fructose, so one can of soda ALONE would exceed your  daily allotment.  Fifteen grams of fructose is not much — it represents two bananas, one-third cup of raisins, or two Medjool  dates. In his book, The Sugar Fix, Dr. Johnson includes detailed tables showing the content of fructose in different foods — an information base that isn’t readily available when you’re trying to find out exactly how much fructose is in various foods. We encourage you to pick up a copy of this excellent resource.

Here’s a quick reference list of some of the most common fruits that you can use to help you count your fructose grams:

Limes –                   1 medium = 0 grams
Lemons –                1 medium = 0.6 grams
Cranberries-           1 cup= 0.7 grams
Passion fruit-         1 medium = 0.9 grams
Prune –                     1 medium = 1.2 grams
Apricot –                  1 medium = 1.3 grams
Guava –                    2 medium = 2.2 grams
Date deglet            1 medium = 2.6 grams
Cantaloupe –          1/8 portion = 3.2 grams
Raspberries-         1 cup = 3.0 grams
Clementine –         1 medium = 3.6 grams
Kiwifruit –               1 medium = 3.6 grams
Blackberries –        1 cup = 3.5 grams
Star fruit –              1 medium = 3.6 grams
Cherries sweet –   10 total = 3.8 grams
Strawberries –       1 cup = 3.8 grams
Cherries sour –      1 cup = 4.0 grams
Pineapple –            1 slice = 4.0 grams
Grapefruit pink –  1 half =   4.3 grams
Boysenberries –     1 cup = 4.6 grams
Tangerine –            1 medium = 4.8 grams
Nectarine –             1 medium = 5.4 grams
Peach –                    1 medium = 5.9 grams
Orange navel –       1 medium = 6.1 grams
Papaya –                  1 half = 6.3 grams
Mellon honeydew –  1 eighth = 6.7 grams
Banana –                  1 medium = 7.1 grams
Blueberries –           1 cup = 7.4 grams
Date medjool –       1 medium = 7.7 grams
Apple –                     1 medium = 9.5 grams
Persimmon –           1 medium = 10.6 grams
Watermelon –         1 sixteenth = 11.3 grams
Pear –                       1 medium = 11.8 grams
Raisins –                  1 forth cup = 12.3 grams
Grapes seedless –   1 cup = 12.4 grams
Mango –                   1 half = 16.2 grams
Apricots dried –     1 cup = 16.4 grams
Figs dried –            1 cup = 23.0 grams 

The Way Toward Better Health…

There is nothing benign about the fructose consumption inherent in our modern diet. It is literally supercharged with fructose, and we’re seeing the consequences of this type of eating in our skyrocketing rates of obesity, diabetes, heart disease, and cases of non-fatty liver disease.  Fortunately, there’s plenty of good news here.

There IS a way out of this evil circle, and that is a return to a more holistic diet based on whole foods, along with physical exercise and safe sun exposure to optimize your vitamin D levels.  One of the easiest things you can do to quickly improve your health is to eliminate all soda and sweetened beverages from your life.   ALL soda, because even though HFCS is clearly something you want to avoid, it is still not as bad as artificial sweeteners,  which damage your health even more rapidly than HFCS.  Then, since most processed foods also contain HFCS, avoiding as many processed foods as possible is your next step.
If you want an occasional sweetener, consider:

  1. The herb stevia
  2. Dextrose (pure glucose)

Say no to agave syrup since it is a highly processed sap that is almost all fructose. It is one of the more seriously mismarketed foods in the natural food world. An informal study found the most popular agave brands ranged from 59 to 67 percent pure fructose, far worse than HFCS. Once you realize the hazards of fructose and begin to avoid it in earnest, your diet will significantly improve, which is an essential factor for a long, healthy life.

Reference:  Mercola.com

Super Foods for Health

anti-aging, Free Radicals, nutrition, Recovery - Repair | Posted by admin May 17th, 2011
Your health is your wealth and it provides the infrastucture for maintaining strength and performance.  Everyone, especially athletes need to learn and understand the basics of optimal nutrition and how it is key to high performance and rapid recovery.  Muscles cells are injured and replaced constantly and optimal cell replications require optimal nutrients to be available at all times.  Superfoods are natural and they provide the fuel for health, strength and performance.  Learn to like them and make them part of your diet.
Cabbage
Absent from most American kitchens, this cruciferous vegetable is a major player in European and Asian diets.
Why It’s Healthy:
One cup of chopped cabbage has just 22 calories, and it’s loaded with valuable nutrients. At the top of the list is sulforaphane, a chemical that increases your body’s production of enzymes that disarm cell-damaging free radicals and reduce your risk of cancer. In fact, Stanford University scientists determined that sulforaphane boosts your levels of these cancer-fighting enzymes higher than any other plant chemical.
How to Eat It: Put cabbage on your burgers to add a satisfying crunch. Or, for an even better sandwich topping or side salad, try an Asian-style slaw. Here’s what you’ll need.
4 Tbsp peanut or canola oil
Juice of two limes
1 Tbsp sriracha, an Asian chili sauce you can find in the international section of your grocery store
1 head napa cabbage, finely chopped or shredded
1/4 cup toasted peanuts
1/2 cup shredded carrots
1/4 cup chopped cilantro
Whisk together the oil, lime juice, and sriracha. Combine the remaining ingredients in a large mixing bowl and toss with the dressing to coat. Refrigerate for 20 minutes before serving. The slaw will keep in your fridge for 2 days.
Beets
These grungy-looking roots are naturally sweeter than any other vegetable, which means they pack tons of flavor underneath their rugged exterior.
Why They’re Healthy: Think of beets as red spinach. Just like Popeye’s powerfood, this crimson vegetable is one of the best sources of both folate and betaine. These two nutrients work together to lower your blood levels of homocysteine, an inflammatory compound that can damage your arteries and increase your risk of heart disease. Plus, the natural pigments—called betacyanins—that give beets their color have been proved to be potent cancer fighters in laboratory mice.
How to Eat Them: Fresh and raw, not from a jar. Heating beets actually decreases their antioxidant power. For a simple single-serving salad, wash and peel one beet, and then grate it on the widest blade of a box grater. Toss with 1 tablespoon of olive oil and the juice of half a lemon. You can eat the leaves and stems, which are also packed with vitamins, minerals, and antioxidants. Simply cut off the stems just below the point where the leaves start, and wash thoroughly. They’re now ready to be used in a salad. Or, for a side dish, sauté the leaves, along with a minced clove of garlic and a tablespoon of olive oil, in a sauté pan over medium-high heat. Cook until the leaves are wilted and the stems are tender. Season with salt and pepper and a squeeze of lemon juice, and sprinkle with fresh Parmesan cheese.
Guava
Guava is an obscure tropical fruit that’s subtly acidic, with sweetness that intensifies as you eat your way to the center.
Why it’s Healthy: Guava has a higher concentration of lycopene—an antioxidant that fights prostate cancer—than any other plant food, including tomatoes and watermelon. In addition, 1 cup of the stuff provides 688 milligrams (mg) of potassium, which is 63 percent more than you’ll find in a medium banana. And guava may be the ultimate high-fiber food: There’s almost 9 grams (g) of fiber in every cup.
How to Eat It: Down the entire fruit, from the rind to the seeds. It’s all edible—and nutritious. The rind alone has more vitamin C than you’d find in the flesh of an orange. You can score guava in the produce section of higher-end supermarkets or in Latin grocery stores.
Swiss Chard
Hidden in the leafy-greens cooler of your market, you’ll find this slightly bitter, salty vegetable, which is actually native to the Mediterranean.
Why It’s Healthy: A half cup of cooked Swiss chard provides a huge amount of both lutein and zeaxanthin, supplying 10 mg each. These plant chemicals, known as carotenoids, protect your retinas from the damage of aging, according to Harvard researchers. That’s because both nutrients, which are actually pigments, appear to accumulate in your retinas, where they absorb the type of shortwave light rays that can damage your eyes. So the more lutein and zeaxanthin you eat, the better your internal eye protection will be.
How to Eat It: Chard goes great with grilled steaks and chicken, and it also works well as a bed for pan-seared fish. Wash and dry a bunch of Swiss chard, and then chop the leaves and stems into 1-inch pieces. Heat a tablespoon of olive oil in a large sauté pan or wok, and add two garlic cloves that you’ve peeled and lightly crushed. When the oil smokes lightly, add the chard. Sauté for 5 to 7 minutes, until the leaves wilt and the stems are tender. Remove the garlic cloves and season the chard with salt and pepper
Cinnamon
This old-world spice usually reaches most men’s stomachs only when it’s mixed with sugar and stuck to a roll.
Why It’s Healthy: Cinnamon helps control your blood sugar, which influences your risk of heart disease. In fact, USDA researchers found that people with type-2 diabetes who consumed 1 g of cinnamon a day for 6 weeks (about 1/4 teaspoon each day) significantly reduced not only their blood sugar but also their triglycerides and LDL (bad) cholesterol. Credit the spice’s active ingredients, methylhydroxychalcone polymers, which increase your cells’ ability to metabolize sugar by up to 20 times.
How to Eat It: You don’t need the fancy oils and extracts sold at vitamin stores; just sprinkle the stuff that’s in your spice rack (or in the shaker at Starbucks) into your coffee or on your oatmeal.
Purslane
Although the FDA classifies purslane as a broad-leaved weed, it’s a popular vegetable and herb in many other countries, including China, Mexico, and Greece.
Why It’s Healthy: Purslane has the highest amount of heart-healthy omega-3 fats of any edible plant, according to researchers at the University of Texas at San Antonio. The scientists also report that this herb has 10 to 20 times more melatonin—an antioxidant that may inhibit cancer growth—than any other fruit or vegetable tested.
How to Eat It: In a salad. Think of purslane as a great alternative or addition to lettuce: The leaves and stems are crisp, chewy, and succulent, and they have a mild lemony taste. Look for it at your local farmer’s market, or Chinese or Mexican market. It’s also available at some Whole Foods stores, as an individual leafy green or in premade salad mixes.
Pomegranate Juice
A popular drink for decades in the Middle East, pomegranate juice has become widely available only recently in the United States.
Why It’s Healthy: Israeli scientists discovered that men who downed just 2 ounces of pomegranate juice daily for a year decreased their systolic (top number) blood pressure by 21 percent and significantly improved bloodflow to their hearts. What’s more, 4 ounces provides 50 percent of your daily vitamin C needs.
How to Drink It:
Try 100 percent pomegranate juice from Pom Wonderful. It contains no added sugars, and because it’s so powerful, a small glassful is all you need. List of retailers, go to pomwonderful.com
Goji Berries
These raisin-size fruits are chewy and taste like a cross between a cranberry and a cherry. More important, these potent berries have been used as a medicinal food in Tibet for over 1,700 years.
Why They’re Healthy: Goji berries have one of the highest ORAC ratings—a method of gauging antioxidant power—of any fruit, according to Tufts University researchers. And although modern scientists began to study this ancient berry only recently, they’ve found that the sugars that make goji berries sweet reduce insulin resistance—a risk factor of diabetes—in rats.
How to Eat Them: Mix dried or fresh goji berries with a cup of plain yogurt, sprinkle them on your oatmeal or cold cereal, or enjoy a handful by themselves. Find them at specialty supermarkets or at gojiberries.us.
Dried Plums
You may know these better by the moniker “prunes,” which are indelibly linked with nursing homes and bathroom habits. And that explains why, in an effort to revive this delicious fruit’s image, producers now market them under another name.
Why They’re Healthy: Prunes contain high amounts of neochlorogenic and chlorogenic acids, antioxidants that are particularly effective at combating the “superoxide anion radical.” This nasty free radical causes structural damage to your cells, and such damage is thought to be one of the primary causes of cancer.
How to Eat Them: As an appetizer. Wrap a paper-thin slice of prosciutto around each dried plum and secure with a toothpick. Bake in a 400°F oven for 10 to 15 minutes, until the plums are soft and the prosciutto is crispy. Most of the fat will cook off, and you’ll be left with a decadent-tasting treat that’s sweet, savory, and healthy.
Pumpkin Seeds

These jack-o’-lantern waste products are the most nutritious part of the pumpkin.
Why They’re Healthy: Downing pumpkin seeds is the easiest way to consume more magnesium. That’s important because French researchers recently determined that men with the highest levels of magnesium in their blood have a 40 percent lower risk of early death than those with the lowest levels. And on average, men consume 353 mg of the mineral daily, well under the 420 mg minimum recommended by the USDA.

How to Eat Them: Whole, shells and all. (The shells provide extra fiber.) Roasted pumpkin seeds contain 150 mg of magnesium per ounce; add them to your regular diet and you’ll easily hit your daily target of 420 mg. Look for them in the snack or health-food section of your grocery store, next to the peanuts, almonds, and sunflower seeds.

Antioxidants, Explained
The science is clear:
Plant foods are good for you. And the credit often goes to chemicals they produce called antioxidants. Just as the name suggests, antioxidants help protect your cells against oxidation. Think of oxidation as rust. This rust is caused by free radicals, which are unstable oxygen atoms that attack your cells, inducing DNA damage that leads to cancer. Thankfully, antioxidants help stabilize free radicals, which keeps the rogue atoms from harming your cells. So by eating more antioxidant-rich foods, you’ll boost the amount of the disease-fighting chemicals floating in your bloodstream. The result: Every bite fortifies your body with all-natural preventive medicine.

 

Reference:  Men’s Health Magazine & Eat This? Not That!  – May 2011

Glutathione: Levels for Health, Strength & Optimal Performance

anti-aging, Fitness, Free Radicals, nutrition, performance, Recovery - Repair | Posted by admin March 30th, 2011

Glutathione is the master anti-oxidant in the body which supports health, enhances tissue and muscle repair,increases strength & endurance and slows the aging of cells.

What can reducing the oxidative process on the body mean for the athlete?

Many world-class athletes are discovering the importance of glutathione, which when maintained, gives them the edge over the competition. Increased glutathione levels provides athletes with increased strength and endurance, decreased recovery time from injury, less pain and fatigue and possibly an increase in muscle-promoting activities. During workouts, athletes generate free radicals which in turn lead to muscle fatigue and poorer performance. Glutathione neutralizes these radicals and allows our bodies to recover faster. Recent research indicates that the body has a natural tendency toward many degenerative diseases and aging itself. Some believe how well the body can protect itself from damage and recover from oxidative damage can be determined by measuring the intracellular stores of Glutathione.

Dietary Choices are the Key

Tumeric:

Scientists have long been aware of the wide array of health benefits from the Indian spice turmeric, which is a source of the active phytochemical curcumin. This bioactive substance of Turmeric (Curcuma Longa) contains “Curcuminoids” and Curcumin is the most important molecule. Research has shown its tremendous health benefit. Antioxidants have received increased attention, and it’s important to know what nutrients are antioxidants, and information about them. One such nutrient is curcumin.  Curcumin is a natural extract from the spice turmeric. Turmeric is derived from the plant Curcuma Longa, a member of the ginger family. Curcumin is employed mostly as an antioxidant; though it was traditionally used to promote stomach and joint comfort. The immune-balancing activity of curcumin has been demonstrated through multiple mechanisms to support normal COX-2 and NF-KappaB levels in the body. The neuroprotective properties of curcumin are among the most studied. Curcumin has been designated as a ‘strong candidate’ for the promotion of neurological health and cognitive function. Curcumin can cross the blood-brain barrier and support the normal uptake of amyloid-beta in the brain. This supports the brain’s memory and learning abilities as we age. Another neuroprotective property of curcumin is its ability to promote normal levels of glutathione, superoxide dismutase and catalase in the brain. This can help to maintain the health of neurological tissues. Curcumin supports the normal production of Phase II liver detoxification enzymes, including glutathione synthase, heme-oxygenase and catalase. The liver plays several roles in detoxification: it filters the blood to remove large toxins, synthesizes and secretes bile full of cholesterol and other fat-soluble toxins, and enzymatically disassembles unwanted chemicals. This enzymatic process usually occurs in two steps referred to as phase I and phase II. They promote the body’s natural enzyme antioxidant defense systems and function as a powerful indirect antioxidant. These enzymes promote the body’s normal metabolism of harmful chemicals such as heavy metals, toxins and pollutants into less reactive molecules. Curcumin has also been shown to promote normal hepatic tissue repair.

Broccoli:

The health benefits and protective properties of broccoli and other cruciferous vegetables have been well documented over the past 25 years. Broccoli is a potent source of sulphoraphane glucosinolates. Sulforaphanes support the normal production of Phase II liver detoxification enzymes, including glutathione synthase, heme-oxygenase and catalase. Sulphoraphanes promote the body’s natural enzyme antioxidant defense systems and function as a powerful indirect antioxidant. Sulphoraphanes work to support gene transcription, which is the process by which genetic information is copied from DNA to RNA, resulting in a specific protein formation. Conclusively, sulphoraphanes work to support the body’s natural defense systems and to maintain elevated levels of glutathione.

Glutathione is the master antioxidant of the body. It is an important chemical that acts as a powerful antioxidant to preserve and protect the brain and other body tissues by protecting them from the damage of free radicals. It also acts to recycle vitamin C & E which also reduce free radicals. Since glutathione cannot be absorbed intact orally due to gastrointestinal degradation, sulphoraphanes may be the most effective way to increase endogenous glutathione concentration.

Selenium:

Selenium is a required cofactor for selenoproteins such as glutathione peroxidase.  Selenomethionine is incorporated directly into proteins because selenomethionine cannot be distinguished from methionine during the translation of mRNA into protein. This serves as a storage form of selenium and is liberated upon protein catabolism. Selenium accumulates in the prostate, promoting the health of the prostate. Selenium supports immune function by promoting normal growth and development of T helper cells.  Selenium is naturally found in walnuts, brazil nuts, seafood, tuna, beef, spaghetti, turkey, eggs, oatmeal, rice, noodles and several types of cheese.

Pancreatic cancer – daily diet of sugar?

nutrition, performance, Recovery - Repair | Posted by admin October 31st, 2010

(NaturalNews) New research published in the journal Nature reveals that pancreatic cancer can take up to 20 years to grow to the point where it is diagnosed by the practice of conventional medicine. This was determined by sequencing the DNA of cancer tumor cells from deceased patients. Because cancer mutations occur in growing tumors at a known rate, scientists were able to map the timing of the development of full-blown pancreatic cancer tumors.

Johns Hopkins University School of Medicine and the Howard Hughes Medical Institute found:

• It takes an average of 11.7 years for one mutation in a pancreas cell to grow into a “mature” pancreatic tumor (which might show up on a medical scan).

• It can take another 6.8 years for the pancreatic tumor to spread and cause tumors to appear in other organs of the body.

How to grow and feed a cancer tumor

First of all, to grow a cancer tumor, you need to eat lots of sugar. Liquid sugars are the best (like soda?), but any form of refined sugar will do. You have to eat sugar daily if you really want to support cancer cell division and growth.

Next, you have to be vitamin D deficient most of the time.  That’s because vitamin D may halt the progress of 77 percent of all cancers (including pancreatic cancer), and when combined with other nutrients like selenium, may halt progress of even more.

By combining vitamin D and selenium nutrition with other anti-cancer nutrients such as fresh vegetable juice (on a daily basis), omega-3 fatty acids, a wide variety of fresh fruits (including citrus and berries), and even red wine (rich with resveratrol), you will create an internal biological environment in which cancer tumors cannot thrive.

This is especially true if you pursue a more alkaline diet that’s rich in vegetables and green foods rather than acidic substances such as sugar, fried foods and caffeine.

Combine all this with some regular exercise, good sleep, stress reduction habits and strict avoidance of cancer-causing chemicals, and you’ve got a recipe for blocking virtually all tumor growth in your body.

Cancer tumors simply cannot grow in an environment that’s rich in plant-based nutrients and life based on healthy, natural living.

So even if you have a wayward pancreatic cell that decides to mutate and try to become cancerous on its own, that cell will not have any long-term success in replicating inside your body because it’s surrounded by healthy cells and bathed in anti-cancer nutrients carried to it each day in your blood!

Remember, your cells rely entirely on nutrients delivered by your blood, and if your blood is delivering anti-cancer nutrients each day, then “bad” cells will never be allowed to replicate and become cancer tumors.

Obviously, the composition of your blood is determined by what you eat. If you eat junk food, your blood will be junk blood, and it will deliver junk to your cells (cancer cells love junk!). If you eat healthy foods, you will have healthy blood, and cancer tumors will shrivel up and actually lose their blood supply then die.

With this in mind, your life and health are not a rehearsal.  Nutrition is the key to your health, strength and performance.  Learn what combination of nutritional foods support your health at the cellular level, then learn to like them.  In all cases, refined sugars need to be limited as much as possible.

If you’ve been pursuing a lifestyle of junk foods, processed foods, fried foods, excessive animal products and sun avoidance, then you are probably growing cancer tumors in your body right now. Almost as if you were trying to!

So you might be on year 10 of the 20-year cancer diagnosis plan. There’s no way to know because solid cancer tumors usually don’t show up in diagnostic tests when they’re only 10 years old. But if you’ve been following a cancer-promoting lifestyle, you can rest assured you have micro tumors in your body that are just waiting for more sugar and less vitamin D in your blood in order to divide and grow even more.

Consider yourself informed… Preventing cancer is its cure.

Adapted from Mike Adams, the Health Ranger, NaturalNews Editor

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

Water: How much needed for health & optimal athletic performance?

Fitness, nutrition, performance, Recovery - Repair | Posted by admin June 27th, 2010

Water is absolutely critical to our body which comprises about 75% water; the brain has 85%, blood 90%, lungs 90%, muscles 75%, kidney 82% and even bones has 22%.  Basically, we are made of water!

Water dissolves the many valuable nutrients, minerals, and chemicals in the biological processes and transports them to different parts of our body. The carbohydrates and proteins that our bodies use as food are metabolized and transported by water in the bloodstream. Water is just as important in the transport of waste and toxins out of our bodies. Without the replenishment of fresh water, our body will fail to function, start to waste away, and finally collapse. An adult loses about 2.5 liters water every day through perspiration, breathing, and elimination (urine and feces), and when the body loses 5% of its total water volume, symptoms of dehydration such as thirst, reduced mental concentration, blurred vision, muscle cramps, unexplained tiredness, irritation, dark urine, will begin to show up.

The consequence of consuming insufficient water can be devastating to our body. The cells will start to draw water from the bloodstream instead, causing the heart to work harder. At the same time, when the kidneys fail to cleanse the blood effectively due to inadequate water, the liver and other organs will have to work harder, putting them under extra stress. Continuous water loss over time will speed up aging but increase risks of diseases and health issues such as constipation, dry and itchy skin, acne, nosebleeds, urinary tract infection, coughs, sneezing, sinus pressure, and headaches.

So, how much water should you drink a day? How much water is enough for you? The minimum amount of water you need depends on our body weight. As a general guide, for two pounds of body weight, an ounce of water is required.  So, if you are 60kg (1 kg is 2.54 lbs), you should drink about 2 liters of water every day.

Specifics of Understanding:

  • Every day you lose water through your breath, perspiration, urine and bowel movements. For your body to function properly, you must replenish its water supply by consuming beverages and foods that contain water. Several approaches attempt to approximate water needs for the average, healthy adult living in a temperate climate.
  • Replacement approach.  The average urine output for adults is about 1.5 liters (6.3 cups) a day.  You lose close to an additional liter of water a day through breathing, sweating and bowel movements.  Food usually accounts for 20 percent of your total fluid intake, so if you consume 2 liters of water or other beverages a day (a little more than 8 cups) along with your normal diet, you will typically replace the lost fluids.
  • Eight 8-ounce glasses of water a day.  Another approach to water intake is the “8 x 8 rule” — drink eight 8-ounce glasses of water a day (about 1.9 liters). The rule could also be stated, “drink eight 8-ounce glasses of fluid a day,” as all fluids count toward the daily total.  Though the approach isn’t supported by scientific evidence, many people use this basic rule as a guideline for how much water and other fluids to drink.
  • Dietary recommendations. The Institute of Medicine advises that men consume roughly 3 liters (about 13 cups) of total beverages a day and women consume 2.2 liters (about 9 cups) of total beverages a day. Even apart from the above approaches, if you drink enough fluid so that you rarely feel thirsty and produce 1.5 liters (6.3 cups) or more of colorless or slightly yellow urine a day, your fluid intake is probably adequate. Factors that influence water needs: You may need to modify your total fluid intake depending on how active you are, the climate you live in, your health status, and if you’re pregnant or breast-feeding.
  • Exercise. If you exercise or engage in any activity that makes you sweat, you need to drink extra water to compensate for the fluid loss. An extra 400 to 600 milliliters (about 1.5 to 2.5 cups) of water should suffice for short bouts of exercise, but intense exercise lasting more than an hour (for example, running a marathon) requires more fluid intake. How much additional fluid you need depends on how much you sweat during exercise, the duration of your exercise and the type of activity you’re engaged in? During long bouts of intense exercise, it’s best to use a sports drink that contains sodium, as this will help replace sodium lost in sweat and reduce the chances of developing hyponatremia, which can be life-threatening. Also, continue to replace fluids after you’re finished exercising.
  • Environment. Hot or humid weather will make you sweat and requires additional intake of fluid. Heated indoor air also can cause your skin to lose moisture during wintertime. Further, altitudes greater than 8,200 feet (2,500 meters) may trigger increased urination and more rapid breathing, which use up more of your fluid reserves.
  • Illnesses or health conditions. Signs of illnesses, such as fever, vomiting and diarrhea, cause your body to lose additional fluids. In these cases you should drink more water and may even need oral rehydration solutions, such as Gatorade or Poweraid supplements.  Also, you may need increased fluid intake if you develop certain conditions, including bladder infections or urinary tract stones. On the other hand, some conditions such as heart failure and some types of kidney, liver and adrenal diseases may impair excretion of water and even require that you limit your fluid intake.
  • Pregnancy or breast-feeding. Women who are expecting or breast-feeding need additional fluids to stay hydrated. Large amounts of fluid are used especially when nursing. The Institute of Medicine recommends that pregnant women drink 2.3 liters (about 10 cups) of fluids daily and women who breast-feed consume 3.1 liters (about 13 cups) of fluids a day.
  • Other sources.  Although it’s a great idea to keep water within reach at all times, you don’t need to rely only on what you drink to satisfy your fluid needs. What you eat also provides a significant portion of your fluid needs. On average, food provides about 20 percent of total water intake, while the remaining 80 percent comes from water and beverages of all kinds. For example: many fruits and vegetables, such as watermelon and tomatoes, are 90 percent to 100 percent water by weight. Beverages such as milk and juice also are composed mostly of water. Even beer, wine and caffeinated beverages — such as coffee, tea or soda — can contribute, but these should not be a major portion of your daily total fluid intake. Water is one of your best hydration source because it’s calorie-free, inexpensive and naturally available.
  • When to hydrate?   It’s generally not a good idea to use thirst alone as a guide for when to drink. By the time you become thirsty, it’s possible to already be slightly dehydrated. Further, be aware that as you get older your body is less able to sense dehydration and send your brain signals of thirst. Excessive thirst and increased urination can be signs of a more serious medical condition. Talk to your doctor if you experience either. To ward off dehydration and make sure your body has the fluids it needs, make water your beverage of choice. Nearly every healthy adult can consider the following: Drink a glass of water with each meal and between each meal. Hydrate before, during and after exercise. Substitute sparkling water for alcoholic drinks at social gatherings. If you drink water from a bottle, thoroughly clean or replace the bottle often to avoid disease and infections.

 

Drinking too much water?

  • Though uncommon, it is possible to drink too much water. When your kidneys are unable to excrete the excess water, the electrolyte (mineral) content of the blood is diluted, resulting in low sodium levels in the blood, a condition called hyponatremia. Endurance athletes, such as marathon runners, who drink large amounts of water, are at higher risk of hyponatremia. In general, though, drinking too much water is rare in healthy adults who consume an average American diet. If you’re concerned about your fluid intake, check with your doctor or a registered dietitian. He or she can help you determine the amount of water that’s best for you.

 

Staying safely hydrated

Resources:  The Mayo Clinic &
Ruth Tan, Health & Nutritional Analyst

Vitamin D – Its Role in Health & Optimal Athletic Performance

Fitness, nutrition, performance, Recovery - Repair | Posted by admin May 24th, 2010

There are a pandemic number of people who are vitamin D deficient.  This has become evident due to increased discovery and sharing of documentation from clinical trials, epidemiological studies, and educational journals.  The end results from an alarming and growing number due to lack of sunshine exposure and inadequate supply of vitamin D from daily food intake.   This added to obesity trends, an aging population, and improved skin products that block formation of vitamin D3.  Until recently, vitamin D was understood to be solely related to bone mineralization and calcium utilization in the body.   Further studies have revealed vitamin D to play a leading role in many additional cell processes.  More than 36 cell types and 10 extra renal organs have been discovered to possess the vitamin D receptor, or VDR. Insufficient vitamin D is related to reduced immunological conditions, cancers of the breast, colon, pancreas, and prostate as well as heart diseases, type I diabetes, rheumatoid arthritis, cognitive impairment, and all cause mortality.  This impressive collection of medical conditions accounts for more than 60% of all deaths in the Western World.

What is Vitamin D?

A fat soluble pro-hormone, vitamin D is a seco-steroid which exists in two forms:  vitamin D2 & vitamin D3.  Vitamin D2 is obtained from yeast and plant material, vitamin D3 is produced endogenously in the skin by the photo-chemical conversion of 7-dehydrocholesterol. Vitamin D circulates in the body bound to the vitamin D binding protein, or VDBP.  Both vitamin D2 and D3 are converted to the biomarker 25-hydoxyvitamin [D (25(OH)D] in the liver and undergoes further hydroxylation in the kidneys to the bio-active form of the hormone 1,25(OH)2D.

The Frequency of vitamin D Deficiency:

The March 2010 issue of the Journal of Clinical Endocrinology & Metabolism points towards an overwhelming 59% of people that are vitamin D insufficient.  This was based on a cross-sectional study designed to establish a relationship between serum 25(OH)D and the degree of fat penetration in muscle.  These results have been duplicated as well in several independent studies of people from all over the United States in recent months.

Adverse Outcomes of Vitamin D Insufficiency:

Presence of 1,25(OH)2D and vitamin D receptors (VDR) in a wide variety of tissues ranging from pancreas, colon, brain, liver, muscle, skin and lung  speaks of its newly found broad involvement in the functionality of bodily systems.  Published literature over several years indicates that the non-bone mineralization effects of vitamin D are autocrine, not endocrine.  Thus, implying these functions are not based or derived for the amount of circulating 1,25(OH)2D in the body, but rather due to the intracellular synthesis of 1,25(OH)2D by these tissues.  Studies also indicate that the levels of 1,25(OH)2D required for these non-calcemic functions are higher than the levels of normal serum 1,25(OH)2D. 

Epidemiological evidences have linked deprived levels of vitamin D conditions to osteoporosis, osteoarthritis, obesity, multiple sclerosis, hypertension, type I diabetes and several cancers.  Vitamin is also effective in maintaining low susceptibility to infections including pulmonary diseases.

Conclusion:

Vitamin D has been shown to have an extensive area of biological influence due to the discovery of VDR and its conversion in several body tissues.  Health, strength and athletic performance can be optimized by measuring the residual levels of vitamin D at the cellular level to determine the degree of insufficiencies in order to adjust diets and nutritional supplements which directly influences athletic strength and recovery time.

Contact us for information on measuring residual vitamins & minerals by functional intracellular analysis at the cellular level – which is directly proportional to the body stores . . .

Reference:  Ray J, Meike W. D-Light: Vitamin D and Good Health. MLO. 2010;42(5):32-38

Vitamin D – Maintains Health & Athletic Performance . . .

Fitness, performance, Recovery - Repair | Posted by admin April 16th, 2010

Vitamin D is an often overlooked nutritional element in athletic achievement, a sleeper nutrient, says John Anderson, a professor emeritus of nutrition at the University of North Carolina regarding Vitamin D and athletic performance. Vitamin D once was thought to be primarily involved in bone development. But a growing body of research suggests that it’s vital in multiple different bodily functions, including allowing body cells to utilize calcium (which is essential for cell metabolism), muscle fibers to develop and grow normally, and the immune system to function properly. Almost every cell in the body has receptors for Vitamin D, Anderson says.  It can up-regulate and down-regulate hundreds, maybe even thousands of genes.   D. Enette Larson-Meyer, an assistant professor in the Department of Family and Consumer Sciences at the University of Wyoming says we’re only at the start of understanding how important it is.

But many of us, it seems, no matter how active and scrupulous we are about health, don’t get enough Vitamin D. Nowadays, many people aren’t going outside very much and most of us assiduously apply sunscreen and take other precautions when we do.

Meanwhile, dietary sources of Vitamin D are meager. Cod-liver oil provides a whopping dose. But a glass of fortified milk provides a fraction of what scientists now think we need per day. A study published online in the journal Pediatrics in 2009 concluded that more than 60 percent of American children, or almost 51 million kids, have insufficient levels of Vitamin D and another 9 percent, or 7.6 million children, are clinically deficient, a serious condition. Cases of childhood rickets, a bone disease caused by lack of Vitamin D, have been rising in the U.S. in recent years.

Although few studies have looked closely at the issue of Vitamin D and athletic performance, those that have are suggestive. A series of strange but evocative studies undertaken decades ago in Russia and Germany, for instance, hint that the Eastern Bloc nations may have depended in part on sunlamps and Vitamin D to produce their preternaturally well-muscled and world-beating athletes. In one of the studies, four Russian sprinters were doused with artificial, ultraviolet light. Another group wasn’t. Both trained identically for the 100-meter dash. The control group lowered their sprint times by 1.7 percent. The radiated runners, by comparison, improved by an impressive 7.4 percent.

More recently, when researchers tested the vertical jumping ability of a small group of adolescent athletes, Larson-Meyer says, they found that those who had the lowest levels of Vitamin D tended not to jump as high, intimating that too little of the nutrient may impair muscle power. Low levels might also contribute to sports injuries, in part because Vitamin D is so important for bone and muscle health. In a Creighton University study of female naval recruits, stress fractures were reduced significantly after the women started taking supplements of Vitamin D and calcium.

Recent studies have shown that, among athletes who train outside year-round, maximal oxygen intake tends to be highest in late summer. The athletes, in other words, are fittest in August, when ultraviolet radiation from the sun is near its zenith. They often then experience an abrupt drop in maximal oxygen intake, beginning as early as September, even though they continue to train just as hard. This decline coincides with the autumnal lengthening of the angle of sunlight. Less ultraviolet radiation reaches the earth and, apparently, sports performance suffers.

Can Vitamin D Improve Athletic Performance?

The active form of vitamin D is a steroid (actually a secosteroid) in the same way that testosterone is a steroid. It is also a hormone (hormone: Greek, meaning: to set in motion) in the same way that growth hormone is a hormone. Steroid hormones are substances made from cholesterol that circulate in the body and work at distant sites by setting in motion genetic protein transcription. That is, both vitamin D and testosterone set in motion your genome, the stuff of life. While testosterone is a sex steroid hormone, vitamin D is a pleomorphic steroid hormone.

If you are vitamin D deficient, the medical literature indicates that the right amount of vitamin D will make you faster, stronger, improve your balance and timing, etc. How much it will improve your athletic ability depends on how deficient you are to begin with. How good an athlete you will be depends on your innate ability, training, and dedication?

However, peak athletic performance also depends upon the neuromuscular cells in your body and brain having unfettered access to the steroid hormone, activated vitamin D. How much activated vitamin D is available to your brain, muscle, and nerves depends on the amount of 25-hydroxyvitamin D in your residual stores. In turn, how much 25-hydroxyvitamin D is in your residual stores depends on how much vitamin D you put in your mouth or how often you expose your skin to UVB light?

References: 

The New York Times, Health – Fitness & Nutrition, 09/23/2009
Vitamin D Council: http://www.vitamindcouncil.org

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