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Study confirms the healing potential of black cumin for asthmaticpatients
Date:
February 27, 2019 09:57 AM
A recent Annals of Saudi Medicine article suggests that black cumin can have significant benefits for the respiratory health of people with asthma. Researchers from Saudi Arabia’s Imam Abdulrahman Bin Faisal University conducted a clinical trial involving 76 asthma patients. They supplemented the patients’ maintenance inhaler regimens with either one gram or two grams of black cumin, or else a placebo. Subsequent evaluation found that those who had received any amount of black cumin supplementation saw better improvement in lung function relative to those who did not receive any. Key Takeaways:
"Research suggests that black cumin, also known as Nigella sativa, can help people with asthma." Read more: https://www.naturalnews.com/2019-01-20-healing-potential-of-black-cumin-for-asthmatic-patients.html
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6058) 5 Health Benefits Of Comfrey
Date:
July 02, 2017 12:14 PM
Comfrey, a weed common to the waters edges in Europe, has long been used as a medicinal plant. Since the Medieval period, this plant has been used as a natural remedy for a number of ailments. It has proven to be beneficial in a number areas related to healing of skin ailments, with boosts to the immune system and improved relief of inflammation. Though Comfrey does have some serious problems with toxicity due to alkaloid content. Usage of Comfrey can be done safely with positive effects. Key Takeaways:
"Researchers found that “a highly significantly and clinically relevantly faster initial reduction of wound size…was found.” They found that patients’ wounds took on average three days less to heal completely than the control group, and that there were no adverse effects or intolerability issues. It doesn’t get much better than that, folks!" Read more: http://www.thealternativedaily.com/health-benefits-of-comfrey/
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4915) Does Melatonin Decline As We Age?
Date:
September 22, 2015 01:00 AM
Melatonin is a hormone secreted by the pineal glands. The circadian production of melatonin is tied to the day/night cycle. Light through the retina signals the pineal glands to suppress its production. Lack of light stimulation (at night) results to increased production of melatonin. The increased hormone production at night is associated with a good night’s sleep. According to a study, melatonin significantly reduces sleep latency and increases sleep efficiency. It has thus been used to treat insomnia. Aging and Insomnia Insomnia is commonplace among the elderly. As we age, sleep problems which include difficulty in falling asleep and maintaining the sleep are so rampant. This is so because melatonin production declines with age. With age comes the disruption of the circadian rhythms associated with the production of melatonin. To this end, melatonin supplements come handy to the elderly in maintaining a good night’s sleep.
Aging and Alzheimer's Disease There is more to this hormone than a good night’s sleep and normal aging. There are evidences that melatonin suppresses Alzheimer’s disease. AD is the leading cause of dementia among individuals older than 65 years. Lack of sleep is a common symptom among AD patients and feels bad but sundowning (worsening of symptoms during evening hours) is worse. According to Netherlands Institute of Brain Research, the declining production of melatonin among the elderly not only affects the circadian rhythms but also enhances the development of Alzheimer.
Melatonin as an Antioxidant Melatonin production starts to decline at age 60. This is the onset of diseases like AD which leads to increased production of free radicals in the brain. According to a review paper written in 2000, there is a lot of pathological changes among AD patients’ autopsied brains as a result of free radical activity. Melatonin carries antioxidant properties which fight the free radicals and protect the brain neurons.
Melatonin Supplements Melatonin is a powerful hormone. Its function in sustaining optimal human health is crucial. New discoveries are being made on this versatile hormone. The fact that its production starts to decline at 60 only means that you need to use supplements and not fret over the onset of AD or insomnia. It is clear that besides being harmless and natural in treating insomnia, Melatonin is the most effective way of averting deleterious aging effects.
References www.life-enhancement.com/magazine/article/1025-melatonin-can-reset-your-biological-clock www.quora.com/Why-do-we-sleep-less-as-we-age www.biomedgerontology.oxfordjournals.org/content/56/1/B21.full
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3221) Tryptophan
Date:
July 03, 2008 08:58 AM
Serotonin has not only been shown to regulate sleep, but it also is responsible for controlling mood, including feelings of optimism, relaxation, general sense of well-being, and the ability to focus and concentrate. When serotonin levels drop, it can lead to a lowered mood, which is what people experience with seasonal affective disorder, premenstrual syndrome, and general stress. People who experience these conditions also have been shown to experience decreased levels of tryptophan, which is responsible for the decrease in production of serotonin. Tryptophan depletion has been associated with a lowering in mood of normal healthy men. In one study, women who had recovered from major depression and ended drug treatment experienced temporary but clinically significant depressive symptoms after tryptophan depletion. In many studies that were performed in the 1970s, indications of trytophan’s ability to relieve lowered mood were found. When shorter days begin in the fall and winter, negative effects on a significant percent of the U.S. population result. Some experience sadness, sleepiness, increased appetite, weight gain, and a loss of libido, which is what is known as seasonal affective disorder (SAD). A key contributor to this is the increased synthesis of melatonin that occurs during the winter months. Daylight normally inhibits the conversion of serotonin into melatonin. Since the period of nighttime is longer in the winter versus the summer, there is a longer period of melatonin secretion. Increased synthesis of melatonin depletes serotonin levels, which, in turn, increase the symptoms of SAD. Those patients who experience SAD tend to crave starchy foods and sweets more, which happens when brain serotonin levels are low. Tryptophan treatment may offer a substantial amount of help for people who are suffering from seasonal affective disorder. SAD patients who were treated with either light therapy or with tryptophan proved that patients with light therapy relapsed more quickly after the discontinued use, as apposed to those who were treated with tryptophan. Studies have also shown that SAD patients often feel better after being treated with tryptophan. Serotonin also plays an important role in behavioral inhibition. Many studies have found that there is a decrease in aggressive behavior when serotonin is increased, while decreasing serotonin leads to impulsive aggressive behavior. Another study proves that healthy men who are depleted of tryptophan show more aggressiveness. When tryptophan supplementation was studied, participants who received the tryptophan significantly decreased their quarrelsome behavior and increased in sociable and agreeable behavior. Additionally, those patients’ perceptions of other participants’ agreeableness also increased. Symptoms that are related to premenstrual syndrome include depression, cravings for foods that a rich in carbohydrates, insomnia, irritability, and hostility. More so, women with premenstrual syndrome dysphoria, which is a more severe premenstrual syndrome, have shown decreased levels of brain serotonin. This suggests that tryptophan may be involved, as premenstrual women who had tryptophan depletion have shown increased aggressive behavior. When tryptophan supplementation was studied on women who experienced premenstrual dysphoric disorder, mood swings, tension, and irritability, results showed that there were significantly greater improvements with l-tryptophan supplementation than with a placebo.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1831) GTF Chromium
Date:
April 23, 2008 11:21 AM
Chromium is a trace element in your body, meaning that it is present only in very small quantities, yet like many trace elements it is extremely important to your health. Most people associate chromium with the shiny finish on car fenders, but it is more than that. Chromium oxide was discovered as being a part of crocoite, better known as red lead, which is actually lead chromate, sometimes containing some molybdate and perhaps vanadium. Although it was discovered in the middle of the 18th century, it was not until 1797 that chemist Louis-Nicholas Vauquelin discovered it for what it was. He synthesized it in his laboratory in 1798, which is the ultimate proof of the identity and chemical structure of any substance. It was eventually named chromium, after the Greek ‘chroma’ meaning color, because its compounds are highly colored, normally yellow, red and green, and it is chromium that gives emerald its green color. It is also found in low concentrations in the human body, but too low, thankfully, to color your body red, green or yellow! Perhaps Martians contain a lot of chromium! The first indication of the potential benefits of chromium to health was when a pork kidney extract called the Glucose Tolerance Factor was discovered in 1957 to enable rats to improve their use of insulin in maintaining the effective use of blood sugar in generating energy. The GTF contained chromium, and that was believed to be the effective ingredient. Diabetes is a condition in which people either do not generate enough insulin or cannot use it properly. Insulin is a hormone biosynthesized in a group of cells known as the islets of Langerhen in the pancreas and is a necessary part of your metabolism. Your metabolism converts carbohydrates and various sugars into glucose, and when the glucose level reaches a certain concentration in your blood, you stop feeling hungry and the pancreas is stimulated into secreting insulin. The insulin allows the cells to admit sugar and the mitochondria within them to convert the glucose to energy. Your body likes the blood glucose level to be maintained at between 70 and 110 mg/dl. If it falls below 70, then you will be suffering from hypoglycemia, but you can be above 110 if you have recently eaten. If your blood glucose is being measured it must be at least four hours after your last meal, which is why you are asked to fast first. The absolute maximum is 180 mg/dl, above which you are in trouble and suffering hyperglycemia. If your pancreas cannot produce any insulin you are regarded as having Type 1 diabetes, and if it produces too little or your body cannot use it effectively, it is Type 2 diabetes. It is believed today that chromium is one of the factors involved in allowing the cells to absorb glucose, and that without it the mitochondria are unable to convert your blood glucose into energy. Although up to 90% of Americans are thought to have a low chromium content, few are believed to be deficient and there is a big difference between the two. However, pregnant women and the elderly are particularly prone to a deficiency, as are those that consume too many sugary foods. A deficiency in chromium not only leads to an excess of blood sugar however, but also of cholesterol and triglycerides. This can in turn lead to atherosclerosis, heart disease and strokes. Although the role of chromium in the control of blood sugar levels was discovered in the 1950s, it was not until the 1970s that it was proven. As with many such proofs it came about accidentally, through what was known as Total Parenteral Nutrition (TPN). This provided intravenous nourishment to patients who were unable to eat, and contained a mixture of the nutrients believed to be essential to life. However, the mixture was based on current knowledge, and it was found that some patients developed the symptoms of hyperglycemia, or high blood sugar levels. This was what would have been expected of untreated diabetics, but none were diagnosed with the condition so the cause was a mystery. The physicians responsible for the treatment had no option but to administer insulin, even though there appeared to be no deficiency in the patients. If you are with us so far, then you will realize that the insulin would not have had the expected result. That is because the condition is not caused by too much sugar or carbohydrate in the diet, and also not caused by a deficiency of insulin. However, due to the known role of chromium in the action of insulin, it was then thought that TNP solution would be improved by adding chromium. When chromium was added in small quantities of under 50 micrograms (5 hundredths of a gram) the patients’ condition improved to normal, and the effect of chromium on blood sugar levels was finally proven. So how does chromium achieve this? In fact the biochemistry is complex, and dietary chromium works in a different way to the chromium picolinate that is the most popular form of chromium supplement. However, in a nutshell, what appears to happen is that its effect on human tissue may be through an increase in the activation of Akt Phosphorylation, which is a protein within the body cells that enables the easy absorption of glucose into the cells. In addition to that, cell membranes contain insulin receptor sites that respond to biochemical signals from messengers such as hormones and nutrients, and it is believed that chromium might be involved in promoting the binding of insulin to these sites. Alternatively, it is possible that it may promote the reactions that occur after the insulin has bound to the receptor site, an occurrence that is referred to as a post-receptor event. Whether chromium is involved in a post-receptor event or in binding the insulin top the receptor sites, there is no doubting the importance of the element to the overall insulin-glucose-energy metabolism, and that the trace element chromium is indeed important in helping your body cells to absorb glucose.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1766) L-Glutathione Can Eliminate Toxins in the Liver
Date:
December 07, 2007 11:54 AM
L-glutathione is the reduced form of glutathione, and is a tripeptide synthesized in the animal and plant tissues from glycine, cysteine and glutamate. Commonly known as GSH, it contains thiol groups that are maintained in a reduced state, and is a very powerful antioxidant, considered to be the key antioxidant and protective substance in the body. Glutathione can reduce any disulfide groups in the cytoplasm within the body of the cell, and ensures that the cytoplasm is a strongly reducing medium protecting against oxidation. It has a synergistic effect with other antioxidants to protect the body against free radicals and oxidizing agents that cause so much damage to the body through what is commonly referred to as ‘oxidative stress’. However, there is more to it than that and it attaches itself to toxic chemicals and drugs in the liver and renders them into a state suitable for elimination from the body. These toxic materials include poisonous pesticides, hydrogen sulfide, carbon monoxide, heavy metals such as mercury, cadmium and chromium and many other substances that we come into contact with due to present day pollution of our atmosphere and foodstuffs. Glutathione can also help protect the body from the effects of chemotherapy and evidence is suggesting possible links with the control of some cancers, diabetes, atherosclerosis and many other degenerative conditions caused by free radical attack and the effects of pollutants. The way that GSH acts in the cells is that the redox state of the glutathione-glutathione disulfide couple is critical to the health of the intercellular and intracellular fluid. GSH in the reduced state of glutathione reacts with an oxidative agent such as hydrogen peroxide to form the oxidized form, glutathione disulfide and water. It hence mops up oxidizers such as peroxides and free radicals within the cytoplasm of the body’s cells, and also in between the cells. The disulfide is then converted back to GSH by the combined action of the enzyme glutathione reductase and NADPH (the reducing agent nicotinamide adenine dinucleotide phosphate). The cycle then repeats so that two molecules of glutathione continue to reduce damaging oxidizing agents without themselves being consumed. In so doing, the NADPH becomes oxidized. A continuous supply of NADPH is needed to allow GSH to undergo these biochemical reactions, and up to 10% of our blood glucose is used by the pentose phosphate pathway by which NADPH is synthesized. Since this cycle consumes no glutathione, it would appear that a supplement is unnecessary. However, this is not the case since the molecule takes part in other reactions in the body, particularly in the elimination of toxic heavy metals from the body. Mercury is highly reactive with the thiol that GSH is, and so will bind to form a stable Hg-sulfydryl bond in the liver. This mercury-glutathione chelate is unable to bind to other proteins or gain access to the body cells, and is eventually harmlessly secreted. The same is true of many other heavy metals that are reactive with thiol’s. In this way the body is protected from the harmful effects of these heavy metals. However, it results in the loss of the glutathione, and the pollution of modern day living can take a heavy toll of the GSH content of our bodies. For this reason a glutathione supplement is recommended, especially for city dwellers that may be exposed to more heavy metals than those residing in rural areas. However, the form in which this supplement is taken is very important, because the human digestive tract contains a significant amount of gamma-glutamyltranspeptidase. That is an enzyme which apparently destroys glutathione before it can be absorbed. However, it can be absorbed directly into the bloodstream by dissolving the pill between the teeth and inner cheek. It has also been suggestion that the supplement could be administered by injection. Others have suggested that rather than administer a supplement, individuals could take other supplements that contain the materials needed to stimulate the formation of GSH. Substances such as vitamin C, selenium (important in GSH biochemistry), methionine, alpha-lipoic acid and glutamine could all help to increase the body’s production of glutathione. A supplement of the constituent parts of cysteine, glycine and glutamic acid should also help. The dosage ranges recommended vary widely from 50mg to 500mg daily, and the effects of supplementation are not yet well know. Some specific conditions that this wonder antioxidant is useful in treating include liver disease such as hepatitis, cirrhosis and so on. Patients suffering from these diseases show a massive reduction in their GSH content and prior GSH treatment appeared to offer a significant degree of protection in controlled clinical investigations. Patients suffering from chronic hepatitis C have been found to be associated with reduced GSH levels, particularly if also HIV positive. Similar deficiencies have been noted in some lung conditions such as asthma and other pulmonary conditions. In such cases it has been demonstrated that administration of GSH supplements sufficient to restore normal levels of the substance improved the patients’ conditions by a significant amount. Its effect on atherosclerosis appears to be significant since a decreased level of GSH peroxidase has been recorded in such patients in addition to an increase in lipid peroxides, indicating that oxidation of the arterial wall had been occurring. Anti-viral therapies that rely on GSH biochemistry for their action have been found to be less effective in those with low GSH levels, and other studies have confirmed that supplementing with GSH improves the response to interferon treatment. These results indicate the activity of oxidizing agents and free radicals in liver conditions, and in fact this has been demonstrated by tests carried out in New York and Philadelphia in the 1990s. This suggests that the liver is prone to damage by oxidative stress, and that GSH levels may be able to be used as an indication of potential liver disease. What is evident is that a strong case can be made for glutathione supplementation as protection against potential liver, pulmonary and cardiovascular diseases, especially by those exposed to specific polluting agents such as primary or secondary tobacco smoke, auto and diesel fumes and chemicals and pesticides. L-glutathione is useful, not only for the elimination of toxins in the liver, but also in protecting this large and vital organ from the oxidative stress that modern living brings. L-Glutathione and its precursors are sold over the counter at your local or internet health food store.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1649) Active Coenzyme Q10
Date:
July 07, 2007 01:30 PM
Active CoQ10
The benefits of Coenzyme Q10 have become increasingly well-known. This important nutrient has been shown in clinical trials to improve heart function, reduce the side effects of certain drugs used to treat cancer, and slow the progression of serious brain diseases such as Parkinson’s disease. Now research has opened a new chapter in the CoQ10 story, highlighting the benefits of ubiquinol, the active form of CoQ10, to increase energy and stamina, and reduce some of he physical signs of aging.
In this issue of Ask the Doctor we will review the benefits of Coenzyme Q10, and discuss the differences between CoQ10 and its active form –ubiquinol.
Q. What is CoQ10?
A. CoQ10 is a natural, fat-soluble nutrient present in virtually all cells. CoQ10 also is known as ubiquinone. That’s because CoQ10 is ubiquitious and exists everywhere there is life. CoQ10 is vital to adenosine triphosphate (ATP) production. ATP is the energy-rich compound used for all processes requiring energy in the body. Although CoQ10 is produced by the body and exists in some limited dietary sources, these levels may be insufficient to meet the body’s requirements. CoQ10 levels diminish with age and as a result of dietary inadequacies and various disease states. Also, some drugs, especially a group of cholesterol lowering prescription drugs known as “statins,” (Pravachol, Zocor, Lipitor, etc.) significantly reduce CoQ10 levels in the body.
Q. What is ubiquinol? Is it the same or different from CoQ10?
A. Ubiquinol and CoQ10 are very closely related. Ubiquinone, or CoQ10, is the oxidized form of the molecule. This means it has to be converted to a non-oxidized form before it can perform its work. Ubiquinol is the active form of this nutrient. Our bodies convert CoQ10 to ubiquinol – which is the form needed to produce cellular energy. Until recently, it was not possible to use ubiquinol as a supplement because it is very unstable outside the human body. But research has now found a way to keep this molecule stable so it can be successfully taken in supplement form.
Q. If CoQ10 gets converted to ubiquinol anyway, can’t I just take CoQ10?
A. While it is true that our bodies can convert CoQ10 to ubiquinol, it isn’t true that we all do this equally well. In fact, as we age, our ability to convert CoQ10 to ubiquinol declines. And some people even have a gene that makes them less effective at this conversion than the majority of the population. IN fact, several common health issues have been associated with less than optimal ratios of CoQ10 to QH. For healthy people the ideal ratio is approximately 97% Ubiquinol to 3% CoQ10. But in people with diabetes, for example, the ratios have been found to range from 43% ubiquinol to 47% CoQ10 in mild diabetes, to only 24% ubiquinol to 76% CoQ10 in severe diabetes. These numbers are for men; the numbers for women vary by 2 to 5 percentage points.
So for older folks, the 30-50% of people who have the gene that impairs CoQ10 conversion, or for people who have serious health concerns, supplementing with ubiquinol instead of CoQ10 might be the smart choice.
Q. What are the health benefits of CoQ10 and Ubiquinol?
A. There have been many studies showing that CoQ10 is beneficial in treating and preventing heart disease and conditions such as high blood pressure atherosclerosis (hardening of the arteries), angina, and congestive heart failure (CHF). It’s been shown that heart attacks tend to occur when CoQ10 levels are low in the body. Exciting new research has found that CoQ10 in a unique delivery system supplementation may slow the progression of symptoms associated with neurological diseases such as Parkinson’s disease, ALS, Huntington’s disease and Alzheimer’s disease.
In addition, CoQ10 is beneficial for diabetes, immune dysfunction, cancer, periodontal disease, prostate cancer, and neurological disease. While the research on ubiquinol is still very new, it is reasonable to expect that its benefits will be equal to or perhaps even better than CoQ10, because it is the more active form.
Q. Why is CoQ10 especially important for preventing and treating heart disease, and for neurological diseases like Parkinson’s disease?
A. The heart and brain are some of the most metabolically active tissues in the body. Both require large amounts of uninterrupted energy, which means these tissues also need increased amounts of ubiquinol. Research has shown that many people with heart of brain diseases have serum CoQ10 levels that are lower than those of healthy people. Correcting such deficiencies often can produce significant results. However, these diseases become more common as we age – right at the time our ability to convert CoQ10 to its active form, ubiquinol, declines.
Q. How might ubiquinol be important for the heart?
A. Heart Health: A study on patients admitted to the hospital with an acute myocardial infarction (AMI) found that CoQ10 can provide rapid protective effects in patients with a heart attack if administered within three days of the onset of symptoms. Seventy-three patients received CoQ10 (120 mg/d). The study’s control group consisted of 71 similarly matched patients with acute AMI. After treatment, angina pectoris (severe chest pain signifying interrupted blood flow to the heart), total arrhythmias (dangerously irregular heartbeats), and poor function in the left ventricle (the essential chamber of the heart) were significantly reduced in the CoQ10 group compared to the placebo group. Total deaths due to sudden cardiac failure and nonfatal heart attacks also were significantly reduced in the CoQ10 group compared with the placebo group.
In another study, CoQ10 was studied in 109 patients with high blood pressure (hypertension). The patients were given varying doses of supplemental CoQ10 with the goal of attaining a certain blood level (greater than 2.0 mcg/l). Most patients were on medications to treat hypertension. Half the patients were able to stop taking some or all of their prescription drugs at an average of 4.4 months after starting CoQ10. The 9.4% of patients who had echocardiograms, performed both before and during treatment, experienced a highly significant improvement in heart wall thickness and function. This improvement was directly attributed to CoQ10 supplementation.
Congestive heart failure (CHF) is a debilitating disease that affects 5 million people in the
And Neurological Health?: A study sponsored by the National Institutes of Health showed that supplementing with CoQ10 in a unique delivery system was associated with a slowing of the progression of Parkinson’s disease. Participants were divided into 4 groups and their physical skills (coordination, walking, etc) and mental skills were evaluated. Each group then received 300 mg, 600 mg, or 1200 mg of a special form of chewable CoQ10, or a placebo. The researchers evaluated the participants after 1, 4,8, 12, and 16 months of treatment. Each participant was again scored on motor, mental, and activities of daily living skills.
The results of the study showed that the people who took the highest dosage of CoQ10-1200 mg-experienced the least decline in their physical abilities. The results were so encouraging that the researchers will be continuing with new studies, suing higher dosages to see if the results can get even better.
Huntington’s disease (HD) is a devastating and degenerative inherited disease that is always fatal. In fact, no other medication, drug, or nutritional supplement has ever been shown to cause a decline in the progression of this terrible disease. A study compared CoQ10 against remacemide (an investigational HD drug made by AstraZeneca Pharmaceuticals), in 347 HD patients who were in the early stages of the disease. Remacemide blocks glutamate, the neurotransmitter scientists think may cause the death of brain cells that occurs in Huntington’s disease. While remacemide had no effect on the progression of HD, CoQ10 showed a trend toward slowing the disease by an average of 15%. This meant the HD group taking CoQ10 was able to handle every day activities of life a little longer than the patients taking remacemide or a placebo. They also were able to focus their attention better, were less depressed, and less irritable.
The 15% slowing of decline can result in about one more year of independence of HD patients. Needless to say, the gift of an additional year of health in the lives of HD patients is incredibly significant.
Because of these impressive results, researchers are hopeful that supplemental CoQ10 will have beneficial effects for people with other neurological diseases such as ALS and Alzheimer’s disease, too. Studies are under way to confirm these effects.
Using the active form of CoQ10 helps to assure that, regardless of age or illness, the CoQ10 can have the greatest impact.
Q. What have been the results of research studies with Ubiquinol?
A. One of the most interesting effects of Ubiquinol that has been reported so far is its ability to slow the physical signs of aging. In laboratory studies, administration of stable ubiquinol to mice forestalled the changes associated with aging – rounded spine, patchy fur and irritated eyes. While the mice who received ubiquinol did not necessarily live longer than the mice that didn’t, they lived better. But it is important to note that these mice were bred to die at a young age. Human studies are needed to determined true impact on longevity.
Additionally, supplemental, stable ubiquinol has been shown to increase physical energy and stamina. In an animal study, the length of time rats were able to run on a treadmill before getting tired was measured. The same rats were then given ubiquinol and the treadmill test was repeated. The length of time the rats were able to run before tiring increased 150 times.
Q. How can one supplement have applications for neurological diseases, heart health, and even the immune system?
A. Supplements often have more than one function, especially when it’s a substance like CoQ10, which is present in all parts of the body. All nucleated cells (most cells other than red blood cells) have mitochondria and all cells require energy to function. CoQ10 is vital to ATP production. Thus, CoQ10 has applications not only in neurological (neurons or nervous system cells) and cardiac health (myocardium or heart tissue), but also for the immune system.
Q. Should I take CoQ10 or ubiquinol? How much should I take?
A. While everyone can benefit from CoQ10 or ubiquinol supplementation, it appears that ubiquinol should be the first choice for older adults, people with known genetic inefficiencies in converting CoQ10 to ubiquinol, and for people with serious heart disease or neurological diseases such as Parkinson’s disease, who are otherwise supplementing with high levels of CoQ10. For people in overall good health, a high quality CoQ10 supplement with proven absorption is a good choice.
Take 200 to 300 mg of CoQ10 or 100 mg ubiquinol daily, depending on your health history. The safety of both forms has been tested, and no significant side effects reported. Occasional mild stomach upset may occur. Taking your CoQ10 or ubiquinol with meals usually alleviates this rare effect.
Conclusion
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1583) Safe Solutions for Chronic Pain
Date:
March 30, 2007 12:09 PM
Safe Solutions for Chronic Pain One of the biggest challenged in healthcare today is the problem of pain. There are simply too many people living each and every day with ongoing, unremitting chronic pain. And there are far too many healthcare providers who – for a variety of reasons – are failing to adequately address this serious problem. Recently, 368 doctors who routinely care for patients with chronic pain agreed to take part in a unique study. The doctors were surveyed about the pain medicines hey prescribe, what kind of treatment goals they hope to achieve, and how they felt about their ability to help their patients. They were also presented with four chronic pain vignettes or mock case studies and asked to select the best treatment for each scenario from multiple choice answers. Sadly, many doctors chose the worst treatment options in the case studies. The medications they reported using in their practices did not reflect current pain treatment standards. They tended to set low treatment goals 0 instead of aiming for a least a 75% reduction of pain for their patients, they settled for 10% to 20% reductions. And many of the doctors admitted they lacked confidence in their ability to relieve their patients’ pain and suffering. Adding to the challenge are the almost daily news announcements about dangerous side effects in certain pain medications. Synthetic prescription COX-2 inhibitors, once hailed as the safest of drugs, have been linked to heart attacks, strokes, blood clots, and intestinal bleeding. The over-the counter (OTC) drugs aspirin and ibuprofen kill over 16,000 people each year. And acetaminophen, the most widely used pain reducer in the As a doctor specializing in chronic pain disorders, I know that optimal pain management can be a real challenge. However, I also know: -You do not have to live in chronic pain. -Your chronic pain, no matter what the cause, can be reduced, and usually eliminated. -Chronic pain can be relived both effectively and safely with powerful all-natural compounds. Q. What is chronic pain? A. Sudden, or acute, pain occurs when pain signals immediately fire in your nervous system alerting you to an injury, like a broken ankle, or an illness, such as appendicitis. Once the injury heals or the illness is cured, the transmission of pain signals stop. Ongoing – or chronic pain – is much different. Chronic pain persists. Pain signals keep firing in the nervous system for weeks, months, even years. There may have been an initial injury, such as sprained back muscles, or an initial illness, such as a serious infection. There might be an ongoing cause of pain, such as arthritis, cancer, or fibromyalgia. Chronic pain also occurs without any past injury or evidence of body damage. The most common kinds of chronic pain are headache, low back pain, cancer pain, arthritis pain, and neurogenic pain (pain resulting from damage to nerves or to the nervous system itself). While chronic pain differs in its origin and where it occurs, it is generally your body’s way of saying that something urgently needs attention, and will not o away unless its underlying causes are addressed. These causes can usually be determined if you remember the acronym “SHIN”. This stands for Sleep, Hormonal deficiencies, Infections/Inflammation/Impingement, and Nutritional deficiencies. When these are treated, pain often resolves. Q. Why is it so hard to effectively reduce chronic pain? A. Unfortunately, many physicians’ entire education in pain management consists of “giving nonsteroidal anti-inflammatory drugs or NSAIDs (pronounced en-sayds), COX-2 inhibitors, or acetaminophen and considering narcotics if the patient has cancer. Some NSAIDs, like aspirin and ibuprofen, are available over-the-counter, while others, like the synthetic COX-2 inhibitors are only available with a doctor’s prescription. These mediations are usually inadequate and often toxic when used for chronic pain. And they do not address the problem(s) that the pain is trying to alert you to. Q. What exactly are COX-2 inhibitors? A. COX-2 inhibitors do pretty much what their name implies – they inhibit a natural enzyme in our body called the clclooxygenase-2, or COX-2, enzyme. There are two COX enzymes – COX-1 and COX-2 and both complete several actions in our bodies. One very important action that both COX-1 and COX-2 enzymes share is the speeding up of our body’s production of prostaglandins. These hormone-like substances are made by the cells of the body and have several important functions. Some of the most powerful prostaglandins cause inflammation, pain, and fever when we are sick or injured. Prostaglandins also protect the lining of the stomach from the damaging effects of acid. Other prostaglandins make sure our platelets (important blood cells) make blood clots when needed. Still others help our kidneys get rid of unwanted salt and water. And researchers have just recently recognized the importance of still another prostaglandin that protects our heart and blood vessels. The NSAIDs reduce pain by reducing prostaglandin production by blocking or inhibiting the COX enzymes. In theory – less prostaglandins, less pain and welling seems reasonable. But if you really stop and think about it, it’s pretty easy to understand why this method of pain relief might result in significant consequences. Pain and inflammation are often needed for healing. And just as needed is the protection of our stomach lining, blood clotting ability, assisting kidney function, and keeping our blood vessels healthy. And scientists are beginning to understand if you interfere with one natural response, you may be disrupting the body’s ability to prevent extremes and imbalances. That’s why using aspirin and ibuprofen can result in stomach ulcers, kidney problems, and internal bleeding. And that’s why using synthetic COX-2 inhibitors can result in high blood pressure, blood clots, heart attacks, and strokes. Q. Why are we just now learning about the dangers of COX-2 inhibitors and other NSAIDs? A. That’s a good question! Many people over the age of 65 have chronic pain conditions and are frequent users of OTC and prescription NSAIDs. This age group also experiences heart disease and Alzheimer’s disease in greater numbers. So, if a 70 year old woman who’s been using Celebrex for the past two years for arthritis in her knees suddenly has a heart attack one morning, it would not be entirely unexpected. For the past five or six years, researchers have been studying the possibility that NSAIDs may prevent certain cancers, Alzheimer’s disease, and other health problems. The ongoing, close scrutiny of large group of people taking these medications by scientists who were conducting these studies has resulted in the discovery of these dangers. Q. What kind of natural compounds relieve chronic pain? A. There are many – glucosamine, Omega-3 fatty acids, the B vitamins – the list goes on and on. Instead of disrupting normal bodily responses, these natural compounds work in harmony with our body to eliminate chronic pain. Three very powerful and very effective all natural plant compound pain and inflammation relievers are Sweet Cherry, Boswellia serrata, and White Willow Bark. For many years there have been anecdotal or personal reports that claimed eating Sweet Cherries, specifically Prunus avium, wipes out back pain, arthritis, and gout. While anecdotal reports generally don’t account for much in the world of science, he sheer numbers of testimonials proclaiming the Sweet Cherry’s amazing ability to reduce pain made researchers sit up and take notice. When Sweet Cherries were examined in the lab, it was easy for scientists to understand how this natural fruit is able to relieve pain. It seems Sweet Cherry’s bright red color is the key. Like many deeply colored fruits, Sweet Cherries are full of flavonoids called anthocyanins and proanthocyanidins. These powerful plant compounds scavenge and destroy altered oxygen compounds called free radicals. Many degenerative, chronic diseases have been associated with the tissue damage caused by free radicals, including arthritis, heart disease, peripheral artery disease, and cancer. Cherry fruit extract is a natural anti-inflammatory compound, making it an excellent treatment for arthritis, fibromyalgia, and other chronic pain and inflammation diseases. A pain relieving plant compound that comes from the bark of a tree, Boswellia serrata has been used by Indian healers for hundreds of years to reduce painful inflammation. When 20th century researchers looked at extracts of Boswellia Gum Resin in the laboratory they discovered the presence of powerful plant compounds, called boswellic acids. Researchers found Boswellic Acids reduce inflammation in several ways. They open constricted blood vessels, improving blood flow to joints. They balance levels of leukotrienes – specific chemicals in the body that cause inflammation. And Boswellic Acids block two inflammatory chemicals that increase in asthma and inflammation of the colon. In addition to being helpful in treating these 2 illnesses, Boswellia has also been clinically studied and found to be quite effective in osteoarthritis and rheumatoid arthritis without any evidence of ulcers or stomach irritation. Another bark extract, White Willow Bark is one of the oldest and most effective pain relievers. For over 2,000 years extracts from the bark of the White Willow tree have been used to ease aches and pains and reduce fevers. It is the original source of aspirin, but when used as the entire plant medicine, White Willow Bark is much safer than aspirin and quite effective. White Willow Bark’s active ingredient is salicin and the combination of other compounds in the bark significantly enhances its pain killing power. In two large clinical trials of patients with chronic low back pain. White Willow Bark was found to be not only safer and much more effective than standard prescription therapies, it was also 40 percent more cost effective. Salicylic acid from White Willow Bark lowers the body’s levels of prostaglandins, easing both acute and chronic pain. White Willow Bark reduces the pain and swelling of arthritis, headache, back and neck pain, muscle aches, and menstrual cramps. But, unlike aspirin, it doesn’t cause stomach bleeding or other known adverse effects. Q. Do Sweet Cherry, Boswellic Acids, and White A. They do indeed. Because they reduce both pain and inflammation by a broad combination of actions, these natural extracts have been proven to be excellent against arthritis, back pain, and pain from inflammatory intestinal diseases (Crohn’s disease and ulcerative colitis), and would be expected to be helpful in most kinds of pain. Sweet Cherry, Boswellic Acids, and White Willow Bark relieve inflammation without causing stomach irritation, stomach ulcers, high blood pressure, blood clots, heart attacks, or strokes. That’s because these natural pain killers don’t disrupt the balance of enzymes or interfere with the body’s ability to prevent extremes and imbalances. However, as with any pain therapy, Sweet Cherry, Boswellic Acids, and White Willow Bark work best when they are used as part of a comprehensive treatment plan to relieve the most common underlying causes of chronic pain or SHIN. In addition, although these excellent natural remedies can often offer quick pain relief, natural remedies for severe chronic pains work best when they are given at maximum allowed doses and given 6 weeks to show their full effectiveness in combination with treating the pain’s underlying causes. The best chronic pain relief results when doctors and patients work together to meet the goals of treatment. Some important last notes: Many causes of chronic pain are serious and life threatening. Everyone who is living with chronic pain must consult their doctor or other healthcare practitioner to determine the reason for their ongoing discomfort. In other words – make sure you know why you are having chronic pain and what’s causing the pain you want to relieve. There are some types of chronic pain that only respond to opioids, or narcotic pain relievers. Morphine sulfate is an excellent pain medication and is used to relieve surgical pain, the pain of heart attacks, and pain from serious injuries. Morphine is also the very best drug for chronic cancer pain and non-malignant chronic pain. While many people fear opioids, these powerful pain killers can dramatically improve quality of life. If you are suffering with chronic cancer pain and you are hesitant to use morphine or another opioid, I urge you to discuss your concerns with your doctor other healthcare provider. No one with cancer should live with untreated or under-treated pain. Conclusion Even chronic pain can often be eliminated when SHIN is in combination with powerfully effective natural pain relievers. But, because some people may need to take pain relievers the rest of their lives, the medications they use must be safe as well as effective. The very safest come from natural plant compounds that have been studied for their ability to relieve chronic pain. You can become pain free and Sweet Cherries, Boswellic Acids, and White Willow Bark can help.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1503) CoQ10 for Heart Health
Date:
March 28, 2007 12:39 PM
CoQ10 for Heart Health
More than 40% of all deaths in the
One of the most – if not the most – important things people can do to improve their overall health and life expectancy is to improve their heart health. Diet, exercise, and the wise use of dietary supplements can improve heart health dramatically. One dietary supplement that’s extremely beneficial to heart health is coenzyme Q10 (CoQ10).
Q. What is CoQ10?
A. CoQ10 is a natural, fat-soluble nutrient present in virtually all cells. CoQ10 also is known as ubiquinone. That’s because CoQ10 is ubiquitous and exists everywhere there is life. CoQ10 is vital to adenosine triphosphate (ATP) production. ATP is the energy-rich compound used for all energy-requiring processes in the body. Although COQ10 is produced by the body and exists in some dietary sources, these levels may be insufficient to meet the body’s requirements. CoQ10 levels diminish with age and as a result of dietary inadequacies and various disease states. Also, some drugs, especially a group of cholesterol-lowering prescription drugs known as “statin,” (Pravachol, Zocor, Lipitor, etc.) significantly reduce CoQ10 levels in the body.
Q. For what health conditions is CoQ10 used?
A. CoQ10 is beneficial in treating and preventing CVD and conditions such as high blood pressure, atherosclerosis (hardening of the arteries), angina, and congestive heart failure (CHF). It’s been shown that heart attacks tend to occur when CoQ10 levels are low in the body. In addition, CoQ10 is beneficial for diabetes, immune dysfunction, cancer, periodontal disease, prostate cancer, and neurological disease.
Q. Why is CoQ10 especially important to heart health?
A. The heart is one of the most metabolically active tissues in the body. In the average person, the heart propels 2,000 gallons of blood through 65,000 miles of blood vessls by beating 100,000 times each day. Thus, it requires large amounts of uninterrupted energy. Heart cells have a greater number of mitochondria, and subsequently, more CoQ10 than any other type of cell. Each heart cell can have thousands of mitochondria to meet these energy demands.
Mitochondria are highly specialized structures within each cell and are often referred to as cell powerhouses. These tiny energy-produces produce 95% of the energy the body requires. The number of mitochondria in a cell depends on its function and energy needs. A cell’s ATP production is dependent on adequate amounts of CoQ10.
Heart disease patients are commonly CoQ10 deficient. Correcting such deficiencies often can produce amazing results. The presence of supplemental CoQ10 is a key to the heart’s optimum performance.
In people who have had a heart attack (myocardial infarction), CoQ10 assists in repairing the heart muscle and restoring heart function. This is due to increased ATP production.
Q. What studies support this fact?
A. A 1998 study found CoQ10 can provide rapid protective effects in patients with a heart attack if administered within three days of the onset of symptoms. The study focused on patients admitted to the hospital with an acute myocardial infarction (AMI) diagnosis. Seventy-three patients received CoQ10 (120 mg/d). The study’s control group consisted of 71 similarly matched patients with acute AMI. After treatment, angina pectoris (severe chest pain signifying interrupted blood flow to the heart), total arrhythmias (dangerously irregular heartbeats), and poor function in the left ventricle (the essential chamber of the heart) were significantly reduced in the CoQ10 group compared to the placebo group. Total deaths due to sudden cardiac failure and nonfatal heart attacks also were significantly reduced in the CoQ10 group compared with the placebo group.
In another study, CoQ10 was studied in 109 patients with high blood pressure (hypertension). The patients were given varying doses of supplemental CoQ10 with the goal of attaining a certain blood level (greater than 2.0 mcg/l). Most patients were on medications to treat hypertension. Half the patients were able to stop taking one to three antihypertensive drugs at an average of 4.4 months after starting CoQ10. Only 3% of patients required the addition of one antihypertensive drug. The 9.4% of patients who have echo cardiograms, performed both before and during treatment, experienced a highly significant improvement in heart wall thickness and function. This improvement was directly attributed to CoQ10 supplementation.
Congestive heart failure (CHF) is a debilitating disease that affects 5 million people in the
Q. I’ve heard that CoQ10 can also help people who have neurological diseases. Is this true?
A. Yes, it is. CoQ10 has been studied for its ability to improve the health of individuals with amotrophic lateral sclerosis (ALS), Parkinson’s disease, and Huntington’s disease. A recently completed study sponsored by the National Institutes of Health showed that CoQ10 caused a slowing of the progression of Huntington’s disease, a devastating and degenerative disease that is always fatal. In fact, no other medication, drug, or nutritional supplemental has ever been shown to cause a decline in the progression of this terrible disease.
The study compared CoQ10 against remacemide (an investigational HD drug made by AstraZeneca Pharmaceuticals), in 347 HD patients who were in the early stages of the disease. Remacemide blocks glutamate, the neurotransmitter scientists think may cause the death of brain cells that occurs in Huntington’s disease. While remacemide had no effect on the progression of HD, CoQ10 showed a trend toward slowing the disease by an average of 15%. This meant the HD group taking CoQ10 was able to handle every day activities of life a little longer than the patients taking remacemide or a placebo. They also were able to focus their attention better, were less depressed, and less irritable. The 15% slowing of decline means that CoQ10 can result in about one more year of independence for HD patients. Needless to say, the gift of an additional year of health in the lives of HD patients is incredibly significant.
Because of these impressive results with HD, researchers are hopeful that the studies of CoQ10 in those with ALS and Parkinson’s disease will similarly have a positive effect on the symptoms and/or progression of these neurological disorders, too.
Q. Why is it crucial for a CoQ10 supplement to cross the blood-brain barrier?
A. The brains’ blood vessels are composed of cells with extremely tight junctions. These junctions form the blood-brain barrier, which restricts what can pass from the bloodstream into the brain. While this barrier protects the brain, it can be a significant obstacle to central nervous system therapy. To leave the bloodstream and reach the brain cells, a substance must pass through the tightly connected cells of the capillary walls. Only substances with unique solubilities or those with a transport system can cross the blood-brain barrier to a significant degree. As a result, crossing the blood-brain barrier presents a significant challenge to supporting neurological health.
While most CoQ10 supplements enter the bloodstream and increase blood serum levels, only special forms of CoQ10 have been shown to cross the blood-brain barrier. For CoQ10 to enter the mitochondria within the brain, CoQ10 must first cross the blood-brain barrier to produce significant neurosupportive clinical results.
Q. How can one supplement have applications for neurological diseases, heart health, and even the immune system?
A. Supplements often have more than one function, especially when it’s a substance like CoQ10, which is present in all parts of the body. All nucleated cells (most cells other than red blood cells) have mitochondria and all cells require energy to function. CoQ10 is vital to ATP production. Thus, CoQ10 has applications not only in neurological (neurons or nervous system cells) and cardiac health (myocardium or heart tissue), but also for the immune system.
Q. Are all CoQ10 supplements created equal? Doesn’t CoQ10 just have to get into the bloodstream to be effective?
A. There are some important distinctions among CoQ10 products, as they vary greatly in quality and absorbability. It’s crucial to find a CoQ10 product that’s:
1. Scientifically shown to absorb through the digestive tract, cross cellular membranes, and increase mitochondrial levels of CoQ10. Chewable forms of CoQ10 provide rapid bioavailability and absorption. Serum level determination of CoQ10 in the bloodstream is not necessarily the most important measure of efficacy. For a CoQ10 supplement to be fully effective, it must cross the cellular barrier and raise intracellular CoQ10 levels. A key indicator of effective CoQ10 supplementation is its presence in cell mitochondria.
2. The natural form of CoQ10. The natural process uses living organisms. CoQ10 also can be synthesized by a chemical process, which produces a distinctly different product that contains chemical compounds not found in the natural form.
3. Formulated with ingredients that provide the transport system CoQ10 needs to cross cellular membranes and the blood-brain barrier. Not all forms of CoQ10 have been scientifically proven to cross cell membranes and the blood-brain barrier. Some prestigious groups that have investigated this issue include researchers at
4. Studied by respected organizations, with research published in peer-reviewed journals by reputable scientists.
Q. How much CoQ10 should I take?
A. Take 100 to 200 mg of CoQ10 daily, depending on your family history of heart disease and personal heart disease experience.
CoQ10’s safety has been evaluated. Dosages in studies have ranged from 100 mg to 1,200 mg per day. To date, no toxicities have been reported. Occasional mild stomach upset may occur. Taking CoQ10 with meals usually alleviates this rare effect.
Q. What are some other heart-friendly supplements?
A. CoQ10 is an excellent supplement for overall cardiovascular health, as in L-carnitine. L-carnitine is the naturally occurring form of carnitine that’s found in food and synthesized in the body. Much of the body’s L-carnitine is found in the heart and skeletal muscle, tissues that rely on fatty acid oxidation for most of their energy. Nearly 70% of the energy needed for heart function is derived from fatty acid breakdown. Proper L-carnitine supplementation transports fatty acids into cell mitochondria, where it’s burned for energy. L-carnitine is an excellent addition to CoQ10, especially for people with heart disease, and has been shown to improve many symptoms associated with CVD. In one study, people who had experienced one heart attack received either L-carnitine or placebo. The L-carnitine group had a statistically significant reduction in second heart attacks, and improved overall survival.
Q. What supplements support healthy blood pressure and cholesterol?
A. In addition to maintaining overall cardiovascular health, it’s also important to address your essential fats/lipids levels and healthy circulation/blood pressure. Fish oil supplements can significantly reduce blood pressure, cholesterol, and homocysteine levels. Choose a supplement that’s a rich source of EPA and DHA, omega-3 fatty acids naturally obtainable in fish oil. Find a product that’s been clinically studied and purified to ensure it contains the beneficial active constituents of the whole oil, while removing any dioxins, DDT, PCBs, or heavy metals, toxins present in some commercial fish oil preparations. An enteric-coated garlic product that provides a minimum of 5,000 mcg of beneficial allicin supports healthy blood pressure and circulation. And magnesium, niacin, vitamin E, folic acid, hawthorn extract, and L-cysteine provide overall nutritional support to the heart and vascular system.
Conclusion
CoQ10 is not the only answer to the complex issues of heart disease, neurological disease, or immune dysfunction; however, research indicates that it’s a bigger piece of the puzzle than physicians and scientists ever imagined. The more we study this naturally occurring compound, the more benefits we find.
The key to this supplement is the manufacturing quality. For safety and overall effectiveness, use a CoQ10 product that’s supported by product-specific research from reputable institutions. Choose tested products from a well-respected company to increase your potential to achieve and maintain heart and blood vessel health.
Supplementation with clinically studied products can have a major impact on your heart’s health and strength. However, no supplement replaces the need to eat a healthful diet low in refined foods (especially sugar), and saturated fats, and to exercise your most important muscle – your heart – on a regular basis.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1501) For Better Heart Health ...
Date:
February 06, 2007 12:57 PM
Nutrients Every Heart Needs
High blood pressure. High cholesterol levels. Ever increasing stress. All are factors related to the development of heart disease – the leading cause of death for both men and women. In fact, 1 in 2 women in the
Fortunately, heart disease is a problem you can do something about. Proven ways to prevent or mitigate the effects of heart disease include taking targeted nutritional supplements, making changes in the foods we eat, exercising most days of the week, drinking in moderation, eliminating tobacco use and adapting a positive attitude. Research shows that those of us who are often angry and depressed have more heart disease than people that live their lives with a more positive outlook.
In this Ask the Doctor, we’ll talk about specific nutritional supplements that are heart healthy, whether your goal is to prevent heart disease or reduce the effects of heart disease if you currently have it.
Q. I am trying hard to live a healthier life. But it all seems so overwhelming. How do I start?
A. It may help to know that you’re not alone in feeling overwhelmed. Lots of people feel this way. This is why the Centers for Disease Control and the American Heart Association are both urging people to prevent heart disease by identifying their individual health risk factors.
A risk factor is an indicator of whether or not you may develop a certain health condition. In heart disease prevention, there are two kinds of risk factors. There are risk factor you can control – such as diet, exercise, and the supplements you take. There are also risk factors you can’t change or control –your age, race, and gender, as well as your family’s history of heart disease.
Examples can be really helpful. Let’s follow three adults – Fred, Jane, and Earl – and determine their risk factors.
Low Risk
Fred is 32, single, has a job he loves, has an optimistic attitude about his life, and works out 5 days a week. Most days Fred’s diet is fruits, vegetables, whole grains and low fat. Occasionally Fred will eat a cheeseburger and fries when he watches the game with his buddies. Fred’s risk factors are his male gender and the occasional high fat content in his diet.
Moderate Risk
Jane is 55, a lawyer, married, and has a very stressful job. Jane eats lots of salads, fruits, and whole grains. However, her job requires her to work long hours which leaves little time to exercise. Jane is for the most part happy with her life, but her work stress had led to times of negativity. Her father had a heart attack when he was 56. Jane’s risk factors include her age (greater than 50), negativity from job stress, lack of regular exercise, and a family history of heart disease.
High Risk
Earl is 65, married, and has just retired from a job he hated. He spends most of his day watching TV and eating potato chips and other high fat, salty snacks. Earl has told his friends and family since he worked so hard for so long, he is sure to drop dead soon after retiring. He has high cholesterol and high blood pressure. Earl’s father had a heart attack and died when he was 73. Earl’s risk is his male gender, age (greater than 50), sedentary lifestyle, poor diet, negative outlook on life, high cholesterol and high blood pressure, and a family history of heart disease.
Q. OK, it’s pretty easy to see that Fred needs to watch his diet, Jane needs to exercise more, and Earl needs lots of help. But, which supplements should they take?
A. The Whole Heart Nutrition chart is an easy way to determine the supplements each risk level needs. As you can see, everyone wanting to prevent heart disease – Fred, Jane, Earl, you, and I – need to take quality heart formula multivitamin, garlic, and a fish oil supplement providing Omega-3 fatty acids. CoQ10 is also a smart choice for complete heart heath support.
Q. Why do we all need to take a “heart multivitamin”? Why can’t we take a regular multivitamin to prevent heart disease?
A. Since the human heart simply cannot function without adequate amounts of certain vitamins and minerals, it seems logical that a multivitamin would be the foundation of good nutrition for your heart. Heart-health formulated multivitamins provide the exact nutrients needed to prevent heart disease.
That’s why we need to take a specially formulated heart-focused multi-vitamin. The cells and the tissues that make up the heart must have vitamins C, A, and E, as well as B1, B6, and B12 to function. Folic acid, the little B vitamin that is so crucial in preventing spina bifida (a birth defect), breast cancer, and Alzheimer’s disease is also needed to keep heart muscles strong. The B vitamins and folic acid are very important to heart health because they help lower homocysteine levels. Homocysteine is a potential and emerging cardiac risk factor,
Magnesium is a mighty mineral and healthy hearts need it every day. Aloha lipoic acid, a fatty acid, provides protection against heart cholesterol and high blood pressure. Lutein and lycopene are all-natural nutrients and keep our arteries free from the buildup of plaque, a condition linked to heart attacks and strokes.
Multivitamins formulated with these exact vitamins, minerals, and nutrients will work with medications often prescribed to treat heart disease and provide the nutrition our hearts need.
Q. Don’t all multivitamins work with medications prescribed to treat heart disease?
A. Many multivitamin formulas contain herbs and other nutrients that can interfere with prescription medications, especially mediations prescribed to treat heart disease. One multivitamin does not fit all.
The more risk factors you have, the greater your chance of developing heart disease.
Q. What can garlic supplements do for Fred, Jane and Earl or other people with low to high risk factors?
A. Garlic supplements have a very long and very successful history of preventing premature death from heart attacks. Lately, however, there have been some conflicting news stories about supplemental garlic’s ability to lower high cholesterol and high blood pressure – the causes of heart disease and death. That’s because many different garlic supplements have been used in these studies – garlic oil, garlic powder, aged garlic extract, and supplements made from fresh garlic. They have all been studied clinically for their effects in heart disease.
The best garlic supplements (and the ones that showed the best effects in garlic studies) contain alliin, which is then converted to allicin. Allicin is the compound that lowers harmfully high cholesterol levels and dangerous blood pressure readings. Allicin is also responsible for garlic’s characteristic odor. Because alliin is very stable when dry, properly prepared and enteric coated fresh garlic preparations preserve the allicin-producing action until the garlic mixes with the fluids of the intestinal tract. Fresh garlic extract’s enteric coating also prevents garlic breath. In contrast, aged garlic contains absolutely no allicin or allicin potential. This fact is probably responsible for the poor results noted in lowering cholesterol and blood pressure from aged garlic preparations.
The most effective garlic supplements are made from fresh garlic, enteric coated, and provide a daily dose of at least 10 milligrams (mg) alliin or a total allicin potential of 4,000 micrograms (mcg). Taking a once-daily garlic supplement that delivers 4,000 mcg of allicin will lower Jane’s and Earl’s high blood pressure and Earl’s high cholesterol, naturally and effectively.
Whole Heart Nutrition
Each additional risk factor requires additional supplements or increased doses for protection from heart disease.
Q. What about fish oil supplements? I know they can prevent heart disease but I’ve also heard they contain harmful substances, too.
A. You’re right on both counts. But, there are excellent fish oil supplements naturally loaded with Omega-3 fatty acids, powerful nutrients that prevent heart disease, that are also certified free of harmful contaminants.
In the 1980s, researchers first began noticing the native Inuit (Eskimo) populations of Greenland and
Research has shown that the Omega-3 fatty acids in fish oil supplements can:
-Reduce the risk of arrhythmias, lethal heartbeat rhythms that cause sudden death.
-Lower the levels of triglycerides, fats in the blood that can increase a person’s
risk of dying from a heart attack, even if a person’s cholesterol levels are normal.
-Slow atherosclerosis – the growth of harmful plaque on artery walls.
Atherosclerosis develops over many years. If the plaque growth is slow and
stable, chances are low that a heart attack will result. However, rapidly growing
or unstable plaques can rupture. The body responds with inflammation, which
causes blood clots to form. These blood clots block the artery and cause a heart
attack.
-Keep blood pressure levels low. Many people have high blood pressure for years
without knowing it. That’s because it has no symptoms. Uncontrolled high
blood pressure can lead to stroke, heart attack, heart failure, and kidney failure.
While 25% of Americans have high blood pressure, nearly one-third of these
people don’t know they have it. This is why high blood pressure is often called
the “silent killer.”
You can get all of this heart disease preventive protection from just 600-1800 mg of fish oil. It’s pretty simple to see why Fred, Jane, Earl, and you and I need to take fish oil supplements every day.
However, it is absolutely critical that the fish oil supplement you take is free of contaminants and guaranteed fresh! Make sure that the manufacturer of the fish oil supplement you buy is able to provide documentation of purity in their product. Supplements should contain no detectable dioxin (a widely used toxic preservative), DDT (a toxic insecticide), PCBs (polychlorinated biphenyls) or heavy metals such as mercury and lead.
Before you buy any fish oil supplement, ask the clerk if you can open the bottle or jar and smell the contents. A fishy smelling fish oil supplementation means it is rancid. Rancid fish oil is not going to help your heart at all and may actually hurt it.
Q. That leaves CoQ10. Why is it important for Jane and Earl?
A. CoQ10, also known as ubiquinone, is the premier heart supplement! CoQ10 is part of our energy producing system. It works directly in the mitochondria of each cell. Mitochondria are highly specialized structures within each cell and are often referred to as powerhouses. These tiny energy producers generate 95% of the energy the body requires. The number of mitochondria in a cell depends on its function and energy needs. The heart has very important functions and requires a vast amount of energy. Thus, the heart has a lot of mitochondria or little powerhouses.
CoQ10 is incredibly crucial to the health of our hearts. Especially to hearts that are pumping blood with too much cholesterol. But, in a dangerous paradox, CoQ10 levels can become dangerously depleted when physicians treat high cholesterol in their patients with certain medications. The so-called “statin” drugs (Mevacor/lovastatin and Crestor/rosubastatin are two examples) are powerful and medications prescribed to lower harmful cholesterol levels. However, one very harmful side effect they share is that they deprive cells of CoQ10. While some physicians are aware of this serious side effect and tell their patients to take at least 400 mg of CoQ10 each day, most are not. The result? Any good the statin drugs may be doing is actually negated by their depletion of CoQ10.
Q. How does CoQ10 actually work? Has it been studied in heart disease?
A. Yes, it has! CoQ10 has been extensively studied in heart disease. This natural nutrient is present in every nucleated cell in our body (the only cells that don’t contain CoQ10 are red blood cells). Heart cells, however, are absolutely loaded with CoQ10. Its job is fairly simply – CoQ10 is vital to the production of adenosine triphosphate (ATP), the compound our body uses for 95% of its energy needs.
In 1998, 144 patients who had been admitted to the hospital after a heart attack, participated in a CoQ10 study. Half of the patients received 120 mg of CoQ10 a day in addition to the usual treatments given to heart attack patients. The other half, the control group, received the usual treatments and a placebo, but no CoQ10.
The results showed that the group taking CoQ10 had less irregular heartbeat, experienced less angina (a type of heart pain), and had much better function in the left ventricle (the most essential chamber of the heart), compared to the placebo group. Total deaths due to sudden heart failure or another heart attack were also reduced in the CoQ10 group.
Q. What if I have already been diagnosed with Congestive Heart Failure? Will CoQ10 still help me?
A. CoQ10 has been proven in study after study to help slow down the destruction that occurs in congestive heart failure (CHF), a serious heart disease, and heal the heart muscles damaged by heart attacks. In fact, heart attacks often occur when the body’s CoQ10 levels are low.
In a CHF study, patients received 100 mg of CoQ10 or a placebo twice daily for 12 weeks. Before and after the treatment period, the researchers introduced a catheter into the right ventricle of the patients’ hearts to determine the degree of muscle damage CHF had caused. In the group who took CoQ10, the pumping ability of the heart improved significantly. The placebo group’s hearts did not. The researchers conducting the study recommended that people with CHF add CoQ10 to the other medications they need to take to stay alive and well.
Q. Are some types of CoQ10 better than others?
A. Indeed they are. CoQ10 products are not created equally. The key to this natural medicine is the quality of the manufacturing. Take a CoQ10 supplement that’s been used in research conducted by prestigious universities (it will tell you this right on the label). Researchers want the best CoQ10 for their studies. You want the best CoQ10 for yourself and your loved ones.
The best CoQ10 has to meet the following criteria:
1. Must be easily absorbed during the digestion process so that it can get into the
bloodstream.
2. Must reach the mitochondria in the cell.
3. Must be proven effective in studies.
4. Must be safe and free of impurities.
Q. It sounds as if CoQ10 is only for people with moderate or high risk factors. Can others benefit from this supplement?
A. Many people, including those like Fred with low risk factors or no risk of heart disease take CoQ10 every day. CoQ10 supplements may reduce your risk of cancer, prevent gum disease, and help certain nerve cells work more effectively.
Conclusion
Understanding your personal risk factors, making it better lifestyle choices, taking a multivitamin formulated for your heart, an enteric-coated fresh garlic supplement, fish oil supplement with Omega-3 fatty acids, and CoQ10 – the heart’s super-nutrient – can help keep your heart healthy and strong.
Helen Keller, the famous lecturer and author, who was both blind and deaf wrote, “The best and most beautiful things in the world cannot e seen or even touched. They must be felt with the human heart.”
Healthy hearts have the most opportunities to “feel” the best and are the most beautiful thing our world has to offer.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1449) Q. What effect do the POAs from cat’s claw root have on our immune system?
Date:
November 22, 2006 01:38 PM
A. Cat’s claw POAs work to keep us healthy by directly interacting with white blood cells, the backbone of our immune system. Our white blood cells are the disease fighting cells of the human body. These highly specialized cells fight diseases we catch, such as cold and flu, as well as diseases that start within our own cells, such as cancer and autoimmune diseases. There are many kinds of white blood cells; each has a specific job to do in fighting diseases. Certain POAs help white blood cells called macrophages work faster. The macrophages’ job is to engulf and digest foreign material. This means that macrophages can ingest more bacteria and disease causing microbes when they are exposed to POAs. The scientists also discovered that POA cat’s claw extract increases the production of a chemical protein called interleukin, that is secreted by macrophages. Interleukin (IL-1) has important immune enhancing properties. IL-1 alerts resting white blood cells and spurs them into action. It also helps make other biochemicals essential to an activated immune system. (90% of white blood cells are in reserve) POAs also help B cells. B cells are white blood cells that make antibodies that kill germs. Each B cell is programmed to make one specific antibody that is effective against one specific germ (such as a bacteria, virus, or fungus). When scientists looked at the number of B cells after they were exposed to POA cat’s claw root extract, they found that the B cells had increased significantly, resulting in an increased supply of antibodies. And perhaps most importantly as they relate to cancer, the POAs in cat’s claw root extract help increase the number of T-cells, the true soldiers of the immune system. There are many different kinds of these white blood cells, including Helper T-cells, Suppressor T-cells, and Killer T-cells. Increased Helper, Suppressor, and Killer T-cells can more effectively destroy cancer cells. Increasing the number of circulating T-cells is very important in a disease like AIDS as well. European health care providers are often very comfortable integrating the use of herbal and nutritional supplements as vital components of their patients’ cancer treatments. In Austria alone, cat’s claw extract is used together with conventional treatment (chemotherapy, radiation, and/or surgery), to treat hundreds of cancer patients every year! A recent clinical observational study looked at POA cat’s claw extract in 78 people with very advanced brain cancer. All of the participants reported that the special POA cat’s claw helped them feel better, have more vitality, and reduced side effects (such as nausea) caused by their conventional cancer treatment. The researchers felt that POA cat’s claw extract may also prove to have benefit in extending the life span of people with these types of deadly brain cancers.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1424) Educator in Glyconutrient Technology and Cellular Restoration
Date:
September 19, 2006 05:43 PM
Come along and share some thoughts with me about how we can prevent a lot of misery from illness and disease. Not everyone cares about this, but I hope you do. When a doctor says “we got it all”, it usually comes after cancer surgery. Why then do we have to go through chemo therapy, radiation and drugs to prevent it from coming back? What caused it to ever have happened in the first place? When my mom got breast cancer, she dutifully took Tamoxifen for 12 years and died of liver cancer. She blamed the drug, but what was missing before she got cancer? Science has discovered a new technology that will change the world of health. It’s called glyconutrients and is the missing link in our diets today. This is not just another food supplement, it is a vital food! Glyconutrients do not heal cancer. If you have a strong immune system though, you can avoid or repair disease. The body wants to be well and does everything with what it has to keep you well. These 8 sugars are so vital to keep your cells communicating and building strong stem cells. Adult stem cells were harvested from approximately one half pint of a patients’ own blood to treat several heart conditions. Treatable heart conditions are: coronary artery disease – Cardiomyopathy- heart failure – severe angina pectoris. We are talking about an adult stem cell transplant! My body is producing new adult stem cells every day and is restoring, defending, protecting and repairing my health from all kinds of ailments. Researchers who study this cellular communication proclaim it to be the most important discovery in the history of medicine… the key to a long, healthy life!
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1383) Effects of Cat's Claw on the immune system.
Date:
November 11, 2005 05:50 PM
Q. What effect do the POAs from cat’s claw root have on our immune system? A. Cat’s claw POAs work to keep us healthy by directly interacting with white blood cells, the backbone of our immune system. Our white blood cells are the disease fighting cells of the human body. These highly specialized cells fight diseases we catch, such as colds and flu, as well as diseases that start within our own cells, such as cancer and autoimmune diseases. There are many kinds of white blood cells; each has a specific job to do in fighting diseases. Certain POAs help white blood cells called macrophages work faster. The macrophages’ job is to engulf and digest foreign material. This means that macrophages can ingest more bacteria and disease causing microbes when they are exposed to POAs. The scientists also discovered that POA cat’s claw extract increases the production of a chemical protein called interleukin, that is secreted by macrophages. Interleukin (IL-1) has important immune enhancing properties. IL-1 alerts resting white blood cells and spurs them into action. It also helps make other biochemicals essential to an activated immune system. (90% of white blood cells are in reserve) POAs also help B cells. B cells are white blood cells that make antibodies that kill germs. Each B cell is programmed to make one specific antibody that is effective against one specific germ (such as a bacteria, virus, or fungus). When scientists look at the number of B cells after they were exposed to POA cat’s claw root extract, they found that the B cells had increased significantly, resulting in an increased supply of antibodies. And perhaps most importantly as they relate to cancer, the POAs in cat’s claw root extract help increase the number of T-cells, the true soldiers of the immune system. There are many different kinds of these white blood cells, including Helper T-cells, Suppressor T-cells, and Killer T-cells. Increased Helper, Suppressor, and Killer T-cells can more effectively destroy cancer cells. Increasing the number of circulating T-cells is very important in a disease like AIDS as well. European health care providers are often very comfortable integrating the use of herbal and nutritional supplements as vital components of their patients’ cancer treatments. In Austria alone, cat’s claw extract is used together with conventional treatment (chemotherapy, radiation, and/or surgery), to treat hundreds of cancer patients every year! A recent clinical observational study looked at POA cat’s claw extract in 78 people with very advanced brain cancer. All of the participants reported that the special POA cat’s claw helped them feel better, have more vitality, and reduced side effects (such as nausea) caused by their conventional cancer treatment. The researchers felt the POA cat’s claw extract may also prove to have benefit in extending the life span of people with these types of deadly brain cancers.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=933) Cholestrex - Lower Cholesterol with Source Naturals Supplements
Date:
June 01, 2005 10:41 AM
Our lives depend on an uninterrupted flow of blood throughout the 60,000 miles of arteries, veins, and capillaries that bring vital nourishment to our cells. Our bodies have complex chemical strategies to maintain and repair blood vessel walls. Cholesterol is an important part of the process. However, too much cholesterol in the bloodstream can have serious consequences for our well-being. By understanding how nutrition affects blood cholesterol, we can gain valuable control of our health. Source Naturals CHOLESTREX has been formulated to provide the nutritional support that we need to maintain healthy cholesterol levels. SINCE DOCTORS FIRST DISCOVERED that cholesterol was the primary ingredient in the sticky deposits that clogged their patients’ arteries, scientists have gained a thorough understanding of cholesterol’s role in our health. Essential to human and animal life, cholesterol is part of every cell in the body. Because cholesterol is so important, the liver synthesizes from 1 to 2 grams of it each day. In addition, we get about another 500 mg from the foods we eat. Problems occur when too much cholesterol gets into the bloodstream. Today, it’s estimated that over 50 million adults in the United States have cholesterol levels that are too high. The body’s processes to manage excess cholesterol depend upon a lifestyle that includes exercise, stress reduction and proper nutrition. Source Naturals Cholestrex is designed to deliver a comprehensive combination of nutrients known to support a healthy blood vessel system – and keep the life stream flowing.
The nutrients in CHOLESTREX are known to support a healthy blood vessel systemCholesterol: What It Is Cholesterol is a solid waxy substance, technically classed as a “sterol.” Cholesterol enables our cell membranes to maintain their integrity. It is the basic raw material from which the body makes steroid hormones, which include the sex hormones. Cholesterol is the primary component of bile salts that the liver creates to help us assimilate fats, fat-soluble vitamins and essential fatty acids. The liver also uses bile to rid itself of stored toxins. Our skin contains large amounts of cholesterol, making it resistant to the absorption of water-soluble toxins. Even the brain is 7% cholesterol (dry weight).
Blood vessel walls cover a surface area of half an acre and are under constant pressureCholesterol in the Blood Because it’s not water-soluble, cholesterol must be attached to a carrier molecule in order to be transported in the bloodstream. The liver manufactures two types of carrier molecules for cholesterol, LDL and HDL. LDL (low density lipoprotein) molecules carry cholesterol from the liver out to cells of the body. One of its functions is to repair damaged cells, including those of the artery walls. LDL is primarily made up of saturated fats, (meat fats, butter, etc.). HDL (high density lipoprotein) molecules transport cholesterol and fatty acids from body tissues back to the liver for disposal. HDL helps remove excess fat and cholesterol from the bloodstream. HDL is composed of liquid fats (most vegetable oils). It’s crucial to have a proper balance between LDL and HDL cholesterol. High LDL – a sign that the body has too much fat – is a threat to the health of blood vessels, because excess LDL cholesterol may accumulate in damaged areas of vessel walls. These “fatty streaks” are the beginning stage of artery blockage.
The oxidation of LDL cholestrol is at the heart of the problemCholesterol and Artery Damage The walls of the blood vessels cover a surface area of half an acre and are under constant pressure. Of all the blood vessels in the body, the coronary arteries are under the greatest stress. Named for the Latin word for crown (corona), they sit directly on the heart muscle and must continually expand and contract with every heartbeat. That’s 100,000 times each day. This constant squeezing can cause small lesions in the artery wall. This triggers a repair process where LDL cholesterol comes in to patch up the damage. Recent research has found that the crux of the problem is the oxidation of LDL cholesterol. Rich in fatty acids, the LDL molecule becomes permanently altered when oxidized by free radicals (overreactive molecules that steal electrons from other molecules). These rancid, oxidized LDL molecules are no longer recognized by the body, so they’re attacked by immune system cells. These immune cells become bloated with the oxidized lipids, accumulate in artery lesions and create plaque in blood vessels. Why is LDL cholesterol being oxidized? First of all, there’s too much of it in the blood, while not enough HDL. Secondly, the blood doesn’t have enough antioxidants to neutralize free radicals. The ingredients in Source Naturals Cholestrex address these specific problems in several ways. Cholestrex also provides nutrients that protect and strengthen blood vessel walls.
In the typical American diet, 95% of the cholesterol meant for removal is reabsorbedCholestrex Has It All Vitamin C helps maintain the health of artery walls because it’s the key building block for collagen and elastin, the primary constituents of blood vessels. Copper is required by the enzyme that weaves together the fibers of collagen and elastin into the matrix that makes vessel walls both tough and flexible. As an antioxidant, vitamin C scavenges free radicals in the blood plasma and also regenerates vitamin E within the LDL molecule. Vitamin E has a critical role as the primary protector of LDL, preventing its oxidation. One molecule of vitamin E can protect 200 molecules of polyunsaturated fatty acids from free radical damage. GTF Chromium is involved in insulin activity and the normalization of blood sugar. Excess simple sugars are converted to triglycerides, the blood fats which can accumulate in artery walls. Lecithin is a component of HDL that emulsifies excess blood fat so it can be more readily transported in the bloodstream to the liver, where it’s metabolized. Vitamin B3 (niacin) assists in the metabolism of fats, and puts an electric charge on red blood cells so they repel each other, which prevents blood clumping. The amino acid, L-Arginine, works to lower serum cholesterol and triglycerides by inhibiting fat absorption.
Beta sitosterol neutralizes incoming dietary cholesterolThe Body’s Cholesterol Removal System HDL molecules carry cholesterol from tissues throughout the body back to the liver, where it is incorporated into bile salts. These bile salts are sent to the intestines, where they combine with fiber for excretion. One problem with the typical American low fiber diet is that 95% of the bile-bound cholesterol is reabsorbed. Since this is the body’s primary pathway for ridding itself of excess cholesterol, another strategy incorporated into Cholestrex is to maximize the production of bile salts and minimize their reabsorption by increasing levels of fiber. Fiber is a key element of Cholestrex. Its four types of soluble fiber bind with bile salts that are laden with cholesterol to ensure their excretion from the body. Oat Bran & Fiber, Grapefruit Pectin, Psyllium Seed Husks and Alfalfa Seeds also absorb cholesterol from our food, thereby lowering total blood cholesterol. Alfalfa seeds are considered a blood purifier. Beta sitosterol, a plant equivalent of cholesterol, binds to sites in the intestines that would otherwise absorb cholesterol. Cholestrex provides a daily total of 300 mg of beta sitosterol which may, by itself, neutralize 200 to 300 mg of incoming dietary cholesterol by preventing its absorption. Vitamin C, among its many other vital roles, is the key factor in activating an enzyme that will increase the liver’s conversion of cholesterol into bile salts. CHOLESTREX uses bioactive mineral ascorbate forms of vitamin C that will not irritate the digestive system. Working in conjunction with the fiber in CHOLESTREX, Calcium increases HDL, while lowering total serum cholesterol. Cholestrex–Intelligent Nutritional Support Our generation is fortunate to witness the remarkable progress made by modern science in understanding the body’s complex biochemical processes. As we realize the vital connection between nutrition and cholesterol levels, we are empowered to improve our health and vitality beyond previous standards of wellness. Source Naturals CHOLESTREX. For you and the ones you love.
Reference:
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