In cacao zit een duursportdrug
In cacao zit een duursportdrug
donderdag 30 september 2010
Secret Weight Loss - Xocai on Tour
i left Xocai as a The First Silver in the Netherlands for a better Organic Healthy Fairtrade Healthy Chocolate "Choconat"with a better payplan and more integer leaders and experts in the MLM biz for more then 20 Years.
So if you are in xocai and happy don't see this video.
Succes With your Xocai Business.
Peter Langelaar
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i leftXocaias a The First Silver in the Netherlands for a better Organic Healthy Fairtrade Healthy Chocolate "Choconat"with a better payplan and more integer leaders and experts in the MLM biz for more then 20 Years.
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woensdag 29 september 2010
Dr. Warren - Effects of Fiber in X Protein http://bit.ly/aydhYK order it here or contact me if you live in Europe Dark Chocolate weight
Dr. Warren - Effects of Fiber in X Protein
High-Antioxidant Wellness System
To help you to lose weight,become more beautiful,and improve your health.
To help you to lose weight,become more beautiful,and improve your health.
Boosting brain power -- with Dark High Flavonoid chocolate Professor Ian Macdonald http://bit.ly/awC35E
Clinical Studies on the Benefits of Chocolate
Boosting brain power -- with chocolate
Professor Ian Macdonald
School of Biomedical Sciences, University of Nottingham.
ABSTRACT: Eating chocolate could help to sharpen up the mind and give a short-term boost to cognitive skills, a University of Nottingham expert has found.
A study led by Professor Ian Macdonald found that consumption of a cocoa drink rich in flavanols -- a key ingredient of dark chocolate -- boosts blood flow to key areas of the brain for two to three hours.
Increased blood flow to these areas of the brain may help to increase performance in specific tasks and boost general alertness over a short period.
The findings, unveiled at one of the biggest scientific conferences in America, also raise the prospect of ingredients in chocolate being used to treat vascular impairment, including dementia and strokes, and thus for maintaining cardiovascular health.
The study also suggests that the cocoa flavanols found in chocolate could be useful in enhancing brain function for people fighting fatigue, sleep deprivation, and even the effects of ageing.
Ian Macdonald, professor of metabolic physiology at The University of Nottingham, used magnetic resonance imaging (MRI) to detect increased activity in specific areas of the brain in individuals who had consumed a single drink of flavanol-rich cocoa. The effect is linked to dilation of cerebral blood vessels, allowing more blood -- and therefore more oxygen -- to reach key areas of the brain.
Flavanols are not only found in chocolate with a high cocoa content -- they are also present in other substances such as red wine, green tea and blueberries.
He presented his research at the annual meeting of the American Association for the Advancement of Science (AAAS), one of the biggest annual gatherings of scientists from all over the world.
Professor Macdonald said: "Acute consumption of this particular flavanol-rich cocoa beverage was associated with increased grey matter flow for two to three hours."
"The demonstration of an effect of consuming this particular beverage on cerebral blood flow raises the possibility that certain food ingredients may be beneficial in increasing brain blood flow and enhancing brain function, in situations where individuals are cognitively impaired such as fatigue, sleep deprivation, or possibly ageing."
He emphasised that the level of cocoa flavanol used in the study is not available commercially. The cocoa-rich flavanol beverage was specially formulated for the purpose of the study.
Co-authors on the research were Dr Susan Francis, research associate Kay Head, and Professor Peter Morris, all from The University of Nottingham’s School of Physics and Astronomy.
Professor Macdonald is a member of the Food Standards Agency’s Scientific Advisory Committee on Nutrition, and is President-Elect of the UK Nutrition Society. His main research interests are concerned with the functional consequences of metabolic and nutritional disturbances in health and disease, with specific interests in obesity, diabetes, cardiovascular disease and exercise.
The AAAS, founded in 1848, is the world’s largest general scientific society and publisher of the prestigious international journal Science. Its annual conference draws up to 10,000 attendees.
The emerging role of flavonoid-rich cocoa and chocolate in cardiovascular health and disease
Engler MB, Engler MM.
Department of Physiological Nursing, Laboratory of Cardiovascular Physiology, University of California, San Francisco, California.
ABSTRACT: Cocoa and chocolate have recently been found to be rich plant-derived sources of antioxidant flavonoids with beneficial cardiovascular properties. These favorable physiological effects include: antioxidant activity, vasodilation and blood pressure reduction, inhibition of platelet activity, and decreased inflammation. Increasing evidence from experimental and clinical studies using cocoa-derived products and chocolate suggest an important role for these high-flavanol-containing foods in heart and vascular protection.
Nutrition Reviews;64(3):109-118.
Effect of dark chocolate on arterial function in healthy individuals
Vlachopoulos C, Alexopoulos N, Stefanadis C.
Hypertension Unit and Peripheral Vessels Unit, 1st Cardiology Department, Athens Medical School, Athens, Greece.
ABSTRACT: Cocoa has been consumed for at least 2500 years, and for a long time it has been regarded as a medicine. Arterial function is of paramount importance for the proper function and integrity of the cardiovascular system. Dark chocolate and flavonoid-rich cocoa have beneficial acute and short-term effects on endothelial function and wave reflections in normal individuals, in adults with cardiovascular risk factors, and in patients with coronary artery disease. Furthermore, dark chocolate and flavonoid-rich cocoa may have a blood pressure-lowering effect. These effects can be attributed to flavonoids and are mainly mediated through increased nitric oxide bioavailability. Further research is needed to demonstrate whether these effects of chocolate on arterial function are translated into clinical benefit.
Current Hypertension Reports;8(3):205-11.
Cocoa and chocolate flavonoids: implications for cardiovascular health
Steinberg FM, Bearden MM, Keen CL
Didactic Program in Dietetics, Department of Nutrition, University of California, Davis, California.
ABSTRACT: This paper offers a review of current scientific research regarding the potential cardiovascular health benefits of flavonoids found in cocoa and chocolate. Recent reports indicate that the main flavonoids found in cocoa, flavan-3-ols and their oligomeric derivatives, procyanidins, have a variety of beneficial actions, including antioxidant protection and modulation of vascular homeostasis [balance between blood clot formation and prevention]. These findings are supported by similar research on other flavonoid-rich foods. Other constituents in cocoa and chocolate that may also influence cardiovascular health are briefly reviewed. The lipid content of chocolate is relatively high; however, one third of the lipid in cocoa butter is composed of the fat stearic acid, which exerts a neutral cholesterolemic response in humans. Cocoa and chocolate contribute to trace mineral intake, which is necessary for optimum functioning of all biologic systems and for vascular tone. Thus, multiple components in chocolate, particularly flavonoids, can contribute to the complex interplay of nutrition and health. Applications of this knowledge include recommendations by health professionals to encourage individuals to consume a wide range of phytochemical-rich foods, which can include dark chocolate in moderate amounts.
Journal of the American Dietetic Association;103(2):215-23.
Professor Ian Macdonald
School of Biomedical Sciences, University of Nottingham.
ABSTRACT: Eating chocolate could help to sharpen up the mind and give a short-term boost to cognitive skills, a University of Nottingham expert has found.
A study led by Professor Ian Macdonald found that consumption of a cocoa drink rich in flavanols -- a key ingredient of dark chocolate -- boosts blood flow to key areas of the brain for two to three hours.
Increased blood flow to these areas of the brain may help to increase performance in specific tasks and boost general alertness over a short period.
The findings, unveiled at one of the biggest scientific conferences in America, also raise the prospect of ingredients in chocolate being used to treat vascular impairment, including dementia and strokes, and thus for maintaining cardiovascular health.
The study also suggests that the cocoa flavanols found in chocolate could be useful in enhancing brain function for people fighting fatigue, sleep deprivation, and even the effects of ageing.
Ian Macdonald, professor of metabolic physiology at The University of Nottingham, used magnetic resonance imaging (MRI) to detect increased activity in specific areas of the brain in individuals who had consumed a single drink of flavanol-rich cocoa. The effect is linked to dilation of cerebral blood vessels, allowing more blood -- and therefore more oxygen -- to reach key areas of the brain.
Flavanols are not only found in chocolate with a high cocoa content -- they are also present in other substances such as red wine, green tea and blueberries.
He presented his research at the annual meeting of the American Association for the Advancement of Science (AAAS), one of the biggest annual gatherings of scientists from all over the world.
Professor Macdonald said: "Acute consumption of this particular flavanol-rich cocoa beverage was associated with increased grey matter flow for two to three hours."
"The demonstration of an effect of consuming this particular beverage on cerebral blood flow raises the possibility that certain food ingredients may be beneficial in increasing brain blood flow and enhancing brain function, in situations where individuals are cognitively impaired such as fatigue, sleep deprivation, or possibly ageing."
He emphasised that the level of cocoa flavanol used in the study is not available commercially. The cocoa-rich flavanol beverage was specially formulated for the purpose of the study.
Co-authors on the research were Dr Susan Francis, research associate Kay Head, and Professor Peter Morris, all from The University of Nottingham’s School of Physics and Astronomy.
Professor Macdonald is a member of the Food Standards Agency’s Scientific Advisory Committee on Nutrition, and is President-Elect of the UK Nutrition Society. His main research interests are concerned with the functional consequences of metabolic and nutritional disturbances in health and disease, with specific interests in obesity, diabetes, cardiovascular disease and exercise.
The AAAS, founded in 1848, is the world’s largest general scientific society and publisher of the prestigious international journal Science. Its annual conference draws up to 10,000 attendees.
The emerging role of flavonoid-rich cocoa and chocolate in cardiovascular health and disease
Engler MB, Engler MM.
Department of Physiological Nursing, Laboratory of Cardiovascular Physiology, University of California, San Francisco, California.
ABSTRACT: Cocoa and chocolate have recently been found to be rich plant-derived sources of antioxidant flavonoids with beneficial cardiovascular properties. These favorable physiological effects include: antioxidant activity, vasodilation and blood pressure reduction, inhibition of platelet activity, and decreased inflammation. Increasing evidence from experimental and clinical studies using cocoa-derived products and chocolate suggest an important role for these high-flavanol-containing foods in heart and vascular protection.
Nutrition Reviews;64(3):109-118.
Effect of dark chocolate on arterial function in healthy individuals
Vlachopoulos C, Alexopoulos N, Stefanadis C.
Hypertension Unit and Peripheral Vessels Unit, 1st Cardiology Department, Athens Medical School, Athens, Greece.
ABSTRACT: Cocoa has been consumed for at least 2500 years, and for a long time it has been regarded as a medicine. Arterial function is of paramount importance for the proper function and integrity of the cardiovascular system. Dark chocolate and flavonoid-rich cocoa have beneficial acute and short-term effects on endothelial function and wave reflections in normal individuals, in adults with cardiovascular risk factors, and in patients with coronary artery disease. Furthermore, dark chocolate and flavonoid-rich cocoa may have a blood pressure-lowering effect. These effects can be attributed to flavonoids and are mainly mediated through increased nitric oxide bioavailability. Further research is needed to demonstrate whether these effects of chocolate on arterial function are translated into clinical benefit.
Current Hypertension Reports;8(3):205-11.
Cocoa and chocolate flavonoids: implications for cardiovascular health
Steinberg FM, Bearden MM, Keen CL
Didactic Program in Dietetics, Department of Nutrition, University of California, Davis, California.
ABSTRACT: This paper offers a review of current scientific research regarding the potential cardiovascular health benefits of flavonoids found in cocoa and chocolate. Recent reports indicate that the main flavonoids found in cocoa, flavan-3-ols and their oligomeric derivatives, procyanidins, have a variety of beneficial actions, including antioxidant protection and modulation of vascular homeostasis [balance between blood clot formation and prevention]. These findings are supported by similar research on other flavonoid-rich foods. Other constituents in cocoa and chocolate that may also influence cardiovascular health are briefly reviewed. The lipid content of chocolate is relatively high; however, one third of the lipid in cocoa butter is composed of the fat stearic acid, which exerts a neutral cholesterolemic response in humans. Cocoa and chocolate contribute to trace mineral intake, which is necessary for optimum functioning of all biologic systems and for vascular tone. Thus, multiple components in chocolate, particularly flavonoids, can contribute to the complex interplay of nutrition and health. Applications of this knowledge include recommendations by health professionals to encourage individuals to consume a wide range of phytochemical-rich foods, which can include dark chocolate in moderate amounts.
Journal of the American Dietetic Association;103(2):215-23.
The Science of Xoçai™ The question is always, "How can chocolate possibly be healthy?" http://ping.fm/TPoet
"How can dark chocolate possibly be healthy?" http://bit.ly/albray more info at www.xocohealth.eu probiotics health diet weightloss
The Science of Xoçai™ The question is always, "How can chocolate possibly be healthy?"
The Science of Xoçai™
The question is always, "How can chocolate possibly be healthy?"
Dr. Steven Warren, MD, DPA, FABFP, FABHPM explains the reason Dark Chocolate is so healthy and the benefits of taking Xoçai™ daily as a part of a balanced diet.
The question is always, "How can chocolate possibly be healthy?"
Dr. Steven Warren, MD, DPA, FABFP, FABHPM explains the reason Dark Chocolate is so healthy and the benefits of taking Xoçai™ daily as a part of a balanced diet.
dinsdag 28 september 2010
Hairgrow back with New High Proteine Meal liten to this call at 3 min Dr Steve warren http://bit.ly/a12IOi get it at www.xocohealth.com
maandag 27 september 2010
Looking for Generic Network Marketing Training? Welcome to @NetworkingTimes ! http://ping.fm/BTt4D @JosephineGross
Een opmerkelijk verhaal van iemand die kanker overleefde http://bit.ly/94WEEo video http://ping.fm/8eoCq
Een opmerkelijk verhaal van iemand die kanker overleefde http://bit.ly/94WEEo video http://ping.fm/GHzHh
Resveratrol Prevents Brain and Heart Damage While Assisting Weight Loss http://bit.ly/azAgzc more resveratrol at http://bit.ly/9ON3Tu
Resveratrol Prevents Brain and Heart Damage While Assisting Weight Loss http://bit.ly/azAgzc more resveratrol at http://bit.ly/9ON3Tu
The Latest News about MXI Corp. And Xocai Healthy Chocolate
Sorry i had to remove this article because i left Xocai as a The First Silver in the Netherlands for a better Organic Healthy Fairtrade Chocolate with a better payplan and more integer leaders.
So if you are in xocai and happy don't see the video of Dr Steven Warren here video.
Succes With your Xocai Business.
Peter Langelaar
Follow US
If you like to eat the Best Organic raw and child slave free healthy chocolate i do check out my site
Healthy Chocolate Science Update First Quarter -- 2009
by Dr. Steven Warren, M.D., D.P.A.
Statement
The information in this work is for educational purposes only and should not be used to diagnose and treat diseases. All serious health conditions should be treated by a competent health practitioner. Neither the publisher nor the author of this book in any way dispenses medical advice, prescribes remedies, or assumes responsibility for those who choose to treat themselves. The publisher and author have taken great care to ensure the accuracy of the information herein; however, errors may have been included. The publisher and author reserve the right to update or otherwise change the content of this work at any time without prior notice.
Permissions
Copyright Steven Warren M.D. and mydrchocolate.com (2009). Redistribution of this work is permitted; however, this work may not be sold, altered, or otherwise changed without the express written consent of the publisher and author.
Cocoa in World History
There is no denying that cocoa has played a major role in the development of both Mesoamerican and European History. Even today, fortunes are won and lost on the price fluctuations of this highly sought-after commodity, as traders bet on the moves of cocoa futures. Cocoa is produced in mass amounts in only a handful of countries around the world, many of which are not always politically or economically stable.
Recent discoveries in Honduras revealed traces of cocoa on cups and plates dating back to 2000 B.C. Between 200 and 900 A.D., the Mayan culture celebrated cocoa as a central part of their agriculture, economy, medicine and religion.
Still used today, the word "cacao" is derived from ancient Olmec and subsequent Mayan languages ("kakaw"), while the term "cacahuatl" also related to the root origin of cacao, is from ancient Aztec.
In 1737, Swedish scientist Carolus Linnaeus named the tree that produces these unsightly, yet highly prized cocoa bean pods "Theobroma cacao" -- literally meaning "cocoa, food of the gods". This name is a nod in reference to the mythical history of the tree among the ancient Mesoamericans.
Cocoa as Medicine
While cocoa was a celebrated and valued part of ancient Mesoamerican society, ancient records have also revealed more than 150 uses of cocoa for medicinal purposes.
The Europeans were first introduced to cocoa by the Spanish conquistadors around 1505 A.D. By the mid-1600s, European healers were "prescribing" cocoa as a medicine to stimulate the health function of the spleen and digestive tract, as well as a cure for all manner of other ailments and diseases. Cocoa was valued as a means to heal colds and cough attacks, enhance mental acuity, fight inflammation and improve overall nutrition.
Some Noted Mentions of Cocoa in History
Thomas Jefferson: "The superiority of chocolate, both for health and nourishment, will soon give it the preference over tea and coffee in America which it has in Spain(1).
William Clark (famed explorer): "I felt my Self [sic] very unwell and derected [sic] a little Chocolate which Mr. McClellan gave us, prepared of which I drunk about a pint and found great relief."
Baron Justus von Liebig (German chemist): "Chocolate is a perfect food, as wholesome as it is delicious, a beneficent restorer of exhausted power. It is the best friend of those engaged in literary pursuits."
Jean Anthelme Brillat-Savarin (lawyer, politician): "It has been shown as proof positive that carefully prepared chocolate is as healthful a food as it is pleasant; that it is nourishing and easily digested... that it is above all helpful to people who must do a great deal of mental work."
Other Historical References
Deanna Pucciarelli and Louis Grivetti from the University of California, Davis, recently published a paper titled, "The Medicinal Use of Chocolate in Early North America." This paper discussed the long history of medicinal chocolate in North America dating back to the 16th century (2). The paper suggested that medicinal chocolate was very prominent in many of the remedies prescribed for an assortment of illnesses, referring to advertisements of the day, including the following: "Always on hand pure cocoa and Homeopathic Chocolate, without any admixture of spices, are to be had, by the single cake or by the box of 25 pounds each."
In 1849, the Scientific American journal published the statement, "During last summer, those individuals who were habitually using chocolate or broma, neither had attacks of cholera or dysenteric affections, while other in the same families, taking their daily potations of tea, coffee, or simple cold water, were suffers."
Dr. Albert Bellow suggested that "Cocoa differs from tea and coffee in that it is rich in nutritious food, and having in it no tannin or other deleterious elements, its theobromine, or characteristic property, being connected with albumen a muscle-making element."
Cocoa products were considered "well-known [as] valuable foods, since they [act] as respiratory excitants."
Advertisements in the late 1900‘s touted cocoa‘s benefits for patients with asthma, bronchial, and lung trouble.
The famous physician Dr. Benjamin Rush wrote, "Chocolate differs considerably from both [tea and coffee], possessing no exhilarating virtue, or only in a small degree, but is more nutritive, and in South America constitutes a considerable part of the food."
Regarding his treatment for yellow fever, Dr. Rush related, "As soon as the pulse is reduced, I indulge them in weak chocolate." He recommended chocolate for gout, yellow fever, and many other diseases at the time.
Cocoa was a common medicine included in the well-known "house call" medical bags carried about by doctors during the 19th century.
One medical book from the time said this about treating whooping cough: "Let the child live on a light diet, little or no meat, cake, pastry, or heavy food, but an abundance of mucilaginous drinks [such as] chocolate."
Cocoa was a mainstay in medical recommendations throughout Europe, North and South America until as recent as the third decade of the 19th century.
A copy of Dr. Pucciarelli and Dr. Grivetti‘s paper can be found at the World Cocoa Foundation website.
Post-Industrial Chocolate: From Good to Bad
With the coming of the Industrial Revolution, chocolate manufacturers found themselves in regional and global competition for consumers.
At the same time that chocolate was being served in liquid form as a medicine for the sick, it was also being produced with added fats and sugars as a cheap candy.
The mid- to late-1800s saw the creation of a tremendous market for chocolate penny candy, as well as for fancy boxed chocolates that have since become synonymous with love and courtship.
By the 1950s, chocolate had completely lost its association with health and healing. Many of today‘s most famous chocolate companies got their start during the Great Depression, known to those in the business as the "hungry thirties" due to the popularity of this cheap diversion from the doldrums of everyday life amid the harsh economic crisis.
Are we experiencing the "hungry 2000s" today? In an article dated April 11, 2009, Time Magazine noted that sales of Swiss chocolate were still going strong, despite the recession.
According to the last paragraph of the article: "the question of why there is no meltdown in the chocolate business may be more a matter of psychology than economics. 'There is well-documented evidence going back to Freud, showing that in times of anxiety and uncertainty, when people need a boost, they turn to chocolate,‘ says [Stephane Garelli, director of the World Competitiveness Center at the Institute of Management Development (IMD) in Lausanne]'. 'That's why when the economy is bad, chocolate is still selling well.'"
(Chocolate Sales: A Sweet Spot in the Economy, Time Magazine, April 11, 2009)
A Renaissance in Chocolate
Only in the past few years has cocoa been re-examined as a health food and nutritious source of antioxidants, anti-inflammatories, vitamins and minerals.
Overall, the demand for cacao remains very high, with an estimated 3.5 million tons (that‘s 7,000,000,000 pounds) consumed during 2008.
Cocoa Science Update
The last 10 years have seen resurgence in interest about the health benefits of cocoa. Numerous studies have been sponsored, increasingly so over the last three years. Every year, more human studies on cocoa uncover yet more mechanisms associated with the action of cocoa.
Studies have focused not only on the antioxidant properties of cocoa, but also on anti-inflammatory properties, mood enhancing properties, and other beneficial properties of cocoa in its dark, bitter form. During 2008 alone, more than 50 studies were conducted related to the health benefits of cocoa, including epidemiological studies and human dietary trials.
Cocoa is King
What is in cocoa that provides all of these benefits?
Cocoa is a complex food. There are over 300 different components found in cocoa, but the processing methods used play a major role in whether cocoa retains its beneficial properties.
The major components of cocoa are cocoa butter (a neutral fat, consisting of oleic, stearic, and palmitic fatty acids), minerals (copper, magnesium, potassium, iron, zinc and calcium), theobromine (and trace amounts of caffeine), and the "mood chemicals" -- PEA, tyramine, tryptophan, and serotonin.
Actually, this is just a small list of the 300 chemicals found in cocoa.
And, very importantly, we mustn‘t overlook the polyphenols contained in cocoa.
Polyphenols are what bring the majority of health benefits from this amazing product. Polyphenols consist of a large class of compounds that provide antioxidant and anti-inflammatory benefits that are often found in fruits and vegetables.
One class of these polyphenols is called flavonoids, which can be further categorized into smaller families (flavanones, flavones, flavonols, flavanols (flavan-3-ols), anthocyanins, and isoflavones).
We can go a step further, and break down the flavanol family into (1) single compounds ("monomeric compounds" epicatechins and catechins) and (2) combined compounds ("oligomeric compounds" procyanidins). These substances are the true backbone of the health properties of cocoa.
Epicatechin is the predominant polyphenol in cocoa, and accounts for the majority of the health benefits we get when we eat properly processed cocoa. Cocoa is one of the most polyphenol-rich foods to be found anywhere on our glorious green planet. But, some or most of the beneficial components can be stripped away and completely wasted, depending on how the cocoa bean is processed. Lose the valuable chemical components, lose the health benefits.
Healthy Chocolate Science Update -- Q1 2009
In this paper, I will examine the influence of manufacturing processes on the availability of flavonols contained in cocoa beans. I will also present the most recent research conducted in 2008 on cocoa and health, and connect the results of the University of Utah study on Xocai with other pertinent studies.
A 2008 study completed by researchers in Spain examined the impact of manufacturing processes on cocoa powder. The researchers found that "Dutching" (or alkalinization) of cocoa powder resulted in a 60% loss of total flavonoid capacity. While Dutching might make cocoa more palatable by removing bitterness, it also robs cocoa of most of the beneficial properties associated with flavonoids.
Even the process of fermenting cocoa beans contributes to the loss of potent flavonoids.
This study also showed that Dutch processing results in a 67% loss of the epicatechins, which is the main powerhouse flavonoid in cocoa.
Need more convincing? The researchers also discovered that Dutching contributes to an 86% loss of the other important flavonol in cocoa -- quercetin. Quercitin is a very potent antioxidant and free-radical scavenger that was not even reported to be found in cocoa before this study came out.
Pound-for-pound, unprocessed cocoa contains as much quercetin as broccoli, apples, or red grapes.
As recently as August 2008, a study reported the discovery of dietary resveratrol in cocoa powder (about half as much as an average California red wine), further bolstering the argument of cocoa as a beneficial food. Resveratrol is a very potent antioxidant, associated with anti-inflammatory, anti-aging, and platelet aggregation inhibiting benefits.
Why is the preservation (or even enhancement) of cocoa polyphenols of such great importance? The answer is two-fold: the obvious biological activity of polyphenols, and the limited absorption of polyphenols in the gut. This means the more potent the cocoa, the more beneficial to the consumer. Epicatechin demonstrates the highest absorption in the blood, which is why it is important to maximize the amount available in the product.
Several studies have examined the absorption of flavanols into the bloodstream ("bioavailability"). These studies found that the gastric environment has little-to-no effect on polyphenols. Epicatechins and catechins are readily absorbed by the upper intestinal gut into the bloodstream. Epicatechin metabolites (glucuronide, sulfate, and methyl) are found in blood plasma very soon after hitting the intestinal gut. The larger molecules of flavanols not absorbed in the small intestine travel to, and are metabolized by, bacteria in the large intestine, producing other beneficial polyphenols. These valuable compounds can be found even up to six or 12 hours after the cocoa product has been ingested.
These studies also discovered epicatechin metabolites and quercetin in the brain bloodstream soon after the ingestion of cocoa.
Another important factor to consider is whether an increase of polyphenols increases antioxidant levels in the blood. Studies have found definite increases in blood ORAC levels associated with cocoa consumption, indicating that the flavonoids are being utilized by the body. The ORAC (oxygen-radical absorbance capacity) test measures the capacity of a compound to absorb or neutralize oxygen-free radicals, which are harmful to the body. An increased presence of antioxidants gives the body another weapon to fight damaging molecules that are created inside the body every day.
An increase of total serum glutathione, also shown in these studies, indicates that the flavonol molecules are actually doing their jobs inside the living body. Glutathione (a protein found inside cells) is essential for the function of immune cells and disease-fighting.
Another interesting and informative test determines whether the metabolites (breakdown products) of the flavonoids are found in the urine. Presence of metabolites in urine indicates that the molecules are being used by the body. One of the easiest molecules to check in urine is isoprostane -- a molecule that damages the body. If antioxidants are absorbed and functioning correctly, there should be a reduced level of isoprostane found in urine. High levels of isoprostane are associated with increased risk for dementia.
The study performed in 2008 by the University of Utah showed statistically significant increases of ORAC levels in blood plasma, increases of glutathione levels in plasma, and decreases in isoprostane levels found in urine. University of Utah researchers found these results using both a standard dose of Xocai Activ™ (one ounce, three times per day), as well as an increased dose (three ounces, three times per day). These findings confirmed other reports of increased serum ORAC levels, increased glutathione levels, and decreased isoprostane levels found in other in-vivo tests (tests performed in the human body) with dark cocoa powder.
Latest Research and Relevance to the University of Utah Study
Next, allow me to present some of the latest studies performed on dark cocoa, relating them to the results of the University of Utah study.
It‘s no secret that cardiovascular diseases are the leading cause of death in the United States and many other countries around the world. Some projections have cardiovascular disease becoming the number one cause of death in every country of the world by 2010.
It‘s also no secret that dietary changes and intake of flavonol-rich foods have been associated with improvements in cardiovascular disease. The flavonoids and other compounds of cocoa have been clearly shown to reduce the risk of cardiovascular disease in humans. Many such studies have shown an improved endothelial (blood vessel) function, platelet function, insulin sensitivity, blood pressure, and decreases in chemicals that cause inflammation in the body.
A study performed last year looked at post-menopausal women, total flavonoids and cardiovascular mortality found that only a few foods were able to demonstrate significant improvements -- apples, pears, strawberries ... and chocolate. None of the other fruits and vegetables studied shows a capacity to improve cardiovascular health.
In past reports, I discussed two large studies that showed the benefits of cocoa in reducing cardiovascular mortality -- a major study in the Netherlands on elderly men, and a study conducted on the Kuna Indian population of the San Blas Islands in Panama. These studies involved long-term observations that indicated improved cardiovascular benefit of cocoa consumption.
A study conducted this year by the University of Illinois found that the consumption of flavonol-enriched cocoa bars resulted in significant reduction in systolic blood pressure (8.2% decrease) and diastolic blood pressure (8.2% decrease) compared to a placebo group. The improvement occurred within a four-week period, and continued throughout the entire study. These findings were very interesting, especially considering the fact that study participants had no pre-existing hypertension.
A group of researchers from the United Kingdom reported in the American Journal of Clinical Nutrition about a meta-analysis of numerous studies completed on cocoa flavanols and blood pressure.
These researchers found forty-three different studies regarding the effect of chronic (over a long period of time) intake of flavonoids on blood pressure, and seven studies regarding the effect of acute intake. Black tea, red wine and grape juice demonstrated no significant effects on blood pressure. Cocoa, however, presented a 5.88mm reduction in systolic blood pressure, and a 3.33mm reduction in diastolic blood pressure -- statistically significant findings.
Cocoa studies conducted this year found that cocoa increases vasorelaxation (dilates the blood vessel walls) in healthy subjects. Effects were also positive for patients with hypertension, coronary heart disease, the elderly, post-transplant heart patients, and patients with high cardiovascular risk.
The University of Utah study found that basically healthy patients experienced a decrease in systolic and diastolic blood pressure by 5mm within two weeks of a program eating unprocessed cocoa. These findings corroborated other studies, and delivered the same success you would find with weight loss, dieting, and even some blood pressure medications.
It is widely accepted among medical professionals that even a small drop in blood pressure translates to a marked reduction in heart attacks, strokes, and other cardiovascular diseases.
A group of researchers from Yale found this year that acute ingestion of both solid dark chocolate and liquid cocoa improved the blood vessel function and lowered blood pressure in overweight adults. Sugar-free or low glycemic products aided in further improvements in blood pressure.
Research has uncovered the fact that the dilation of blood vessels is achieved via an NO-dependent (Nitric Oxide) mechanism. A decrease in NO is associated with increases in arteriosclerosis and cardiovascular risk. After consuming a flavanol-rich beverage, test subjects experienced an increase in NO, generated by NO synthase. Cocoa stimulates this mechanism to create even higher levels of NO in test subjects.
We also see some evidence that cocoa also acts like an angiotensin converting enzyme (ACE) inhibitor, further lowering blood pressure.
Researchers in Switzerland found that within two hours of consumption of flavanol-enriched cocoa, subjects experienced a significant reduction of serum oxidative stress, improved coronary vessel function, and decreased platelet adhesion. Researchers also noted an increase in serum epicatechin levels at the same time.
This year, a group of researchers from the University of California, Davis, found a capacity in flavonoids to protect myocardial (heart) tissues during damaging events. They found that epicatechins confer cardioprotection to the heart muscle during short- and long-term ischemia reperfusion myocardial injury. In lay terms, the epicatechins protected the heart muscles after a heart attack that caused a decrease in blood flow to the heart.
Within the last year, two other studies concluded that dark cocoa only produced a minimum result. However, a review of the studies found that the first used only approximately 300mg of total flavonoids per day, which is far below the therapeutic amount of 600mg to 900mg of total flavonoids. The second study used 900mg of total flavonoids, but only administered twice per day, which the researchers themselves thought may have contributed to decreased results.
Cocoa molecules are short-lived in the blood stream; at least three times per day appears to be the necessary frequency to enjoy continued results.
A second range of studies examined the conditions of insulin resistance related to impaired glucose tolerance, or "prediabetes" which increases the risk of cardiovascular events, diabetes, decreased endothelial NO (level of nitric oxide in the blood vessels) bioavailability, and increased oxidative stress.
Several studies conducted within the last year examined the impact of flavanol-enriched cocoa ingestion on the oral glucose tolerance test (OGTT), endothelium-dependent vasorelaxation, blood pressure, and serum C-reactive protein (CRP is a measure of inflammation) in adults with hypertension and impaired glucose tolerance.
A study by researchers at Tufts University and the University of L‘Aquilla used 1008mg of total flavonoid cocoa product divided into 3 daily doses, compared to a flavonoid-free cocoa product.
These researchers found that flavonols increased the bioavailability of NO and decreased the formation of oxygen- and nitrogen-free radicals. They also found that flavonols and resveratrol inhibit IκB kinase, and downregulate nuclear factor-κB (an oxidation pathway that causes blood vessel damage and increases fat-induced insulin resistance). This study confirmed other research that flavonol-rich cocoa improved the dilation capacity of blood vessels, and reversed the dysfunction of blood vessels in prediabetics and smokers.
These scientists concluded that high-dose flavanol cocoa improved insulin sensitivity, increased B-cell function (cells that produce insulin), decreased blood pressure, and increased the flexibility of the blood vessel walls. They also found an increase in the QUICKI (quantitative insulin sensitivity check index), which correlates to improved insulin sensitivity, as well as improved scores in the oral glucose tolerance test.
In their study, the University of Utah also found a statistically significant increase in QUICKI, as well as improved two-hour glucose tolerance test scores. U of U scientists also found that unprocessed cocoa powder did improve the function of the pancreas, and lowered diabetic risk. Cocoa was found to be as effective in increasing insulin sensitivity as weight loss, exercise, medications and other dietary supplements.
A study performed in 2008 examined the cerebral (brain) blood flow in healthy elderly people after they ingested flavonoid-rich cocoa. As with similar studies, this study demonstrated a significant increase in cerebral blood flow attributed to the cocoa. Blood flow in the middle cerebral artery, one of the main arteries in the brain, was measured for subjects who ingested 900mg of flavanols. They noted that NO is a critical regulator of brain perfusion. Again, cocoa increased NO availability, and active the N pathways. These scientists noted an increase in peak cerebral blood flow during the first two to four hours (they initially noted a decrease secondary to the caffeine contained in their cocoa powder). They concluded that this increase in blood flow would help to decrease dementia, strokes and other vascular cognitive impairments.
Other studies have found that flavonoids improve spatial memory, and decrease brain edema, as well as neuronal death in the hippocampus -- a part of the brainthat controls mood.
Epidemiological studies suggest that consuming products with high-flavonoid content delays the onset of dementia and Alzheimer‘s dementia. Neurodegenerative diseases such as dementia and Parkinson‘s disease are increased by oxidative stress, inflammation, and the accumulation of iron and protein aggregrates, which lead to neuronal (brain cell) death.
The antioxidant activity, anti-inflammatory activity and potent iron-chelating activity of cocoa provides a neuroprotective component. Researchers have found that epicatechin reduces the toxic effects of amyloid-C, a component of the senile plaques in the brain associated with dementia. We have even come across some information showing that cocoa can slow down nigrostriatal dopaminergic cell loss in Parkinson‘s disease. The mechanism seems to be connected to mitogen-activated protein kinase signaling pathways that are involved in brain cell survival, regeneration and cell death.
Unprocessed Cocoa and Inflammation
Another important area of health benefits from unprocessed cocoa is the reduction of inflammation.
In her review article this year, Karen A. Cooper examined the last 10 years of research on cocoa and health. She believes that a simple antioxidant mechanism driving the benefits of cocoa is not likely. Rather, it is the inhibition of inflammatory pathways that lead to the reduced risk of chronic diseases.
A 2008 study performed in Italy examined the connection between inflammation and regular consumption of dark chocolate. Like Cooper, the researchers here concluded that cocoa‘s capacity to decrease inflammation is what provides most of the health benefits to the body. They hypothesized that dark chocolate consumption is inversely related to the level of C-reactive protein (CRP), a marker of inflammation that is considered an independent indicator of coronary heart disease.
Inflammation and nitric oxide (NO) production play a major role in the development of arterosclerotic plaque. The Italian scientists found that flavonoid-enriched cocoa did indeed decrease serum CRP in a large population of Italian patients.
Another group in Baltimore found a reduction in CRP and a decrease in inflammation in women who consumed approximately 700mg of flavonoids per day.
Recently, a group of researchers from the University of California, Davis, teamed with scientists in Italy examined the anti-inflammatory impact of cocoa flavanols. This group discussed how the production of inflammatory chemicals (cytokines) increases the risk of heart disease, such as hardening of the arteries and congestive heart failure. If the inflammatory pathways can be altered, they argued, then there would be a reduction in heart disease.
Nuclear factor-kappaß (NK-κß) is one of the factors that control inflammatory response, cellular proliferation (growth), and cellular adhesion. Studies have shown that epicatechin and catechin molecules reduce NK-κß activation, and consequently reduce inflammation cytokines.
Cocoa also exerts a significant effect on TNFα (tumor growth factor) which increases the body‘s anti-inflammatory ability. Cocoa flavanols also inhibit the formation of other inflammatory chemicals like IL-2 (interleukin).
Overall, cocoa flavanols inhibit a multitude of inflammatory chemicals, and stimulate the healing of tissues and repair of injured vessel walls.
Another chemical group, eicosanoids, which is produced through the arachidonic acid pathway, is another contributor to inflammation. Some of these chemicals promote platelet aggregation, and can vasoconstrict blood vessels. Cocoa Flavanols block the arachidonic pathway similar to COX-1 and COX-2 inhibitors. These flavanols also block the production of lipoxygenase, which is a contributor to asthma.
As I mentioned earlier, when the blood vessel wall is damaged, the body produces a chemical that causes platelets to aggregate. This action only serves to further damage the blood vessel. Cocoa flavanols have been very effective in inhibiting the chemicals that activate the platelets, reducing the formation of clots. This action is comparable to aspirin in the reduction of blood clots.
Researchers also found that the cocoa flavanols positively influence the immune system and decrease inflammation, promoting healing in the body.
Cocoa flavanols also protect the blood vessels by reducing the damage done by oxidized LDL (bad) cholesterol. Basically, flavanols prevent LDL cholesterol from becoming oxidized. A group from Johns Hopkins found that after two weeks of taking highly flavanol-enriched cocoa, subjects experienced LDL level decreases of 6%, while HDL (good) cholesterol rose by 9%.
Another cholesterol factor important to examine is the production of Apo A-1 protein. Apo A-1 protein, a good cholesterol marker, helps clear cholesterol from arteries. The University of Utah study found that unprocessed cocoa powder significantly increased the amount of Apo A-1 in the body. They also found that the cocoa flavanols increased the good cholesterol antioxidant (PON-paraoxanase), which is an HDL-associated enzyme that confers antioxidant activity on HDL-C, and also helps protect against atherosclerosis.
Interestingly, the University of Utah also discovered that the cocoa flavanols increased lean body mass, which helps the body burn more calories and increases the function of muscles, bones, brain, liver and kidneys. The institution also found that the flavanols increased adiponectin -- a protein hormone that regulates blood sugar, breaks down fat, and suppresses the development of diabetes, obesity, atherosclerosis, and non-alcoholic fatty liver disease.
More Cocoa Benefits
Cocoa flavanols are also important in many other areas. A Finnish study recently found that chocolate preference and consumption in elderly men was associated with better health, optimism, and better psychological well-being.
Medical professionals accept that oxidative stress and inflammation are major contributors to the behavioral and cognitive decline seen with aging. Cocoa flavanols, as discussed earlier, limit oxidative stress, and block inflammation, apparently helping improve memory and slowing down the aging process.
Depression is also a very common problem in our world. A recent rate study found that the addition of high-flavanol cocoa extract given to rats in a forced swimming test indicated that cocoa decreased depression. We know that tryptophan from cocoa is broken down into serotonin and other compounds that fight depression and elevates mood.
Other studies have shown that cocoa flavanols improve the overall immune system.
Studying rats, one group of researchers found that the cocoa-fed rats experienced an improved Th1 immune system (this system helps kill bacteria and helps cells fight off infections).
Another related rat study found that cocoa intake improved intestinal immune response by increasing those antibodies that prevent bacteria from entering the body by fighting them in the gut.
A study conducted in November 2008 researched the benefits of cocoa flavanols on dioxins -- lethal poison compounds. The researchers found that the intake of cocoa definitely suppressed the toxicological effects of dioxins in the body. In effect, the cocoa stopped the damage that this environmental poison does to the body by interfering with different pathways.
Conclusion
Flavanol-rich cocoa demonstrates impressive antioxidant and anti-atherosclerotic effects, increases HDL, improves insulin sensitivity and anti-platelet effects, increases nitric oxide production and vascular relaxation, exhibits anti-inflammatory effects, increases immune response and helps overall mood elevation.
Remember that to achieve these beneficial effects, unprocessed cocoa with low glycemic sweeteners and at least 1,000 total milligrams of flavonoids must be taken at least three times a day for maximum benefits.
Cocoa has indeed come full circle from a Mesoamerican medicinal drink to a modern-day functional food that provides significant health benefits. Reports continue to come in regarding the wide range of benefits from cocoa, including powerful protection against cardiovascular disease, diabetes, and neurodegenerative diseases.
Cocoa is the "long-lost secret" that represents a solution to so many health problems that the world‘s population faces today.
Works Cited
Andres-Lacueva, C. et.al., .Flavanol and Flavonol Contents of Cocoa Powder Products: Influence of the Manufacturing Process.. Journal of Agricultural nad Food Chemistry. (2008).
Balzer, Jan, et.al., .Sustained Benefits in Vascular Function Through Flavanol-Containing Cocoa in Medicated Diabetic Patients.. Journal of the American College of Cardiology. 51 (2008):2141-2149.
Bordeaux, B. et.al., .Causal Chocolate Consumption and Inhibition of Platelet Function.. Preventive Cardiology. 10(4)(2007): 175-180.
Cho, ES, KW Lee, and HJ Lee. .Cocoa Procyanidins Protect PC12 Cells from Hydrogen- peroxide-induced Apoptosis by Inhibiting Activation of p38 MAPK and JNK.. Mutation Research. 640(1-2)(2008): 123-130.
Cooper, Kare, et.al., .Cocoa and Health: A Decade of Research.. British Journal of Nutrition. 99(2008):1-11.
Crews, David, et.al., .A Double-Blind, Placebo-Controlled, Randomized Trial of the Effects of Dark Chocolate and Cocoa on Variables Associated with Neuropsychological Functioning and Cardiovascular Health: Clinical Findings from a Sample of Healthy, Cognitively Intact Older Adults. American Journal of Clinical Nutrition. 87(2008): 872-880.
Davison, K et al., .Effect of Cocoa Flavanols and exercise on Cardiometabolic Risk Factors in Overweight and Obese Subjects.. International Journal of Obesity. 32(8)(2008):1289-96.
Di Giuseppe, Romina, et.al., .Regular Consumption of Dark Chocolate is Associated with Low Serum Concentrations of C-Reactive Protein in a Healthy Italian Population.. The Journal of Nutrition. 138(10): 1939-1945.
Erdman,John, et.al., .Effects of Cocoa Flavanols on Risk Factors for Cardiovascular Disease.. Asia Pacific Journal of Clinical Nutrition. 17(81)(2008): 284-287.
Flammer, Andreas, et.al., .Dark Chocolate Improves Coronary Vasomotion and Reduces Platelet Reactivity.. Circulation. 116(2007):2376-2382. Grassi, Davide, et.al., .Blood Pressure is Reduced and Insulin Sensitivy Increase in Glucose- Intolerant, Hypertensive Subjects After 15 Days of Consuming High-Polyphenol Dark Chocolate.. The Journal of Nutrition. 138(9)(2008): 1671-1676.
Hamed M.S., et.al., .Dark Chocolate Effect on Platelet Activity, C-Reactive Protein and Lipid Profile: A Pilot Study.. Southern Medical Journal. (2008).
Hooper, Lee, et.al., .Flavonoids, Flavonoid-Rich Foods, and Cardiovascular Risk:A Meta- analysis of Randomized Controlled Trials.. The American Journal of Clinical Nutrition. 88(1)(2008):38-50.
Hurst, Jeff., et.al., .Survey of the trans-Resveratrol and trans-Piccid Content of Cocoa- Containing and Chocolate Products.. Journal of Agricultural and Food Chemistry. 56(18)(2008):8374-8378.
Jalil, Abbe and Amin Ismail .Polyphenols in Cocoa and Cocoa Products: Is There a Link between Antioxidant Properties and Health?. Molecules, 13 (2008): 2190-2219.
Kwik-Uribe, C. and Roger Bektash. .Cocoa Flavanols:Measurement, Bioavailability, and Bioactivity.. Asia Pacific Journal of Clinical Nutrition. 17(S1) (2008): 280-283.
McShea, Andrew et.al., .Clinical Benefit and Preservation of Flavanols in Dark Chocolate Manufacturing.. Nutrition Reviews 66 (1)(2008):630-641.
Mehrinfar, Ramona and William Frishman. .Flavanol-Rich Cocoa: A Cardioprotective Nutriceutical.. Cardiology in Review. 16(3)(2008):109-115.
Messaoudi, Michael et.al., .Antidepressant-like Effects of a Cocoa Polyphenolic Extract in Wistar-Unilever Rats.. Nutritional Neuroscience. 11(6)(2008):269-276.
Mukai, R, et.al., .Cacao Polyphenol Extract Suppresses Transformation of an Aryl Hydrocarbon Receptor in C57BL/6 Mice.. Journal of of Agricultural and Food Chemistry. 56(21)(2008):10399-10405.
Muniyappa, R. et.al., .Cocoa Consumption for 2 weeks Enhances Insulin-Mediated Vasodilation Without Improving Blood Pressure or Insulin Resistance in Essential Hypertension.. The American Journal of Clinical Nutrition. 88(6)(2008):1685-1696.
Perez-Berezo, T, et.al., .Influence of a Cocoa-enriched Diet on Specific Immune response in Ovalbumin-sensitized Rats.. Molecular Nutrition and Food Research. (2008).
Pucciarelli, D. and L. Grivetti. .The Medicinal Use of Chocolate in Early North America.. Molecular Nutrition and Food Research. (2008).
Ramiro-Puig, E. et.al., .Intestinal Immune System of Young Rats Influenced by Cocoa-enriched Diet.. Journal of Nutritional Biochemistry. 19(8)(2008):555-565.
Schnorr, O., et.al., .Cocoa Flavanols Lower Vascular Arginase Activity in Human Endothelial Cells in Vitro and in Erythrocytes in Vivo,. Archives of Biochemistry and Biophysics. 476(2)(2008): 211-215.
Schewe, T. et.al., .How Do Dietary Flavanols Improve Vascular Function? A Position Paper.. Archives of Biochemistry and Biophysics. 476 (2)(2008): 102-106.
Selmi, Carlo, et.al., .Chocolate at Heart:The Anti-Inflammatory Impact of Cocoa Flavanols.. Molecular Nutrition and Food Research. 52(2008): 1340-1348.
Stranberg, TE, et.al., .Chocolate, Well-Being and Health Among Elderly Men.. European Journal Of Clinical Nutrition. (2007):1-7.
Sorond, Farzaneh. .Cerebral Blood Flow Response to Flavanol-Rich Cocoa in Healthy Elderly Humans.. Neuropsychiatric Disease and Treatment. 4(2)(2008):433-440.
Srikanth, R et al., .Chocolate Mouth Rinse:Effect on Plaque Accumulation and Mutans Streptococci Counts When Used by Children.. Journal of Indian Society of Pedodontics and Preventive Dentistry. (2008):67-74.
Tomaru, M. et.al., .Dietary Supplementation with Cacao Liquor Proanthocyanidins Prevents Elevation of Blood Glucose Levels in Diabetic Obese Mice.. Nutrition. (2007).
Yamazaki, K. et.al., .Short- and Long-Term Effects of (-)-Epicatechin on Myocardial Ischemia- Reperfusion Injury.. American Journal of Heart and Circulatory Physiology. 295(2008):H761-H767.
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The information in this work is for educational purposes only and should not be used to diagnose and treat diseases. All serious health conditions should be treated by a competent health practitioner. Neither the publisher nor the author of this book in any way dispenses medical advice, prescribes remedies, or assumes responsibility for those who choose to treat themselves. The publisher and author have taken great care to ensure the accuracy of the information herein; however, errors may have been included. The publisher and author reserve the right to update or otherwise change the content of this work at any time without prior notice.
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Cocoa in World History
There is no denying that cocoa has played a major role in the development of both Mesoamerican and European History. Even today, fortunes are won and lost on the price fluctuations of this highly sought-after commodity, as traders bet on the moves of cocoa futures. Cocoa is produced in mass amounts in only a handful of countries around the world, many of which are not always politically or economically stable.
Recent discoveries in Honduras revealed traces of cocoa on cups and plates dating back to 2000 B.C. Between 200 and 900 A.D., the Mayan culture celebrated cocoa as a central part of their agriculture, economy, medicine and religion.
Still used today, the word "cacao" is derived from ancient Olmec and subsequent Mayan languages ("kakaw"), while the term "cacahuatl" also related to the root origin of cacao, is from ancient Aztec.
In 1737, Swedish scientist Carolus Linnaeus named the tree that produces these unsightly, yet highly prized cocoa bean pods "Theobroma cacao" -- literally meaning "cocoa, food of the gods". This name is a nod in reference to the mythical history of the tree among the ancient Mesoamericans.
Cocoa as Medicine
While cocoa was a celebrated and valued part of ancient Mesoamerican society, ancient records have also revealed more than 150 uses of cocoa for medicinal purposes.
The Europeans were first introduced to cocoa by the Spanish conquistadors around 1505 A.D. By the mid-1600s, European healers were "prescribing" cocoa as a medicine to stimulate the health function of the spleen and digestive tract, as well as a cure for all manner of other ailments and diseases. Cocoa was valued as a means to heal colds and cough attacks, enhance mental acuity, fight inflammation and improve overall nutrition.
Some Noted Mentions of Cocoa in History
Thomas Jefferson: "The superiority of chocolate, both for health and nourishment, will soon give it the preference over tea and coffee in America which it has in Spain(1).
William Clark (famed explorer): "I felt my Self [sic] very unwell and derected [sic] a little Chocolate which Mr. McClellan gave us, prepared of which I drunk about a pint and found great relief."
Baron Justus von Liebig (German chemist): "Chocolate is a perfect food, as wholesome as it is delicious, a beneficent restorer of exhausted power. It is the best friend of those engaged in literary pursuits."
Jean Anthelme Brillat-Savarin (lawyer, politician): "It has been shown as proof positive that carefully prepared chocolate is as healthful a food as it is pleasant; that it is nourishing and easily digested... that it is above all helpful to people who must do a great deal of mental work."
Other Historical References
Deanna Pucciarelli and Louis Grivetti from the University of California, Davis, recently published a paper titled, "The Medicinal Use of Chocolate in Early North America." This paper discussed the long history of medicinal chocolate in North America dating back to the 16th century (2). The paper suggested that medicinal chocolate was very prominent in many of the remedies prescribed for an assortment of illnesses, referring to advertisements of the day, including the following: "Always on hand pure cocoa and Homeopathic Chocolate, without any admixture of spices, are to be had, by the single cake or by the box of 25 pounds each."
In 1849, the Scientific American journal published the statement, "During last summer, those individuals who were habitually using chocolate or broma, neither had attacks of cholera or dysenteric affections, while other in the same families, taking their daily potations of tea, coffee, or simple cold water, were suffers."
Dr. Albert Bellow suggested that "Cocoa differs from tea and coffee in that it is rich in nutritious food, and having in it no tannin or other deleterious elements, its theobromine, or characteristic property, being connected with albumen a muscle-making element."
Cocoa products were considered "well-known [as] valuable foods, since they [act] as respiratory excitants."
Advertisements in the late 1900‘s touted cocoa‘s benefits for patients with asthma, bronchial, and lung trouble.
The famous physician Dr. Benjamin Rush wrote, "Chocolate differs considerably from both [tea and coffee], possessing no exhilarating virtue, or only in a small degree, but is more nutritive, and in South America constitutes a considerable part of the food."
Regarding his treatment for yellow fever, Dr. Rush related, "As soon as the pulse is reduced, I indulge them in weak chocolate." He recommended chocolate for gout, yellow fever, and many other diseases at the time.
Cocoa was a common medicine included in the well-known "house call" medical bags carried about by doctors during the 19th century.
One medical book from the time said this about treating whooping cough: "Let the child live on a light diet, little or no meat, cake, pastry, or heavy food, but an abundance of mucilaginous drinks [such as] chocolate."
Cocoa was a mainstay in medical recommendations throughout Europe, North and South America until as recent as the third decade of the 19th century.
A copy of Dr. Pucciarelli and Dr. Grivetti‘s paper can be found at the World Cocoa Foundation website.
Post-Industrial Chocolate: From Good to Bad
With the coming of the Industrial Revolution, chocolate manufacturers found themselves in regional and global competition for consumers.
At the same time that chocolate was being served in liquid form as a medicine for the sick, it was also being produced with added fats and sugars as a cheap candy.
The mid- to late-1800s saw the creation of a tremendous market for chocolate penny candy, as well as for fancy boxed chocolates that have since become synonymous with love and courtship.
By the 1950s, chocolate had completely lost its association with health and healing. Many of today‘s most famous chocolate companies got their start during the Great Depression, known to those in the business as the "hungry thirties" due to the popularity of this cheap diversion from the doldrums of everyday life amid the harsh economic crisis.
Are we experiencing the "hungry 2000s" today? In an article dated April 11, 2009, Time Magazine noted that sales of Swiss chocolate were still going strong, despite the recession.
According to the last paragraph of the article: "the question of why there is no meltdown in the chocolate business may be more a matter of psychology than economics. 'There is well-documented evidence going back to Freud, showing that in times of anxiety and uncertainty, when people need a boost, they turn to chocolate,‘ says [Stephane Garelli, director of the World Competitiveness Center at the Institute of Management Development (IMD) in Lausanne]'. 'That's why when the economy is bad, chocolate is still selling well.'"
(Chocolate Sales: A Sweet Spot in the Economy, Time Magazine, April 11, 2009)
A Renaissance in Chocolate
Only in the past few years has cocoa been re-examined as a health food and nutritious source of antioxidants, anti-inflammatories, vitamins and minerals.
Overall, the demand for cacao remains very high, with an estimated 3.5 million tons (that‘s 7,000,000,000 pounds) consumed during 2008.
Cocoa Science Update
The last 10 years have seen resurgence in interest about the health benefits of cocoa. Numerous studies have been sponsored, increasingly so over the last three years. Every year, more human studies on cocoa uncover yet more mechanisms associated with the action of cocoa.
Studies have focused not only on the antioxidant properties of cocoa, but also on anti-inflammatory properties, mood enhancing properties, and other beneficial properties of cocoa in its dark, bitter form. During 2008 alone, more than 50 studies were conducted related to the health benefits of cocoa, including epidemiological studies and human dietary trials.
Cocoa is King
What is in cocoa that provides all of these benefits?
Cocoa is a complex food. There are over 300 different components found in cocoa, but the processing methods used play a major role in whether cocoa retains its beneficial properties.
The major components of cocoa are cocoa butter (a neutral fat, consisting of oleic, stearic, and palmitic fatty acids), minerals (copper, magnesium, potassium, iron, zinc and calcium), theobromine (and trace amounts of caffeine), and the "mood chemicals" -- PEA, tyramine, tryptophan, and serotonin.
Actually, this is just a small list of the 300 chemicals found in cocoa.
And, very importantly, we mustn‘t overlook the polyphenols contained in cocoa.
Polyphenols are what bring the majority of health benefits from this amazing product. Polyphenols consist of a large class of compounds that provide antioxidant and anti-inflammatory benefits that are often found in fruits and vegetables.
One class of these polyphenols is called flavonoids, which can be further categorized into smaller families (flavanones, flavones, flavonols, flavanols (flavan-3-ols), anthocyanins, and isoflavones).
We can go a step further, and break down the flavanol family into (1) single compounds ("monomeric compounds" epicatechins and catechins) and (2) combined compounds ("oligomeric compounds" procyanidins). These substances are the true backbone of the health properties of cocoa.
Epicatechin is the predominant polyphenol in cocoa, and accounts for the majority of the health benefits we get when we eat properly processed cocoa. Cocoa is one of the most polyphenol-rich foods to be found anywhere on our glorious green planet. But, some or most of the beneficial components can be stripped away and completely wasted, depending on how the cocoa bean is processed. Lose the valuable chemical components, lose the health benefits.
Healthy Chocolate Science Update -- Q1 2009
In this paper, I will examine the influence of manufacturing processes on the availability of flavonols contained in cocoa beans. I will also present the most recent research conducted in 2008 on cocoa and health, and connect the results of the University of Utah study on Xocai with other pertinent studies.
A 2008 study completed by researchers in Spain examined the impact of manufacturing processes on cocoa powder. The researchers found that "Dutching" (or alkalinization) of cocoa powder resulted in a 60% loss of total flavonoid capacity. While Dutching might make cocoa more palatable by removing bitterness, it also robs cocoa of most of the beneficial properties associated with flavonoids.
Even the process of fermenting cocoa beans contributes to the loss of potent flavonoids.
This study also showed that Dutch processing results in a 67% loss of the epicatechins, which is the main powerhouse flavonoid in cocoa.
Need more convincing? The researchers also discovered that Dutching contributes to an 86% loss of the other important flavonol in cocoa -- quercetin. Quercitin is a very potent antioxidant and free-radical scavenger that was not even reported to be found in cocoa before this study came out.
Pound-for-pound, unprocessed cocoa contains as much quercetin as broccoli, apples, or red grapes.
As recently as August 2008, a study reported the discovery of dietary resveratrol in cocoa powder (about half as much as an average California red wine), further bolstering the argument of cocoa as a beneficial food. Resveratrol is a very potent antioxidant, associated with anti-inflammatory, anti-aging, and platelet aggregation inhibiting benefits.
Why is the preservation (or even enhancement) of cocoa polyphenols of such great importance? The answer is two-fold: the obvious biological activity of polyphenols, and the limited absorption of polyphenols in the gut. This means the more potent the cocoa, the more beneficial to the consumer. Epicatechin demonstrates the highest absorption in the blood, which is why it is important to maximize the amount available in the product.
Several studies have examined the absorption of flavanols into the bloodstream ("bioavailability"). These studies found that the gastric environment has little-to-no effect on polyphenols. Epicatechins and catechins are readily absorbed by the upper intestinal gut into the bloodstream. Epicatechin metabolites (glucuronide, sulfate, and methyl) are found in blood plasma very soon after hitting the intestinal gut. The larger molecules of flavanols not absorbed in the small intestine travel to, and are metabolized by, bacteria in the large intestine, producing other beneficial polyphenols. These valuable compounds can be found even up to six or 12 hours after the cocoa product has been ingested.
These studies also discovered epicatechin metabolites and quercetin in the brain bloodstream soon after the ingestion of cocoa.
Another important factor to consider is whether an increase of polyphenols increases antioxidant levels in the blood. Studies have found definite increases in blood ORAC levels associated with cocoa consumption, indicating that the flavonoids are being utilized by the body. The ORAC (oxygen-radical absorbance capacity) test measures the capacity of a compound to absorb or neutralize oxygen-free radicals, which are harmful to the body. An increased presence of antioxidants gives the body another weapon to fight damaging molecules that are created inside the body every day.
An increase of total serum glutathione, also shown in these studies, indicates that the flavonol molecules are actually doing their jobs inside the living body. Glutathione (a protein found inside cells) is essential for the function of immune cells and disease-fighting.
Another interesting and informative test determines whether the metabolites (breakdown products) of the flavonoids are found in the urine. Presence of metabolites in urine indicates that the molecules are being used by the body. One of the easiest molecules to check in urine is isoprostane -- a molecule that damages the body. If antioxidants are absorbed and functioning correctly, there should be a reduced level of isoprostane found in urine. High levels of isoprostane are associated with increased risk for dementia.
The study performed in 2008 by the University of Utah showed statistically significant increases of ORAC levels in blood plasma, increases of glutathione levels in plasma, and decreases in isoprostane levels found in urine. University of Utah researchers found these results using both a standard dose of Xocai Activ™ (one ounce, three times per day), as well as an increased dose (three ounces, three times per day). These findings confirmed other reports of increased serum ORAC levels, increased glutathione levels, and decreased isoprostane levels found in other in-vivo tests (tests performed in the human body) with dark cocoa powder.
Latest Research and Relevance to the University of Utah Study
Next, allow me to present some of the latest studies performed on dark cocoa, relating them to the results of the University of Utah study.
It‘s no secret that cardiovascular diseases are the leading cause of death in the United States and many other countries around the world. Some projections have cardiovascular disease becoming the number one cause of death in every country of the world by 2010.
It‘s also no secret that dietary changes and intake of flavonol-rich foods have been associated with improvements in cardiovascular disease. The flavonoids and other compounds of cocoa have been clearly shown to reduce the risk of cardiovascular disease in humans. Many such studies have shown an improved endothelial (blood vessel) function, platelet function, insulin sensitivity, blood pressure, and decreases in chemicals that cause inflammation in the body.
A study performed last year looked at post-menopausal women, total flavonoids and cardiovascular mortality found that only a few foods were able to demonstrate significant improvements -- apples, pears, strawberries ... and chocolate. None of the other fruits and vegetables studied shows a capacity to improve cardiovascular health.
In past reports, I discussed two large studies that showed the benefits of cocoa in reducing cardiovascular mortality -- a major study in the Netherlands on elderly men, and a study conducted on the Kuna Indian population of the San Blas Islands in Panama. These studies involved long-term observations that indicated improved cardiovascular benefit of cocoa consumption.
A study conducted this year by the University of Illinois found that the consumption of flavonol-enriched cocoa bars resulted in significant reduction in systolic blood pressure (8.2% decrease) and diastolic blood pressure (8.2% decrease) compared to a placebo group. The improvement occurred within a four-week period, and continued throughout the entire study. These findings were very interesting, especially considering the fact that study participants had no pre-existing hypertension.
A group of researchers from the United Kingdom reported in the American Journal of Clinical Nutrition about a meta-analysis of numerous studies completed on cocoa flavanols and blood pressure.
These researchers found forty-three different studies regarding the effect of chronic (over a long period of time) intake of flavonoids on blood pressure, and seven studies regarding the effect of acute intake. Black tea, red wine and grape juice demonstrated no significant effects on blood pressure. Cocoa, however, presented a 5.88mm reduction in systolic blood pressure, and a 3.33mm reduction in diastolic blood pressure -- statistically significant findings.
Cocoa studies conducted this year found that cocoa increases vasorelaxation (dilates the blood vessel walls) in healthy subjects. Effects were also positive for patients with hypertension, coronary heart disease, the elderly, post-transplant heart patients, and patients with high cardiovascular risk.
The University of Utah study found that basically healthy patients experienced a decrease in systolic and diastolic blood pressure by 5mm within two weeks of a program eating unprocessed cocoa. These findings corroborated other studies, and delivered the same success you would find with weight loss, dieting, and even some blood pressure medications.
It is widely accepted among medical professionals that even a small drop in blood pressure translates to a marked reduction in heart attacks, strokes, and other cardiovascular diseases.
A group of researchers from Yale found this year that acute ingestion of both solid dark chocolate and liquid cocoa improved the blood vessel function and lowered blood pressure in overweight adults. Sugar-free or low glycemic products aided in further improvements in blood pressure.
Research has uncovered the fact that the dilation of blood vessels is achieved via an NO-dependent (Nitric Oxide) mechanism. A decrease in NO is associated with increases in arteriosclerosis and cardiovascular risk. After consuming a flavanol-rich beverage, test subjects experienced an increase in NO, generated by NO synthase. Cocoa stimulates this mechanism to create even higher levels of NO in test subjects.
We also see some evidence that cocoa also acts like an angiotensin converting enzyme (ACE) inhibitor, further lowering blood pressure.
Researchers in Switzerland found that within two hours of consumption of flavanol-enriched cocoa, subjects experienced a significant reduction of serum oxidative stress, improved coronary vessel function, and decreased platelet adhesion. Researchers also noted an increase in serum epicatechin levels at the same time.
This year, a group of researchers from the University of California, Davis, found a capacity in flavonoids to protect myocardial (heart) tissues during damaging events. They found that epicatechins confer cardioprotection to the heart muscle during short- and long-term ischemia reperfusion myocardial injury. In lay terms, the epicatechins protected the heart muscles after a heart attack that caused a decrease in blood flow to the heart.
Within the last year, two other studies concluded that dark cocoa only produced a minimum result. However, a review of the studies found that the first used only approximately 300mg of total flavonoids per day, which is far below the therapeutic amount of 600mg to 900mg of total flavonoids. The second study used 900mg of total flavonoids, but only administered twice per day, which the researchers themselves thought may have contributed to decreased results.
Cocoa molecules are short-lived in the blood stream; at least three times per day appears to be the necessary frequency to enjoy continued results.
A second range of studies examined the conditions of insulin resistance related to impaired glucose tolerance, or "prediabetes" which increases the risk of cardiovascular events, diabetes, decreased endothelial NO (level of nitric oxide in the blood vessels) bioavailability, and increased oxidative stress.
Several studies conducted within the last year examined the impact of flavanol-enriched cocoa ingestion on the oral glucose tolerance test (OGTT), endothelium-dependent vasorelaxation, blood pressure, and serum C-reactive protein (CRP is a measure of inflammation) in adults with hypertension and impaired glucose tolerance.
A study by researchers at Tufts University and the University of L‘Aquilla used 1008mg of total flavonoid cocoa product divided into 3 daily doses, compared to a flavonoid-free cocoa product.
These researchers found that flavonols increased the bioavailability of NO and decreased the formation of oxygen- and nitrogen-free radicals. They also found that flavonols and resveratrol inhibit IκB kinase, and downregulate nuclear factor-κB (an oxidation pathway that causes blood vessel damage and increases fat-induced insulin resistance). This study confirmed other research that flavonol-rich cocoa improved the dilation capacity of blood vessels, and reversed the dysfunction of blood vessels in prediabetics and smokers.
These scientists concluded that high-dose flavanol cocoa improved insulin sensitivity, increased B-cell function (cells that produce insulin), decreased blood pressure, and increased the flexibility of the blood vessel walls. They also found an increase in the QUICKI (quantitative insulin sensitivity check index), which correlates to improved insulin sensitivity, as well as improved scores in the oral glucose tolerance test.
In their study, the University of Utah also found a statistically significant increase in QUICKI, as well as improved two-hour glucose tolerance test scores. U of U scientists also found that unprocessed cocoa powder did improve the function of the pancreas, and lowered diabetic risk. Cocoa was found to be as effective in increasing insulin sensitivity as weight loss, exercise, medications and other dietary supplements.
A study performed in 2008 examined the cerebral (brain) blood flow in healthy elderly people after they ingested flavonoid-rich cocoa. As with similar studies, this study demonstrated a significant increase in cerebral blood flow attributed to the cocoa. Blood flow in the middle cerebral artery, one of the main arteries in the brain, was measured for subjects who ingested 900mg of flavanols. They noted that NO is a critical regulator of brain perfusion. Again, cocoa increased NO availability, and active the N pathways. These scientists noted an increase in peak cerebral blood flow during the first two to four hours (they initially noted a decrease secondary to the caffeine contained in their cocoa powder). They concluded that this increase in blood flow would help to decrease dementia, strokes and other vascular cognitive impairments.
Other studies have found that flavonoids improve spatial memory, and decrease brain edema, as well as neuronal death in the hippocampus -- a part of the brainthat controls mood.
Epidemiological studies suggest that consuming products with high-flavonoid content delays the onset of dementia and Alzheimer‘s dementia. Neurodegenerative diseases such as dementia and Parkinson‘s disease are increased by oxidative stress, inflammation, and the accumulation of iron and protein aggregrates, which lead to neuronal (brain cell) death.
The antioxidant activity, anti-inflammatory activity and potent iron-chelating activity of cocoa provides a neuroprotective component. Researchers have found that epicatechin reduces the toxic effects of amyloid-C, a component of the senile plaques in the brain associated with dementia. We have even come across some information showing that cocoa can slow down nigrostriatal dopaminergic cell loss in Parkinson‘s disease. The mechanism seems to be connected to mitogen-activated protein kinase signaling pathways that are involved in brain cell survival, regeneration and cell death.
Unprocessed Cocoa and Inflammation
Another important area of health benefits from unprocessed cocoa is the reduction of inflammation.
In her review article this year, Karen A. Cooper examined the last 10 years of research on cocoa and health. She believes that a simple antioxidant mechanism driving the benefits of cocoa is not likely. Rather, it is the inhibition of inflammatory pathways that lead to the reduced risk of chronic diseases.
A 2008 study performed in Italy examined the connection between inflammation and regular consumption of dark chocolate. Like Cooper, the researchers here concluded that cocoa‘s capacity to decrease inflammation is what provides most of the health benefits to the body. They hypothesized that dark chocolate consumption is inversely related to the level of C-reactive protein (CRP), a marker of inflammation that is considered an independent indicator of coronary heart disease.
Inflammation and nitric oxide (NO) production play a major role in the development of arterosclerotic plaque. The Italian scientists found that flavonoid-enriched cocoa did indeed decrease serum CRP in a large population of Italian patients.
Another group in Baltimore found a reduction in CRP and a decrease in inflammation in women who consumed approximately 700mg of flavonoids per day.
Recently, a group of researchers from the University of California, Davis, teamed with scientists in Italy examined the anti-inflammatory impact of cocoa flavanols. This group discussed how the production of inflammatory chemicals (cytokines) increases the risk of heart disease, such as hardening of the arteries and congestive heart failure. If the inflammatory pathways can be altered, they argued, then there would be a reduction in heart disease.
Nuclear factor-kappaß (NK-κß) is one of the factors that control inflammatory response, cellular proliferation (growth), and cellular adhesion. Studies have shown that epicatechin and catechin molecules reduce NK-κß activation, and consequently reduce inflammation cytokines.
Cocoa also exerts a significant effect on TNFα (tumor growth factor) which increases the body‘s anti-inflammatory ability. Cocoa flavanols also inhibit the formation of other inflammatory chemicals like IL-2 (interleukin).
Overall, cocoa flavanols inhibit a multitude of inflammatory chemicals, and stimulate the healing of tissues and repair of injured vessel walls.
Another chemical group, eicosanoids, which is produced through the arachidonic acid pathway, is another contributor to inflammation. Some of these chemicals promote platelet aggregation, and can vasoconstrict blood vessels. Cocoa Flavanols block the arachidonic pathway similar to COX-1 and COX-2 inhibitors. These flavanols also block the production of lipoxygenase, which is a contributor to asthma.
As I mentioned earlier, when the blood vessel wall is damaged, the body produces a chemical that causes platelets to aggregate. This action only serves to further damage the blood vessel. Cocoa flavanols have been very effective in inhibiting the chemicals that activate the platelets, reducing the formation of clots. This action is comparable to aspirin in the reduction of blood clots.
Researchers also found that the cocoa flavanols positively influence the immune system and decrease inflammation, promoting healing in the body.
Cocoa flavanols also protect the blood vessels by reducing the damage done by oxidized LDL (bad) cholesterol. Basically, flavanols prevent LDL cholesterol from becoming oxidized. A group from Johns Hopkins found that after two weeks of taking highly flavanol-enriched cocoa, subjects experienced LDL level decreases of 6%, while HDL (good) cholesterol rose by 9%.
Another cholesterol factor important to examine is the production of Apo A-1 protein. Apo A-1 protein, a good cholesterol marker, helps clear cholesterol from arteries. The University of Utah study found that unprocessed cocoa powder significantly increased the amount of Apo A-1 in the body. They also found that the cocoa flavanols increased the good cholesterol antioxidant (PON-paraoxanase), which is an HDL-associated enzyme that confers antioxidant activity on HDL-C, and also helps protect against atherosclerosis.
Interestingly, the University of Utah also discovered that the cocoa flavanols increased lean body mass, which helps the body burn more calories and increases the function of muscles, bones, brain, liver and kidneys. The institution also found that the flavanols increased adiponectin -- a protein hormone that regulates blood sugar, breaks down fat, and suppresses the development of diabetes, obesity, atherosclerosis, and non-alcoholic fatty liver disease.
More Cocoa Benefits
Cocoa flavanols are also important in many other areas. A Finnish study recently found that chocolate preference and consumption in elderly men was associated with better health, optimism, and better psychological well-being.
Medical professionals accept that oxidative stress and inflammation are major contributors to the behavioral and cognitive decline seen with aging. Cocoa flavanols, as discussed earlier, limit oxidative stress, and block inflammation, apparently helping improve memory and slowing down the aging process.
Depression is also a very common problem in our world. A recent rate study found that the addition of high-flavanol cocoa extract given to rats in a forced swimming test indicated that cocoa decreased depression. We know that tryptophan from cocoa is broken down into serotonin and other compounds that fight depression and elevates mood.
Other studies have shown that cocoa flavanols improve the overall immune system.
Studying rats, one group of researchers found that the cocoa-fed rats experienced an improved Th1 immune system (this system helps kill bacteria and helps cells fight off infections).
Another related rat study found that cocoa intake improved intestinal immune response by increasing those antibodies that prevent bacteria from entering the body by fighting them in the gut.
A study conducted in November 2008 researched the benefits of cocoa flavanols on dioxins -- lethal poison compounds. The researchers found that the intake of cocoa definitely suppressed the toxicological effects of dioxins in the body. In effect, the cocoa stopped the damage that this environmental poison does to the body by interfering with different pathways.
Conclusion
Flavanol-rich cocoa demonstrates impressive antioxidant and anti-atherosclerotic effects, increases HDL, improves insulin sensitivity and anti-platelet effects, increases nitric oxide production and vascular relaxation, exhibits anti-inflammatory effects, increases immune response and helps overall mood elevation.
Remember that to achieve these beneficial effects, unprocessed cocoa with low glycemic sweeteners and at least 1,000 total milligrams of flavonoids must be taken at least three times a day for maximum benefits.
Cocoa has indeed come full circle from a Mesoamerican medicinal drink to a modern-day functional food that provides significant health benefits. Reports continue to come in regarding the wide range of benefits from cocoa, including powerful protection against cardiovascular disease, diabetes, and neurodegenerative diseases.
Cocoa is the "long-lost secret" that represents a solution to so many health problems that the world‘s population faces today.
Works Cited
Andres-Lacueva, C. et.al., .Flavanol and Flavonol Contents of Cocoa Powder Products: Influence of the Manufacturing Process.. Journal of Agricultural nad Food Chemistry. (2008).
Balzer, Jan, et.al., .Sustained Benefits in Vascular Function Through Flavanol-Containing Cocoa in Medicated Diabetic Patients.. Journal of the American College of Cardiology. 51 (2008):2141-2149.
Bordeaux, B. et.al., .Causal Chocolate Consumption and Inhibition of Platelet Function.. Preventive Cardiology. 10(4)(2007): 175-180.
Cho, ES, KW Lee, and HJ Lee. .Cocoa Procyanidins Protect PC12 Cells from Hydrogen- peroxide-induced Apoptosis by Inhibiting Activation of p38 MAPK and JNK.. Mutation Research. 640(1-2)(2008): 123-130.
Cooper, Kare, et.al., .Cocoa and Health: A Decade of Research.. British Journal of Nutrition. 99(2008):1-11.
Crews, David, et.al., .A Double-Blind, Placebo-Controlled, Randomized Trial of the Effects of Dark Chocolate and Cocoa on Variables Associated with Neuropsychological Functioning and Cardiovascular Health: Clinical Findings from a Sample of Healthy, Cognitively Intact Older Adults. American Journal of Clinical Nutrition. 87(2008): 872-880.
Davison, K et al., .Effect of Cocoa Flavanols and exercise on Cardiometabolic Risk Factors in Overweight and Obese Subjects.. International Journal of Obesity. 32(8)(2008):1289-96.
Di Giuseppe, Romina, et.al., .Regular Consumption of Dark Chocolate is Associated with Low Serum Concentrations of C-Reactive Protein in a Healthy Italian Population.. The Journal of Nutrition. 138(10): 1939-1945.
Erdman,John, et.al., .Effects of Cocoa Flavanols on Risk Factors for Cardiovascular Disease.. Asia Pacific Journal of Clinical Nutrition. 17(81)(2008): 284-287.
Flammer, Andreas, et.al., .Dark Chocolate Improves Coronary Vasomotion and Reduces Platelet Reactivity.. Circulation. 116(2007):2376-2382. Grassi, Davide, et.al., .Blood Pressure is Reduced and Insulin Sensitivy Increase in Glucose- Intolerant, Hypertensive Subjects After 15 Days of Consuming High-Polyphenol Dark Chocolate.. The Journal of Nutrition. 138(9)(2008): 1671-1676.
Hamed M.S., et.al., .Dark Chocolate Effect on Platelet Activity, C-Reactive Protein and Lipid Profile: A Pilot Study.. Southern Medical Journal. (2008).
Hooper, Lee, et.al., .Flavonoids, Flavonoid-Rich Foods, and Cardiovascular Risk:A Meta- analysis of Randomized Controlled Trials.. The American Journal of Clinical Nutrition. 88(1)(2008):38-50.
Hurst, Jeff., et.al., .Survey of the trans-Resveratrol and trans-Piccid Content of Cocoa- Containing and Chocolate Products.. Journal of Agricultural and Food Chemistry. 56(18)(2008):8374-8378.
Jalil, Abbe and Amin Ismail .Polyphenols in Cocoa and Cocoa Products: Is There a Link between Antioxidant Properties and Health?. Molecules, 13 (2008): 2190-2219.
Kwik-Uribe, C. and Roger Bektash. .Cocoa Flavanols:Measurement, Bioavailability, and Bioactivity.. Asia Pacific Journal of Clinical Nutrition. 17(S1) (2008): 280-283.
McShea, Andrew et.al., .Clinical Benefit and Preservation of Flavanols in Dark Chocolate Manufacturing.. Nutrition Reviews 66 (1)(2008):630-641.
Mehrinfar, Ramona and William Frishman. .Flavanol-Rich Cocoa: A Cardioprotective Nutriceutical.. Cardiology in Review. 16(3)(2008):109-115.
Messaoudi, Michael et.al., .Antidepressant-like Effects of a Cocoa Polyphenolic Extract in Wistar-Unilever Rats.. Nutritional Neuroscience. 11(6)(2008):269-276.
Mukai, R, et.al., .Cacao Polyphenol Extract Suppresses Transformation of an Aryl Hydrocarbon Receptor in C57BL/6 Mice.. Journal of of Agricultural and Food Chemistry. 56(21)(2008):10399-10405.
Muniyappa, R. et.al., .Cocoa Consumption for 2 weeks Enhances Insulin-Mediated Vasodilation Without Improving Blood Pressure or Insulin Resistance in Essential Hypertension.. The American Journal of Clinical Nutrition. 88(6)(2008):1685-1696.
Perez-Berezo, T, et.al., .Influence of a Cocoa-enriched Diet on Specific Immune response in Ovalbumin-sensitized Rats.. Molecular Nutrition and Food Research. (2008).
Pucciarelli, D. and L. Grivetti. .The Medicinal Use of Chocolate in Early North America.. Molecular Nutrition and Food Research. (2008).
Ramiro-Puig, E. et.al., .Intestinal Immune System of Young Rats Influenced by Cocoa-enriched Diet.. Journal of Nutritional Biochemistry. 19(8)(2008):555-565.
Schnorr, O., et.al., .Cocoa Flavanols Lower Vascular Arginase Activity in Human Endothelial Cells in Vitro and in Erythrocytes in Vivo,. Archives of Biochemistry and Biophysics. 476(2)(2008): 211-215.
Schewe, T. et.al., .How Do Dietary Flavanols Improve Vascular Function? A Position Paper.. Archives of Biochemistry and Biophysics. 476 (2)(2008): 102-106.
Selmi, Carlo, et.al., .Chocolate at Heart:The Anti-Inflammatory Impact of Cocoa Flavanols.. Molecular Nutrition and Food Research. 52(2008): 1340-1348.
Stranberg, TE, et.al., .Chocolate, Well-Being and Health Among Elderly Men.. European Journal Of Clinical Nutrition. (2007):1-7.
Sorond, Farzaneh. .Cerebral Blood Flow Response to Flavanol-Rich Cocoa in Healthy Elderly Humans.. Neuropsychiatric Disease and Treatment. 4(2)(2008):433-440.
Srikanth, R et al., .Chocolate Mouth Rinse:Effect on Plaque Accumulation and Mutans Streptococci Counts When Used by Children.. Journal of Indian Society of Pedodontics and Preventive Dentistry. (2008):67-74.
Tomaru, M. et.al., .Dietary Supplementation with Cacao Liquor Proanthocyanidins Prevents Elevation of Blood Glucose Levels in Diabetic Obese Mice.. Nutrition. (2007).
Yamazaki, K. et.al., .Short- and Long-Term Effects of (-)-Epicatechin on Myocardial Ischemia- Reperfusion Injury.. American Journal of Heart and Circulatory Physiology. 295(2008):H761-H767.
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Clinical Studies on Xocai
The University of Utah Recently Completed A Study On The Effects of Xoçai Antioxidant Supplements on Atherosclerosis Risk Factors
An antioxidant dietary supplement made from cocoa powder, and extracts of acai, grape and blueberry will be tested for effects on blood sugar, blood pressure, cholesterol and related parameters in human subjects.
Background and Introduction It has long been known that increased intake of plant products results in reduced risk of atherosclerosis and cardiovascular disease, which are the most important causes of death and disability in Western societies. This protective effect has been found to correlate with increased plasma levels of various antioxidant vitamins along with the expected increased resistance of the plasma to oxidation, and reduced evidence of oxidation of lipoproteins and other plasma components. It also has long been understood that oxidized LDL, and related lipoproteins which also contain apo B-100, are a primary driving force in the process of atherogenesis. These two facts have led to a very strong interest in developing antioxidant treatments as likely effective atheropreventive measures. This quest has taken the form of several large, long-term interventional studies, in which patients have been given purified antioxidant vitamins in an effort to reduce cardiovascular events. Surprisingly, almost without exception these interventions have failed to show any favorable effects. The cause of this paradox remains unknown, but may have resulted either from the reliance on antioxidant vitamins, rather than other antioxidant elements in the diet, or from the use of highly purified products, instead of more lightly processed food elements.
Cocoa mass (or cocoa powder in the dried form) is the edible non-fat part of the cacao bean which remains once the fatty cocoa butter has been removed. Cocoa mass or powder is a rich source of polyphenol antioxidants of the flavonoid family. The predominant flavonoids in cocoa are flavonols, including both the oligomeric proanthocyanidins (procyanidins and prodelphinidins) and the monomeric catechins and epicatechins. Recent studies have shown that chocolate preparations which are high in cocoa (and thus high in flavonol content) may have several beneficial effects on the vasculature and on various risk factors for atherosclerosis. These likely beneficial effects include:
- Increased vascular reactivity
- Improved arterial compliance
- Increased HDL-C levels,
- Decreased oxidation of LDL, and
- Reduced insulin resistance.
Although several of these studies have compared preparations with low vs. high content of cocoa (or flavonols), only one study of which we are aware has tested effects of a source of chocolate other than a high-fat chocolate bar. Only a non-bar product can readily exclude cocoa butter and/or butterfat and thus be low in fat content. Meanwhile the relatively high fat content of a chocolate bar, even if made with high cocoa powder content (thus a “dark” chocolate bar) adds many calories to the product and may well reduce the beneficial effects of the cocoa. Apparently also, all of the preparations tested in the published studies were relatively high in sugar content, which also adds calories and may reduce the benefits of the cocoa.
In addition there are many inconsistencies among studies of standard chocolate preparations regarding the above-mentioned beneficial effects (for example, studies failing to show lipid or anti-inflammatory effects), and these inconsistencies may relate to various issues. First, of all the elements in chocolate-containing foods, cocoa mass or powder appears to contain virtually all of the antioxidant factors. Variability in cocoa powder content, or possible blunting of its benefits by the addition of variable amounts of cocoa butter might variably reduce the beneficial effects. Second, the alkaline processing of cocoa (which is routine for virtually all bar and powdered chocolate products) may reduce its antioxidant content and activity. Thus, the variability in published results among various chocolate preparations could be due to differences in the degree and type of processing of the cocoa (and resulting differences in its antioxidant content), and/or differences in the presence of other components (such as fat and/or sugar) which might block beneficial effects of the cocoa.
Açai fruit appears to have even greater content of antioxidant polyphenols (primarily as anthocyanins) than does cocoa mass or powder, especially when preserved from fresh açai juice as freeze-dried açai powder. Açai is known to contain many vitamins and minerals as well as some fats, and is a rich source of phytosterols. It is said to be able to lower LDL levels, likely because of its unsaturated and monounsaturated fat content. It is also said to have anti-inflammatory effects. Although processing into freeze-dried açai powder removes most of the fat, phytosterols and dietary fiber, the unique potential of açai appears to be primarily in its many anthocyanin antioxidants, which are best preserved in the freeze-dried powder. Unfortunately, in contrast to the many studies on chocolate, there appear to be no published scientific studies of physiologic effects of Açai (as an antioxidant or otherwise) in humans. A recent lay review of açai by Alexander G. Schauss, PhD, FACN (“Açai: The Nutritional and Antioxidant-Rich Amazonian Palm Tree Fruit,” Sound Concepts, 2005), states that some human studies have been performed with açai and that the first scientific articles are currently in preparation. Dr Schauss does not mention, however, any detail about the methods or results of any such studies.
Blueberries, grapes and peppers have natural antioxidants, albeit in far lesser quantities than acai. With the exception of grapes, the in vivo effects of these antioxidant-rich fruits on human subjects have been very little studied. Research into the intake of alcoholic and non-alcoholic grape products (both from lighter- and darker-colored grapes) has shown significant antioxidant effects, especially with dark grapes. Any effects of grapes on atherosclerosis or its many standard risk factors remain controversial at best, and in many cases are unknown. Given the encouraging scientific data regarding antioxidant and vascular effects of cocoa and grapes in human subjects, further studies of non-vitamin antioxidant-rich food products are clearly warranted.
The study product, Xoçai Activ drink , has been carefully designed to try to maximize antioxidant content and effects in a pleasant-tasting natural food product. It achieves this by (1) including many ingredients with naturally high antioxidant content, cocoa powder, and Acai, grape and blueberry powders. (2) minimizing the processing of its components, and (3) eliminating added fat both to minimize potential interference with the likely favorable effects of its main ingredients, and to minimize its total caloric content.
In light of the high antioxidant content (manifested as high ORAC, etc.) of Xoçai Activ it is a prime candidate for studies of antioxidant effects in humans in vivo. If this study can show significant effects on clinical-relevant endpoints, such as lipids, glucose tolerance, blood pressure, or vascular function, it would indicate that clinical disease can be prevented with antioxidant supplement therapy.
- Xoçai Activ will have dose-dependent antioxidant effects in human subjects
- Xoçai Activ will improve several atherosclerosis risk factors in a dose-dependent manner:
Due to the difficulty in preparing placebo interventions, this study will not be double-blinded. We will however, blind the measurement of all laboratory assays.
All blood and urine will be taken, and all vascular and body composition measurements will be performed after a 12-hour overnight fast twice during the baseline period and twice at the end of each 2-week period of intervention.
Diet: Subjects will have their routine diet assessed between the two baseline visits, and at the end of the study by means of a 3-day food record. They will be instructed to consume no antioxidant supplements, and to minimize consumption of high antioxidant foods (chocolate, blueberries, red grapes, etc.) during the study.
Laboratory measurements: Antioxidant levels and activity are a primary endpoint of the study and will be measured at baseline and in each dose in each subject.
Vascular measurements: Blood pressure and vascular function should be favorably affected by Xoçai, and they will be measured by standard, established methods in our research clinic.
Body composition: We anticipate that the effects of Xoçai may be determined in part by body composition, in that more obese subjects, who have greater abnormalities in oxidation, inflammation, lipids and vascular function, will have a greater response. We will measure body composition by percent body fat by bioelectrical impedance.
Click Here for details on the study.
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