Posts Tagged ‘inflamation’

Immune System Response, Exercise and Inflammation

anti-aging, disease, Fitness, Free Radicals, inflammation, nutrition, performance, Recovery - Repair | Posted by admin April 30th, 2016

biocellsLike other stressors in our lives—allergic reactions, lack of sleep, emotional duress, poor nutritional intake and excess body fat—exercise can directly affect the body’s complex immune system and produce a cascading effect of inflammatory responses.

 

Inflammation occurs at the peak of the immune response when conditions such as fever trigger the body to increase blood flow and bring in specialized immune cells to help repair and remove damaged tissues.

An acute (short-term) response to internal and external invaders is the basis of a successful immune system. However, when inflammatory stressors become chronic (long-term) and accumulate, trouble begins.

The immune system is divided into two types of responses: natural and specific. The natural response is an all-purpose first line of defense comprising cells that identify and attack a number of different invaders in a short time frame. White blood cells and other cells devour invading pathogens and initiate inflammation by releasing toxic substances that damage and then consume the invader or damaged tissue.

The second component of the immune system, the specific response, is far more complex and mostly beyond the scope of this discussion. Simply put, the specific response recognizes a specific invader, like bacteria or an allergen, and then mounts a defense against it.

This intricate protective mechanism helps maintain the biochemical balance in the body that maintains health or promotes healing. Many body systems must remain balanced for homeostasis to occur. One important example is the endocrine system, which controls much of the body’s regulating hormones, the body’s pH, body temperature and chemicals in the bloodstream, all of which are delicately balanced and vulnerable if altered for a significant length of time.

Physical & Mental Stressors

It should be noted that the immune system is well designed to handle such physical stressors as microbes, sprained ankles and hay fever. What is not clear, however, is how the immune system reacts to the accumulation of other physical stressors—poor nutrition, lack of sleep, food allergies or sensitivities, postural and joint misalignment and foreign substances.

Additionally, behavioral scientists have been examining the effect of mental and emotional stressors. Significant research has indicated that mental stressors provide as great a challenge to homeostasis as physical conditions like influenza or muscle tears.

The term allostatic load refers to the method by which the body adjusts to the combined effect of many physical and mental stressors. A high allostatic load is essentially an overload of those different stressors, creating what one researcher dubbed “a cascade of cause and effect”.

The connecting factor among physical, emotional and mental stressors occurs in an area of the brain known as the HPA axis. Consisting of the hypothalamus, pituitary gland and adrenal gland, the HPA axis serves as the body’s emergency alert system that responds to a variety of stressors by releasing hormones, such as epinephrine and norepinephrine, which prepare different body systems for action. The HPA axis also releases growth hormone (GH) and cortisol; GH helps repair tissue and promotes growth, whereas cortisol fuels the body by maintaining proper glucose and fatty acid levels.

When faced with a lot of different stressors (i.e., a high allostatic load), the intricately tuned immune system can get caught in a stress hormone–inflammation loop. Hormones are released at higher than normal levels, leading to an increase in pro-inflammatory cytokines, which, in a vicious circle, then re-stimulates the HPA axis. Cortisol levels also increase and alter the immune/ inflammation system, resulting in higher levels of inflammatory factors in the body.

Exercise & Inflammation

So how do the immune system, HPA axis and stress response all fit into the exercise and fitness equation? Exercise is a physical stressor, and the exercise stress response follows similar inflammatory physiological pathways to those activated by other physical and mental stimuli.

In fact, the response to exercise is so parallel that exercise scientists borrowed the phrase general adaptation syndrome (GAS) from Hans Selye, a behavioral scientist who pioneered much of the early extensive research on the stress response. According to Selye, stress causes a temporary decrease in function, followed by an adaptation that improves function. In order for us to improve our health, fitness or athletic ability, it is necessary to increase our efforts to fatigue-level intensities and then recover and refuel.

During exercise, the primary hormones that get released are

  • epinephrine (to increase heart rate and blood flow to the muscles)
  • norepinephrine (to raise blood pressure)
  • cortisol (to mobilize fuel sources and lower any inflammation)
  • growth hormone and glucagons (to protect blood glucose and mobilize other energy sources for fuel)

These hormones are the same as those secreted when the body is reacting to mental and emotional stressors.

If the exercise session was designed to elicit higher levels of strength or conditioning, some degree of muscle damage occurred, calling upon the immune system to respond in a number of ways, including an inflammatory response to help muscle repair. While this process promotes muscle regeneration, it can also slow the body’s ability to repair muscle tissue.

Contributing Factors for Inflammation

Many factors play a significant role in increasing body inflammation, including physical imbalances, diet, allergies, sleep deprivation, excess weight and age.

Physical Conditions. Postural and joint mal-alignments play a major role in inflammatory conditions. Exercisers who spend long periods of time sitting each day are especially vulnerable when performing certain upright movements that can create excessive friction in joint complexes. Excessive shoulder internal rotation, thoracic flexion and hip external rotation are classic seated mal-alignment issues that result in pain or damage to areas that then become inflamed.

Poor Diet. One huge contributing factor to inflammation is the Western convenience/comfort food diet, which is high in saturated and trans fats, simple carbohydrates and animal proteins. The American Dietetic Association (ADA) urges Americans to reduce their consumption of saturated and trans fatty acids to diminish risk factors for inflammation-based disorders such as cancer, cardiovascular disease, cerebral infarction and other immune disorders.. Food allergies and sensitivities also contribute to inflammation. The most common food allergies involve wheat gluten, nuts or shellfish. While less severe than allergies, food sensitivities can produce subtle inflammatory reactions to common trigger foods; for example, products made with dairy, corn, soy, wheat, sugar and nuts

Other Allergens. In addition to food, allergens such as chemicals, dust, mold or pollens can cause the body’s immune system to release chemical neurotransmitters called histamines, which trigger an inflammatory process in the blood vessels. The allergic reaction can be slight (e.g., itchy skin, runny nose) or far more serious (e.g., blood pressure drop, swelling, shortness of breath). Environmental pollutants, cleaning products and noise can also increase inflammation.

Sleep Deprivation. Lack of sleep is associated with inflammation. Sleep is a time for the body to recover and repair both mentally and physically. That’s why sleep experts recommend getting 7–9 hours nightly to function optimally. Studies indicate that this time period is critical for biochemical balance in substances like GH and cortisol.

Excess Weight. Biochemical imbalances have also been linked to inflammation caused by excess intra-abdominal fat. Beyond a certain level, excessive intra-abdominal fat produces a cortisol response, which tells the body to store fat; this begins a never-ending feedback loop.

Advanced Age. Another contributing factor is age. As we age, interleukin levels increase dramatically, which plays a role in the development of many diseases of aging, including heart disease, osteoporosis, Alzheimer’s disease and other cognitive impairment diseases.

Tailoring Exercise Programs

Research indicates that high-intensity (> 70% of maximal effort) exercise sessions lasting longer than 20–30 minutes or low-intensity (< 50%–70%) efforts lasting longer than 75 minutes can flood the body with stress and inflammation biochemical markers, initiating a cascading response. It therefore makes sense to devise a workout that stays within those time and intensity parameters.

Moderate exercise at lower intensities is the better course. Moderate exercise efforts for up to 60 minutes can actually reduce inflammatory markers, increase positive neurotransmitters (e.g., serotonin and endorphins) and improve brain chemistry. Moderate intensities also stimulate the growth of new brain cells, neurons and capillary growth to muscles and neurons.

According to most studies, exercising under the 70% effort level seems to be the baseline for reducing inflammation and stress hormone levels These reduced efforts should be combined with exercise programming design that includes myofascial release, flexibility training and corrective exercise. This type of program can help relieve stress, improve joint alignment and muscle activation and reduce the inflammatory response.

Mental Element

It is perfectly acceptable to give less of an effort and work at lower intensities during times of high stress. High-intensity, long-duration workouts are counterproductive if performed during a time of high demands and increased stress in other areas of life.

Managing the hormonal component of exercise can actually help produce gains. The outdated “no pain, no gain” approach can be detrimental to health because at best it stimulates the body to retain body fat or lose muscle mass and at worst it creates a chronic state of injury and illness.

Inflammation also supports the healing power of 7–8 hours of sleep. Sleep is critical to maintaining biochemical homeostasis. The primary function of sleep is to give the body and the mind some restorative time to help decrease systematic inflammation.

Proactive Anti-Inflammatory Strategy

Several proactive anti-inflammatory nutrition strategies that are fairly simple. For example, research has shown that inflammation can be prevented or reduced by the following:

  • adding more fruits and vegetables to the diet
  • reducing intake of trans fats and saturated fats
  • increasing intake of omega-3 fats (found in fish oils, olive oil, avocados and walnuts)
  • reducing intake of simple carbs and animal protein

Some herbs and other phytochemicals have been shown to significantly reduce inflammation in the body. For example, an active component in the herb turmeric called curcumin has been studied extensively for its ability to inhibit cancer cell growth. Ginger has exhibited the same properties. Some dietary supplements combine tumeric, ginger, rosemary, basil and other herbs to create a potent natural anti-inflammatory with no known side effects. Studies have found that this specific combination is as effective as some pharmaceutical compounds at stemming inflammation.

NSAIDs work to inhibit hormones in the body called prostaglandins, which are vital to many physiological processes but specifically cause the sensation of pain as a protective mechanism. Because these hormones are important in gastric function and because NSAIDs eliminate all prostaglandin activity, gastric distress can be a side effect. Newer studies are finding that instead of speeding recovery from muscular injury, ingestion of traditional NSAIDs may actually slow the process for several days as protein synthesis (tissue healing) is delayed.

Common types of traditional NSAIDs include aspirin, ibuprofen, naproxen, ketoprofen and indomethacin. It should be noted that while acetaminophen (Tylenol™) is classified as an NSAID, it exhibits little or no anti-inflammatory effects despite its analgesic properties.

Reference:   IDEA Health & Fitness Association     http://www.ideafit.com

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.

 

Decrease Oxidative Stress Naturally in Healthy Older Men and Women?

anti-aging, disease, Free Radicals, nutrition, Recovery - Repair | Posted by admin November 8th, 2013

Compared with young adults, older adults have significantly impaired capacities to resist oxidative damage when faced with acute stress such as ischemia/reperfusion. This impairment likely contributes to increased morbidity and mortality in older adults in response to acute trauma, infections, and the susceptibility to diseases such as atherosclerosis, cancer, diabetes, and Alzheimer’s disease.  Consumption of foods high in polyphenols, particularly anthocyanins, have been associated with improved health, but the mechanisms contributing to these salutary effects remain to be fully established.

A study tested the hypothesis that consumption of tart cherry juice containing high levels of anthocyanins improves the capacity of older adults to resist oxidative damage during acute oxidative stress. In a double-blind, placebo-controlled, crossover design, data suggests that consumption of tart cherry juice improves antioxidant defenses in vivo in older adults as shown by an increased capacity to constrain an oxidative challenge and reduced oxidative damage to nucleic acids.

Oxidative stress, defined as an imbalance between the rate of formation and the rate of clearance of reactive oxygen and nitrogen species (RONS), is thought to be a key mechanism in the aging process and in a variety of age-related chronic diseases, including atherosclerosis, cancer, diabetes, and Alzheimer’s disease.

Research has recently shown that healthy older adults have an impaired capacity to resist oxidative damage after exposure to an acute stress compared with young adults.  This impairment may account for the greater morbidity and mortality of older adults compared with young adults during trauma, infections, or surgery, as well as their increased susceptibility to cardiovascular and neurodegenerative disease.   Acute stress increases production of reactive oxygen species and frequently occurs in acute events that afflict older adults such as trauma, cardiovascular disease, and surgery.

The antioxidative capacity of older adults appears to be sufficient to maintain homeostasis in non-stressed conditions, but insufficient to cope with a substantial oxidative challenge. Therefore, identifying interventions that improve resistance to oxidative damage during an acute challenge might be of great potential value in decreasing morbidity and mortality in older adults, even if these interventions do not affect basal levels of oxidation.

It has been proposed that the antioxidant activities of fruits and vegetables come from the additive and synergistic effects of their phytonutrients and that isolated dietary supplements do not exhibit these same benefits.  Therefore, an intervention that would provide a natural blend of phytonutrients lead to Tart cherries which have high levels of antioxidants in the form of phenolic compounds and anthocyanins.  Diets rich in polyphenols, especially anthocyanins, have been shown to increase resistance to oxidation in research models.

Because anthocyanins can activate xenobiotic responses, including expression of a plethora of antioxidant response genes, it is hypothesized that increasing the dietary intake of diverse antioxidants, such as those contained in tart cherry juice, would increase resistance to oxidative damage after an acute stress, an effect that could potentially dramatically improve resistance to morbidity and mortality in older adults.

The conclusion of the data from a placebo-controlled, crossover study demonstrated that a dietary antioxidant intervention through consumption of tart cherry juice improves antioxidant defenses in vivo in older adults as shown by an increased capacity to resist oxidative damage after an acute stress and reduced oxidative damage to nucleic acids. The results also highlighted the observation that various markers of oxidative damage may reflect different mechanisms of resistance to oxidative damage.

 

References:   The Journal of Nutritionhttp://jn.nutrition.org
published online August 19, 2009; doi:10.3945/jn.109.111716
research study conducted –
Kronos Longevity Research Institute, Phoenix, AZ; 5Kronos Science Laboratory, Phoenix, AZ 85016; and Vanderbilt University School of Medicine, Nashville, TN 37232

Immune System Response, Exercise and Inflammation

anti-aging, disease, Fitness, nutrition, obesity, Recovery - Repair | Posted by admin December 17th, 2012

Exercise can help boost the body’s immune system. Physical activity can actually produce an inflammatory response, leading to chronic inflammation?

Like other stressors in our lives—allergic reactions, lack of sleep, emotional duress, poor nutritional intake and excess body fat—exercise can directly affect the body’s complex immune system and produce a cascading effect of inflammatory responses.

Inflammation occurs at the peak of the immune response when conditions such as fever trigger the body to increase blood flow and bring in specialized immune cells to help repair and remove damaged tissues.

An acute (short-term) response to internal and external invaders is the basis of a successful immune system. However, when inflammatory stressors become chronic (long-term) and accumulate, trouble begins.

The immune system is divided into two types of responses: natural and specific. The natural response is an all-purpose first line of defense comprising cells that identify and attack a number of different invaders in a short time frame. White blood cells and other cells devour invading pathogens and initiate inflammation by releasing toxic substances that damage and then consume the invader or damaged tissue.

The second component of the immune system, the specific response, is far more complex and mostly beyond the scope of this discussion. Simply put, the specific response recognizes a specific invader, like bacteria or an allergen, and then mounts a defense against it.

This intricate protective mechanism helps maintain the biochemical balance in the body that maintains health or promotes healing. Many body systems must remain balanced for homeostasis to occur. One important example is the endocrine system, which controls much of the body’s regulating hormones, the body’s pH, body temperature and chemicals in the bloodstream, all of which are delicately balanced and vulnerable if altered for a significant length of time.

Physical & Mental Stressors

It should be noted that the immune system is well designed to handle such physical stressors as microbes, sprained ankles and hay fever. What is not clear, however, is how the immune system reacts to the accumulation of other physical stressors—poor nutrition, lack of sleep, food allergies or sensitivities, postural and joint misalignment and foreign substances.

Additionally, behavioral scientists have been examining the effect of mental and emotional stressors. Significant research has indicated that mental stressors provide as great a challenge to homeostasis as physical conditions like influenza or muscle tears.

The term allostatic load refers to the method by which the body adjusts to the combined effect of many physical and mental stressors. A high allostatic load is essentially an overload of those different stressors, creating what one researcher dubbed “a cascade of cause and effect”.

The connecting factor among physical, emotional and mental stressors occurs in an area of the brain known as the HPA axis. Consisting of the hypothalamus, pituitary gland and adrenal gland, the HPA axis serves as the body’s emergency alert system that responds to a variety of stressors by releasing hormones, such as epinephrine and norepinephrine, which prepare different body systems for action. The HPA axis also releases growth hormone (GH) and cortisol; GH helps repair tissue and promotes growth, whereas cortisol fuels the body by maintaining proper glucose and fatty acid levels.

When faced with a lot of different stressors (i.e., a high allostatic load), the intricately tuned immune system can get caught in a stress hormone–inflammation loop. Hormones are released at higher than normal levels, leading to an increase in pro-inflammatory cytokines, which, in a vicious circle, then re-stimulates the HPA axis. Cortisol levels also increase and alter the immune/ inflammation system, resulting in higher levels of inflammatory factors in the body.

Exercise & Inflammation

So how do the immune system, HPA axis and stress response all fit into the exercise and fitness equation? Exercise is a physical stressor, and the exercise stress response follows similar inflammatory physiological pathways to those activated by other physical and mental stimuli.

In fact, the response to exercise is so parallel that exercise scientists borrowed the phrase general adaptation syndrome (GAS) from Hans Selye, a behavioral scientist who pioneered much of the early extensive research on the stress response. According to Selye, stress causes a temporary decrease in function, followed by an adaptation that improves function. In order for us to improve our health, fitness or athletic ability, it is necessary to increase our efforts to fatigue-level intensities and then recover and refuel.

During exercise, the primary hormones that get released are

  • epinephrine (to increase heart rate and blood flow to the muscles)
  • norepinephrine (to raise blood pressure)
  • cortisol (to mobilize fuel sources and lower any inflammation)
  • growth hormone and glucagons (to protect blood glucose and mobilize other energy sources for fuel)

These hormones are the same as those secreted when the body is reacting to mental and emotional stressors.

If the exercise session was designed to elicit higher levels of strength or conditioning, some degree of muscle damage occurred, calling upon the immune system to respond in a number of ways, including an inflammatory response to help muscle repair. While this process promotes muscle regeneration, it can also slow the body’s ability to repair muscle tissue.

Contributing Factors for Inflammation

Many factors play a significant role in increasing body inflammation, including physical imbalances, diet, allergies, sleep deprivation, excess weight and age.

Physical Conditions. Postural and joint mal-alignments play a major role in inflammatory conditions. Exercisers who spend long periods of time sitting each day are especially vulnerable when performing certain upright movements that can create excessive friction in joint complexes. Excessive shoulder internal rotation, thoracic flexion and hip external rotation are classic seated mal-alignment issues that result in pain or damage to areas that then become inflamed.

Poor Diet. One huge contributing factor to inflammation is the Western convenience/comfort food diet, which is high in saturated and trans fats, simple carbohydrates and animal proteins. The American Dietetic Association (ADA) urges Americans to reduce their consumption of saturated and trans fatty acids to diminish risk factors for inflammation-based disorders such as cancer, cardiovascular disease, cerebral infarction and other immune disorders.. Food allergies and sensitivities also contribute to inflammation. The most common food allergies involve wheat gluten, nuts or shellfish. While less severe than allergies, food sensitivities can produce subtle inflammatory reactions to common trigger foods; for example, products made with dairy, corn, soy, wheat, sugar and nuts

Other Allergens. In addition to food, allergens such as chemicals, dust, mold or pollens can cause the body’s immune system to release chemical neurotransmitters called histamines, which trigger an inflammatory process in the blood vessels. The allergic reaction can be slight (e.g., itchy skin, runny nose) or far more serious (e.g., blood pressure drop, swelling, shortness of breath). Environmental pollutants, cleaning products and noise can also increase inflammation.

Sleep Deprivation. Lack of sleep is associated with inflammation. Sleep is a time for the body to recover and repair both mentally and physically. That’s why sleep experts recommend getting 7–9 hours nightly to function optimally. Studies indicate that this time period is critical for biochemical balance in substances like GH and cortisol.

Excess Weight. Biochemical imbalances have also been linked to inflammation caused by excess intra-abdominal fat. Beyond a certain level, excessive intra-abdominal fat produces a cortisol response, which tells the body to store fat; this begins a never-ending feedback loop.

Advanced Age. Another contributing factor is age. As we age, interleukin levels increase dramatically, which plays a role in the development of many diseases of aging, including heart disease, osteoporosis, Alzheimer’s disease and other cognitive impairment diseases.

Tailoring Exercise Programs

Research indicates that high-intensity (> 70% of maximal effort) exercise sessions lasting longer than 20–30 minutes or low-intensity (< 50%–70%) efforts lasting longer than 75 minutes can flood the body with stress and inflammation biochemical markers, initiating a cascading response. It therefore makes sense to devise a workout that stays within those time and intensity parameters.

Moderate exercise at lower intensities is the better course. Moderate exercise efforts for up to 60 minutes can actually reduce inflammatory markers, increase positive neurotransmitters (e.g., serotonin and endorphins) and improve brain chemistry. Moderate intensities also stimulate the growth of new brain cells, neurons and capillary growth to muscles and neurons.

According to most studies, exercising under the 70% effort level seems to be the baseline for reducing inflammation and stress hormone levels These reduced efforts should be combined with exercise programming design that includes myofascial release, flexibility training and corrective exercise. This type of program can help relieve stress, improve joint alignment and muscle activation and reduce the inflammatory response.

Mental Element

It is perfectly acceptable to give less of an effort and work at lower intensities during times of high stress. High-intensity, long-duration workouts are counterproductive if performed during a time of high demands and increased stress in other areas of life.

Managing the hormonal component of exercise can actually help produce gains. The outdated “no pain, no gain” approach can be detrimental to health because at best it stimulates the body to retain body fat or lose muscle mass and at worst it creates a chronic state of injury and illness.

Inflammation also supports the healing power of 7–8 hours of sleep. Sleep is critical to maintaining biochemical homeostasis. The primary function of sleep is to give the body and the mind some restorative time to help decrease systematic inflammation.

Proactive Anti-Inflammatory Strategy

Several proactive anti-inflammatory nutrition strategies that are fairly simple. For example, research has shown that inflammation can be prevented or reduced by the following:

  • adding more fruits and vegetables to the diet
  • reducing intake of trans fats and saturated fats
  • increasing intake of omega-3 fats (found in fish oils, olive oil, avocados and walnuts)
  • reducing intake of simple carbs and animal protein

Some herbs and other phytochemicals have been shown to significantly reduce inflammation in the body. For example, an active component in the herb turmeric called curcumin has been studied extensively for its ability to inhibit cancer cell growth. Ginger has exhibited the same properties. Some dietary supplements combine tumeric, ginger, rosemary, basil and other herbs to create a potent natural anti-inflammatory with no known side effects. Studies have found that this specific combination is as effective as some pharmaceutical compounds at stemming inflammation.

NSAIDs work to inhibit hormones in the body called prostaglandins, which are vital to many physiological processes but specifically cause the sensation of pain as a protective mechanism. Because these hormones are important in gastric function and because NSAIDs eliminate all prostaglandin activity, gastric distress can be a side effect. Newer studies are finding that instead of speeding recovery from muscular injury, ingestion of traditional NSAIDs may actually slow the process for several days as protein synthesis (tissue healing) is delayed.

Common types of traditional NSAIDs include aspirin, ibuprofen, naproxen, ketoprofen and indomethacin. It should be noted that while acetaminophen (Tylenol™) is classified as an NSAID, it exhibits little or no anti-inflammatory effects despite its analgesic properties.

Reference:   IDEA Health & Fitness Association     http://www.ideafit.com

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

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

Natural Anti-Inflammatory – Cherries & Exercise Muscle Pain

Free Radicals, nutrition, performance, Recovery - Repair | Posted by admin December 30th, 2010

Drinking cherry juice could help ease the pain for people who run, according to new research from Oregon Health & Science University presented at the American College of Sports Medicine Conference in Seattle, Wash. The study showed people who drank tart cherry juice while training for a long distance run reported significantly less pain after exercise than those who didn’t. Post-exercise pain can often indicate muscle damage or debilitating injuries.

In the study of sixty healthy adults aged 18-50 years, those who drank 10.5 ounces cherry juice (100% tart cherry juice) twice a day for seven days prior to and on the day of a long-distance relay had significantly less muscle pain following the race than those who drank another fruit juice beverage. On a scale from 0 to 10, the runners who drank cherry juice as their “sports drink” had a 2 point lower self-reported pain level at the completion of the race, a clinically significant difference. While more research is needed to fully understand the effects of tart cherry juice, researchers say the early finding indicate cherries may work like common medications used by runners to alleviate post-exercise inflammation. “For most runners, post-race treatment consists of RICE (rest, ice, compression and elevation) and traditional NSAIDS (non-steroidal anti-inflammatory drugs),” said Kerry Kuehl, M.D., a sports medicine physician and principal study investigator. “But NSAIDS can have adverse effects – negative effects you may be able to avoid by using a natural, whole food alternative, like cherry juice, to reduce muscle inflammation before exercise.”

The researchers suggest cherries’ post-exercise benefits are likely because of the fruit’s natural anti-inflammation power – attributed to antioxidant compounds called anthocyanins, which also give cherries their bright red color. Whether elite athletes or weekend warriors, this natural anti-inflammation power of cherry juice could have far-reaching benefits for the millions of active Americans currently taking over-the-counter pain medications to reduce muscle pain and beyond. A growing body of research suggests cherries could affect inflammation related to heart disease, arthritis and may even help maintain muscle strength for those suffering from fibromyalgia (a common, chronic widespread pain disorder), according to a second study presented by the same researchers at the ACSM conference.

It’s Easy to Enjoy “America’s Super Fruit” Cherries are not only good for you, but they’re also a homegrown “Super Fruit.” According to recent data, more than 9 out of 10 Americans want to know where their food comes from, nearly 80 percent say they’re purchasing “locally produced” products, and the majority are defining “local” as made in America. This homegrown advantage, coupled with potential health benefits for athletes, make cherries “America’s Super Fruit.” Tart cherries come in dried, frozen and juice forms so they’re readily available to enjoy all year long.

Kuehl KS, Chestnutt J, Elliot DL, Lilley C. Efficacy of tart cherry juice in reducing muscle pain after strenuous exercise. American College of Sports Medicine. 851. May, 2009.

Jones KD, Elliot DL, Kuehl KS, Dulacki K. Tart cherry juice for fibromyalgia: new testing paradigm and subgroup benefits. American College of Sports Medicine. 852. May, 2009.

Surveys conducted IRI Data and The Hartman Group, 2008 Source:
Caitlin Solway
Weber Shandwick Worldwide

Sugar is poison to the human body? . . . Why?

anti-aging, Fitness, nutrition, Recovery - Repair | Posted by admin October 13th, 2010

Sugar’s toxic wrath is in part due to its composition as a purely refined carbohydrate.  It is a chemical.  Our bodies cannot utilize this poison because it has been stripped of all vitamins, minerals, and all other nutrients that help your body create optimum health. What occurs when sugar is ingested is a balancing act that takes place inside our bodies.

Because balance or homeostasis is so essential to our bodies, the minerals sodium, potassium, magnesium and calcium are utilized to create this balance.  For example, in order to neutralize the blood from sugar (sugar creates an acidic body), calcium is taken from the bones and teeth, thus, decay and osteoporosis may occur.  If sugar is consumed every day, our bodies eventually will be depleted of these very important minerals and lead to mineral deficiencies that depletes your health and weakens your defenses against disease. This process allows the generation of dreaded free-radicals to cause major damage.  

(Free-radicals lead to cell destruction and single nucleotide polymorphisms at replication during new body cell regeneration)

Excess sugar affects every single organ in the body – including the liver. The liver is where sugar is stored in the form of glycogen (glucose complex).  Eventually, if sugar is consumed every day, your liver will be unable to store the excess sugar and is returned to the blood in the form of fatty acids.  Guess where those fatty acids are stored?  They are stored in the most inactive areas: The belly, the buttocks, the breasts and the thighs.  After these areas have been filled-up, the fatty acids then get distributed to organs such as the heart and kidneys.

Sugar hinders the body’s immune system and predisposes people to illness and disease.  Our white blood cells are adversely affected. Here are just some health conditions associated with over-consumption of sugar: Obesity, cancer, aging, cardiovascular disease, high blood pressure, adult-onset type II diabetes, eczema, kidney stones, depression, Candida (yeast over-growth), anxiety, dental cavities, atherosclerosis, poor brain function and countless other conditions.

Cancer is affected by sugar due to the cancer cell’s main source of fuel:  Glucose. By controlling blood glucose, the cancer cells are starved for fuel and the immune system is bolstered.

We think of sugar as the granulated white stuff, but it can be disguised in many forms such as: corn syrup, fructose, sucrose, lactose, molasses, honey, maltose, fruit juice and many other forms. It is essential that we become aware of the hidden sources of sugar found in processed foods.  In order to achieve optimum health, it is essential to mindfully choose whole grains, fruits, vegetables, lower stress levels, exercise and avoid sugar as much as possible.

Reference: Lori L. Shemek, PhD, CNC, CLC has devoted the past 20 years, practicing and teaching others about the principles of nutrition. As an Author, Health Expert and Speaker, Dr. Shemek combines her background in Psychology with a lifetime of practicing natural and preventive wellness to create optimum health for her clients at every level of health. Dr. Shemek holds a Doctorate in Psychology, she is a Certified Nutritional Consultant, and a Certified Life Coach. Dr. Shemek is the Founder and President of DLS HealthWorks, LLC.  http://www.dlsHealthWorks.com

Nutrition – Athletic Performance – Enhances Injury Recovery

nutrition, performance, Recovery - Repair | Posted by admin December 7th, 2009

Scholastic, professional, and recreational athletes may be surprised to learn that nutrition can play a major role in enhancing both performance and the healing of sports injuries.

While ice packs, bandages, rest, and physical therapy are significant in both the short and long-term treatment of injuries such as sprains, strains, cuts and bruises, swelling, and broken bones, researchers are discovering that what an athlete consumes after injury and during the treatment phase can either promote recovery or sometimes delay healing.

The nutrition can not only affect injury rehabilitation positively or negatively, but also aid or hinder the recovery of general and / or chronic muscle or joint soreness following intense exercise workouts, practices, and games. Anti-inflammatory foods and beverages can contribute to the healing of sports injuries are also excellent for post workout / post practice / post game muscle and joint recovery.

The following foods and beverages that have anti-inflammatory qualities and may even accelerate recovery from sports-related or non-athletic injuries:

Grapes, blueberries, strawberries, oranges, kiwis, olive oil, celery, ginger, garlic, curry powder, eggplant, nuts, tuna, salmon, mackerel, black and green tea, and red wine and beer (only when consumed in moderation with food and no more than two alcoholic drinks per day).
Foods rich in vitamin C (citrus fruits, strawberries, kiwis, peppers) and vitamin E (nuts, olive oil) have anti-inflammatory effects. Omega-3 rich fish oil and fatty salt-water fish (salmon, tuna, mackerel) also fight inflammation, besides the wide-spread publicity in recent years of such fish benefiting both heart and brain health.

Another food that has been shown to reduce inflammation is the herb turmeric which is an even better anti-inflammatory than cortisone, one of the most powerful of the steroids.”

Curcumin is found in curry powder, another anti-inflammatory source. Athletes and non-athletes alike who experience chronic shoulder, back and knee pain, for example, may take note of curcumin’s powerful role in easing inflammation.

Another wonderful anti-inflammatory food is eggplant which “contains the important mineral potassium, as well as phytochemicals that have antihistaminic, anti-inflammatory and antioxidant qualities.”

To reduce inflammation, athletes and non-athletes must focus on the #1 beverage: drink ample amounts of plain water in practices and games, both in solid form (when ice packs are applied immediately following an injury to prevent inflammation such as swelling) and in liquid form to hasten recovery during injury rehabilitation as well as help heal chronic joint and back pain.

While water might be king beverage on and off the athletic field, athletes and non-athletes should take advantage of the possible anti-inflammatory capacity of another bodybuilding beverage: milk.
Athletes and non-athletes should also monitor their protein intake and note that high-protein diets boost inflammation.

Another area in which nutrition affects inflammation is overeating or consuming excess calories contributing to either obesity or simply becoming overweight with more body fat than lean muscle.
In general, what an athlete consumes in the hours, days and weeks following an injury may indeed determine how fast he or she returns to action. Some foods and beverages can prevent or reduce inflammation, thus speeding the healing process.

To help the athlete on a quicker road to recovery, some simple anti-inflammatory meals may be just what the doctor ordered.

We support Prevention vs Prescriptions:
GoTo: Prevention not Prescriptions

Natural Anti-Inflammatory – Cherries & Post-Exercise Muscle Pain

Recovery - Repair | Posted by admin October 11th, 2009

Drinking cherry juice could help ease the pain for people who run, according to new research from Oregon Health & Science University presented at the American College of Sports Medicine Conference in Seattle, Wash. The study showed people who drank tart cherry juice while training for a long distance run reported significantly less pain after exercise than those who didn’t. Post-exercise pain can often indicate muscle damage or debilitating injuries.

In the study of sixty healthy adults aged 18-50 years, those who drank 10.5 ounces cherry juice (100% tart cherry juice) twice a day for seven days prior to and on the day of a long-distance relay had significantly less muscle pain following the race than those who drank another fruit juice beverage. On a scale from 0 to 10, the runners who drank cherry juice as their “sports drink” had a 2 point lower self-reported pain level at the completion of the race, a clinically significant difference. While more research is needed to fully understand the effects of tart cherry juice, researchers say the early finding indicate cherries may work like common medications used by runners to alleviate post-exercise inflammation. “For most runners, post-race treatment consists of RICE (rest, ice, compression and elevation) and traditional NSAIDS (non-steroidal anti-inflammatory drugs),” said Kerry Kuehl, M.D., a sports medicine physician and principal study investigator. “But NSAIDS can have adverse effects – negative effects you may be able to avoid by using a natural, whole food alternative, like cherry juice, to reduce muscle inflammation before exercise.”

The researchers suggest cherries’ post-exercise benefits are likely because of the fruit’s natural anti-inflammation power – attributed to antioxidant compounds called anthocyanins, which also give cherries their bright red color. Whether elite athletes or weekend warriors, this natural anti-inflammation power of cherry juice could have far-reaching benefits for the millions of active Americans currently taking over-the-counter pain medications to reduce muscle pain and beyond. A growing body of research suggests cherries could affect inflammation related to heart disease, arthritis and may even help maintain muscle strength for those suffering from fibromyalgia (a common, chronic widespread pain disorder), according to a second study presented by the same researchers at the ACSM conference.

It’s Easy to Enjoy “America’s Super Fruit” Cherries are not only good for you, but they’re also a homegrown “Super Fruit.” According to recent data, more than 9 out of 10 Americans want to know where their food comes from, nearly 80 percent say they’re purchasing
“locally produced” products, and the majority are defining “local” as made in America. This homegrown advantage, coupled with potential health benefits for athletes, make cherries “America’s Super Fruit.” Tart cherries come in dried, frozen and juice forms so they’re readily available to enjoy all year long.

Kuehl KS, Chestnutt J, Elliot DL, Lilley C. Efficacy of tart cherry juice in reducing muscle pain after strenuous exercise. American College of Sports Medicine. 851. May, 2009.

Jones KD, Elliot DL, Kuehl KS, Dulacki K. Tart cherry juice for fibromyalgia: new testing paradigm and subgroup benefits. American College of Sports Medicine. 852. May, 2009.

Surveys conducted IRI Data and The Hartman Group, 2008 Source:
Caitlin Solway
Weber Shandwick Worldwide