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Aged garlic is incredibly good for your heart
May 03, 2019 04:18 PM
Natural compounds found in aged garlic can be very beneficial to cardiac health. For example, a 2016 Los Angeles Biomedical Research Institute study on subjects with metabolic syndrome found that aged garlic extract reduced both the accumulation of new plaque within the arteries and the total amount of plaque present as well. Additional research suggests that aged garlic extract can help reduce C-reactive protein and interleukin levels. The polysulfides in garlic also support greater production of the nitric oxide that helps keep your blood vessels supple, reducing another cardiac risk factor.
"The LA BioMed researchers concluded that garlic not only decreased the amount of plaque in the arteries. The extract also stopped new plaque from appearing in the blood vessels. (Related: Aged garlic extract balances your cholesterol levels, study finds.)"
Read more: https://www.naturalnews.com/2019-03-09-aged-garlic-is-incredibly-good-for-your-heart.html
Cannabis reverses aging processes in the brain, study suggests
May 16, 2017 06:44 AM
The cannabis arguments continue to rage on. There are many supposed benefits but some people feel they're not really proven. They feel the negatives outweigh the benefits. There are many cannabis studies going on all the time and some of them are showing possible benfits to the brain including a reversal in the signs of aging. The brain is important to all functions of the body so anything which keeps it healthy is at least worth consideration.
Read more: Cannabis reverses aging processes in the brain, study suggests
April 25, 2017 04:44 AM
Hair loss is something no one wants and, unfortunately, the products out there that address it are expensive and don't always work. There is a natural product that is very effective and very affordable- onion juice. Onion juice is rich in sulfur which is a component of hair. When onion juice is applied to the scalp, it boosts blood circulation and promotes growth. Onion juice also has anti-bacterial and antioxidant properties further assisting hair growth. Watch this video for more details.https://www.youtube.com/watch?v=TSQVUKm-Pp4&rel=0
"If you're looking for a natural tonic which inspires hair growth and reverses hair loss, you'll enjoy learning about the power and potential of onion juice."
The Benefits of White Tea!!
November 23, 2012 01:25 PM
White tea is a special variety of lightly oxidized tea which has undergone very little processing. It is originally native to China and in recent times it has been cultivated in Nepal, Thailand and Taiwan. White tea has been popular in China for over a thousand years and was the preferred drink of the rich elite of the nation. It came into prominence during the reign of the Soong dynasty. It was considered precious and was presented as tribute to the Emperor.
According to legend Emperor Hui Zong lost most of his kingdom in his pursuit for the perfect white tea. White tea is an integral part of Chinese history and was a part of many of their traditional ceremonies. The rest of the world has only recently adopted this exotic beverage.
How Is It Produced?
White tea is derived from the Cammelia senensis plant and takes lot of time and effort to produce properly. The leaves and buds of the plant are carefully steamed and subsequently dried. It is not processed or rolled extensively like black or green tea. This makes white tea lightly oxidized and this unprocessed quality may be the reason for its numerous health benefits. We look at some of the health benefits associated with white tea.
An Antioxidant And More!
White tea contains antioxidants which help in protecting the body from harmful free radicals. These free radicals accelerate aging and damage DNA. White tea has substances which are effective against malignant cells and can help treat stomach, colon and prostate cancers. Flavonoids are a special variety of antioxidants which restrict the growth and development of cancerous cells. White tea has been shown to help in lowering blood pressure and promoting arterial functioning. It causes a reduction in the consistency of the blood and promotes smooth blood circulation. It protects against stroke by promoting a healthy circulatory system.
Active Ingredient Catechins:
Catechins are another group of antioxidants, which can help regulate cholesterol levels in the body. These antioxidants reduce bad cholesterol and prevent the arteries from hardening. White tea drinkers are reported to have greater strength and bone density. Also drinking white tea has shown positive effects for people suffering from bone related disorders like osteoporosis and arthritis.
This tea provides natural defensive against viruses and bacteria. It is conducive for the health of the immune system and provides protection against a variety of immune disorders. White tea contains small amounts of fluoride compounds which help keep your teeth healthy and clean. It eliminates the bacteria responsible for bad breath, tooth decay and plaque. It removes free radicals from the tissue and reverses the effects of weather, stress and poor dietary preferences to give you healthy glowing skin. White tea has many other health benefits to offer.
Its consumption is linked to increase in metabolism, weight loss and reduction in the symptoms associated with type-2 diabetes. White tea is a natural product free from excessive processing and harmful chemicals. It offers many health benefits and does not cause any harmful side effects. It is slowly gaining popularity as a health supplement among the global population.
Is Cod Liver Oil Good for My Health?
July 30, 2011 01:19 PM
Cod liver oil is a dietary supplement obtained from the liver of a group of fishes collectively known as cod. It is an all natural remedy for a diverse variety of disorders, and as such remains one of the most popular supplements to this day. Recent studies have confirmed many of its age-old health claims. It is now common knowledge that it aids joint health, treats skin conditions, and improves brain function.
Deactivates Pain Chemicals
The nutrient profile of cod liver oil makes it an excellent source of eicosapentaenoic acid, or EPA, and docosahexaenoic acid, or DHA. These omega 3 fatty acids have long been identified by scientists as anti-inflammatory compounds. Numerous studies have documented that they exert an inhibitory effect on chemicals that sensitize tissues to pain, cause excessive inflammation, and bring on rheumatism.
Nourishes Joint Cartilage
Cod liver oil is a traditional treatment for joint pain characteristic of arthritis. In recent years, it has been noted as the leading therapeutic remedy for rheumatoid arthritis and osteoarthritis. Research has shown that it is capable of switching off enzymatic processes responsible for the destruction of cartilage tissue in arthritis. Also, its fatty acid content nourishes the proteins found in joint cartilage.
Protects Nervous Tissue
The myelin sheaths that insulate the axons of nerve cells located in the brain and spinal cord require fatty acids to support their physiological functions. In particular, DHA is the principal fatty acid that nourishes nervous tissue. Cod liver oil has been utilized as an adjunct medication for multiple sclerosis in studies, and reports suggest its potential as a mainstay of treatment for other neurological disorders.
Enhances Brain Function
In addition to their known role in the upkeep of myelin sheaths, fatty acids are directly involved in the development of brain function. In fact, they are a major component of breast milk. For years, nutrition experts have suggested consumptions of cod liver oil to combat neurodegenerative disorders as well as enhance cognitive capacities as it contains high levels of compounds proven as effective nootropics.
Alleviates Skin Conditions
The nutrient profile of cod liver oil is particularly good for the skin. Apart from the fact that it counters inflammatory agents that cause hypersensitive skin conditions, such as eczema and psoriasis, it also promotes tensile strength and maintains skin elasticity. Cod liver oil is a good source of omega 3 fatty acids, essential fatty acids, vitamin A, vitamin, D, and vitamin E, all of which contribute to skin health.
Prevents Heart Disease
Cod liver oil maintains heart health and even reverses cardiovascular disorders. Medical professionals have supported this nutritional supplement as it has been clinically proven to cut the risk of heart disease. It alters the profile of lipids present in the blood and appears to reduce cholesterol. For decades, lower incidence of cardiovascular disorders has been tied to populations that consume high amounts of cod.
Your Thyroid, Iodine, And Radiation, What You Need To Know!
June 27, 2011 03:34 PM
What is Potassium Iodide Good for?
Potassium iodide is a white salt especially formulated to combat iodine deficiency. It is extensively utilized as iodized salts and also comes in pill form. It is medically noted for its protective effects when taken orally, for it has been proven to produce many health benefits. Also, it has been tied to nuclear medicine, which relies on the process of radioactive decay in the diagnosis and treatment of disease.
Alkali metal salts such as sodium iodide and potassium iodide are extensively used in food and drug industries to promote dietary intake of the trace mineral iodine, which is a chemical element necessary to support human life. Nutraceutical companies prefer potassium iodide as it attracts water molecules at a lesser rate than sodium iodide. In fact, it is the most commercially significant form of iodide.
reverses Iodine Deficiency
Endemic goiter is a global health concern caused by iodine deficiency, which is prevalent in regions where animal products and plant-based foods are very low in iodine. Delays in physical development are the most visible medical signs in children suffering from iodine deficiency. Many countries have relied on iodized salts that contain potassium iodide to boost iodine intake and reverse deficiency.
Inhibits Radioiodine Uptake
Potassium iodide has long been recommended by the scientific community to combat the deleterious effects of radioactive materials, most notably radioiodine. The thyroid gland has an affinity for iodine compounds, and its uptake of radioiodine have been linked to cancer and many other diseases. In nuclear medicine, potassium iodide is used to inhibit the uptake of radioisotopes taken internally.
Promotes Thyroid Health
The proper functioning of the thyroid gland is dependent on iodine, and thus this trace mineral always determines thyroid health. For one, it is a major component of tissues that make up the thyroid gland. Also, it is absolutely necessary in the synthesis of thyroid hormones. Regular intake of potassium iodide is a safe way to supply the body with iodine, whether in table salts or nutritional supplements.
Remedies Fungal Infections
Solutions that contain potassium iodide have been the subject of research on fungal diseases, such as sporotrichosis or rose gardener’s disease. Several fungi found in soils often afflict human beings and cause skin infections characterized by nodular boil-like lesions that progress to skin ulcerations. Oral administration of potassium iodide remedies infections and eradicates the fungus that causes them.
Provides Numerous Benefits
Potassium iodide has been reported to display antimicrobial properties. It is utilized as an antibiotic in surgical science. It has been noted to reduce fibrosis of soft tissues and excessive formation of blood vessels in body organs. It stimulates the production of saliva and mucus in the event of respiratory infections. It also acts as a detox agent for several toxic chemicals found in the systemic circulation.
How Does Progesterone Cream Help Ease Hot Flash Symptoms?
June 21, 2011 11:01 AM
Progesterone And Hot Flashes
Progesterone cream is an all natural remedy for hormonal imbalances in the female body. It has grown in popularity in the past few years largely owing to very strong anecdotal evidence. Its use in the management of hot flashes has produced very encouraging results, and thus has become a mainstay of alternative treatment for vasomotor symptoms of menopause and premenstrual syndrome.
Plants contain fats and oils that can be modified in the laboratory to partially synthesize progesterone. The active ingredient of most progesterone creams in the market is diosgenin, which is a plant sapogenin that occurs naturally in wild yams. Diosgenin has long been noted for its steroidal activity inside the human body, but it has been successfully converted to progesterone only recently.
reverses Estrogen Dominance
The concept of estrogen dominance is central to the appearance of hot flashes. A group of medical professionals believe that vasomotor symptoms are brought on by fluctuations in hormonal levels, among other factors. While both groups of female sex hormones experience changes, progesterone is thought to approach near depletion in comparison with estrogen. Hence, the latter dominates.
Progesterone creams work on the principle of reversing estrogen dominance. They are formulated to facilitate optimum absorption into the body. While their active ingredients, such as diosgenin, have been noted to produce estrogen-like activities when unmodified, progesterone creams function exactly in the same manner as endogenous secretions of progesterone.
Increases Progesterone Levels
Hot flashes are often linked to changes in body temperature. It has long been postulated that hormonal imbalances have an effect on the hypothalamus, which regulates body temperature. It is believed that depleting levels of progesterone lead to a series of chemical reactions that confuse the biological thermostat, resulting in vasodilation of blood vessels close to body surfaces.
Progesterone creams effectively relieve hot flashes because the active ingredients are capable of penetrating the part of the skin that leads to the blood vessels. There is very good evidence that topical applications of progesterone are readily absorbed. Since fats and oils from plants have high absorption rates, progesterone creams are certain to increase progesterone levels in no time.
Normalizes Hormonal Changes
There has not been any contraindication associated with the regular use of progesterone creams as most of them are formulated in concentrations suitable for use at any time of the day. In fact, it can be applied to the skin even in the absence of hot flashes to prevent any vasomotor symptoms. A growing of body of literature has noted its efficacy in managing hormone-related imbalances.
More importantly, progesterone creams have shown great promise in stabilizing hormone levels in the long run, making it an ideal remedy for women suffering from premenstrual syndrome. Also, it is very likely to help women who are surgically menopausal as they experience very intense episodes of hot flashes that last until the natural age of menopause.
Grab some progesterone today and feel the relief it can bring!
Can Lycopene Help with Prostate Problems
May 09, 2011 11:14 AM
Lycopene and The Prostate.
Lycopene is an organic compound often associated with tomatoes. It is almost always touted to prevent prostate cancer, though the scientific community has not come to a conclusion yet. Scientists are nevertheless positive that it is good for the prostate, for it displays antiproliferative effects on prostate cells. Laboratory studies are very promising as it appears to inhibitory effect on tumor growth.
Prostate health has long been tied to consumptions of foods rich in lycopene. It is a carotenoid that is bright red in color, and as such can easily be obtained from brightly colored plant products, such as watermelon, papaya, pink guava, and apricots in addition to tomatoes. Like other carotenoids, it displays antioxidant properties. In fact, it is the most efficient scavenger of singlet oxygen of all antioxidants that are classified as carotenoids.
reverses Oxidative Damage
There have been numerous studies on lycopene in the past few decades, and many of them have noted its antioxidant potential. It has become common knowledge that lycopene is good for the prostate, but not all people know that the prostate gland is its primary storage in the human body. Indeed lycopene interferes with the health of cells and tissues that make up the prostate gland.
One study that tracked down malignant prostate tissues prior to scheduled surgical removal studied the effects of regular intake of lycopene. It was documented and published that lycopene concentrations in the prostate doubled and the oxidative damage to DNA in prostate tissues decreased, suggesting a dose-related efficiency in the prevention of cellular damage brought on by free radicals and other reactive oxygen species.
Induces Apoptotic Death
High consumptions of lycopene appear to directly counteract with cancer cells and tumor growth, not only in the prostate gland, but also in the lungs, breasts, ovaries, stomach, and cervix. It has also been tied to other disorders of the prostate, such as prostatitis and benign prostatic hyperplasia, or BPH. It has been noted to slow down cell proliferation that leads to the enlargement of the prostate.
More imporatantly, lycopene seems capable of inducing the cellular process called apoptosis, or programmed cell death, in prostate tissues, most notably in carcinoma regions. This is also evidenced by a significant decrease in prostate-specific antigen in the blood, the reason why lycopene has gained the attention of researchers for prostate health, spurring a number of studies in recent years.
Maintains Prostate Health
Lycopene levels in the human body are largely dependent on dietary intake. As a general rule, the higher the intake of lycopene is, the healthier the prostate becomes. First, it neutralizes reactive oxygen species such as singlet oxygen and free radicals. It also inhibits the multiplication of prostate cells, effectively preventing benign prostatic hyperplasia, which is believed to afflict up to 80 percent of the male population. For those suffering from prostate enlargement, it slows the progression of the disease.
If you are, 40 years old or more you should consider taking lycopene as a preventative daily!
L-Alanine Non Essential Amino Acid
January 05, 2009 04:31 PM
L-Alanine is one of 20 amino acids that are used by the body to manufacture the proteins essential for life. Each protein possesses specific biological properties that are imparted by the sequence of amino acids it contains. Proteins control the chemistry that takes place within the cells of our body, and comprise all of the enzymes that catalyze the body's biochemistry.
Amino acids are also the building blocks of DNA that determines the genetic make-up of individuals, and that also provides recipes or templates for the production of proteins from amino acid sequences. There is a different DNA template for every protein required by the body that determines which of the 20 amino acids are needed, and in what order they are to be combined with one another to manufacture the desired protein.
10 of these 20 amino acids can be synthesized by your body's biochemistry, the other 10 being essential parts of your diet. If you fail to include just of these 10, then your body will break down its proteins until it has obtained a sufficient supply of that amino acids for its needs. That involves muscle and other tissue degradation, and is one of the symptoms of malnutrition. Amino acids are not stored, and a daily supply is essential to avoid these symptoms.
L-Alanine is one of the ten that the body can manufacture, and used by the body to help build protein and also to enable the body to make use of glucose to generate energy. It does so as part of what is known as the glucose-alanine cycle. During anaerobic exercise, such as in weightlifting and sustained running, muscles produce lactate and also alanine.
The alanine is passed on to the liver where it is converted to energy via its conversion to glucose. This is not a particularly efficient means of creating energy because a byproduct of the process is urea, the removal of which in turn requires energy. However, it serves its purpose as an energy source once the liver is depleted of glycogen. In fact that is the major use to which alanine appears to be put by the body: the conversion of glucose to energy.
The way the glucose-alanine cycle works is that a process known as transamination produces glutamate from the amino groups of amino acids that are degraded during exercise. Glutamate is then converted to pyruvate by means of the enzyme alanine aminotransferase, with the production of alanine and alpha-ketoglutarate. This is a reversible reaction, and after the alanine has been carried by the bloodstream to the liver, the reaction reverses with the regeneration of pyruvate that undergoes gluconeogenesis (generation of glucose).
The result of this is glucose that returns to the muscle tissue to provide more energy. The glutamate is broken down to the ammonium ion in the mitochondria, which in turn enters the urea cycle with the production of urea.
In a nutshell, then, the glucose-alanine cycle removes glutamate and pyruvate from muscle tissue to the liver where glucose is generated from the pyruvate and returned to the muscle. Since gluconeogenesis involves the expenditure of energy, and this occurs in the liver rather than in the muscle, all the energy in the muscle can be used for muscle contraction.
L-Alanine possesses other properties, among them the ability to help maintain the health of the prostate. A study of benign prostatic hyperplasia (enlarged prostate) indicated that treatment with L-alanine, glutamic acid and glycine over a period of three months reduced the symptoms. However, make sure that you consult your physician before using alanine in this way. This is not because there are any known adverse side effects, because there are not, but because it I always wise to so with any supplement taken with a view to treating any medical condition.
A less obvious application derives from the fact that it forms a stable free radical when deaminated. Deamination can be initiated by radiation, and so the concentration of this free radical can be measured to ensure that the correct dose of radiation is being given in dosimetric radiotherapy. It is not always easy to control the dose accurately, and this property of alanine allows it to monitored and to ensure that it is neither too low to have the desired effect, nor dangerously high.
Although it is a non-essential amino acid, and can be produced by the body, a dietary supply or supplement is advantageous if extra energy is required. Good dietary sources of L-alanine include meats, seafood, eggs, nuts, beans, seeds, brewer's yeast, corn and legumes among others. Supplements are also available, and useful for body-builders, weightlifters and others involved in anaerobic exercise. Due to the glucose-alanine cycle, it can possibly provide energy when lactate build-up would otherwise lead to muscle cramps.
Those for whom a supplement could be useful are athletes and others who are trying to build muscle and stamina, or reduce their body fat and also the obese and overweight for the same reason. There is also evidence that a combination of the amino acids alanine, glycine and arginine can help to reduce arterial plaque from oxidized low density lipoproteins, and can also help to reduce high blood pressure.
Deficiencies are rare, although groups that do not eat meat should be careful to eat foods with a good alanine content. There are no known side effects of a deficiency since the body will generate what is needed for normal purposes, and while the supplement appears to have no side effects, it is advisable that pregnant and lactating women should first seek medical advice. The same applies if you suffer from hypertension or diabetes. High doses of alanine might also affect those with kidney or liver disease.
Although the benefits of supplementation of L-alanine might not be immediately obvious, the results and the science indicate that it is effective in making better use of blood glucose in that the adenosine triphosphate (ATP) created in the muscle tissue is allowed to be expended on muscle contraction while the glucose-alanine cycle provides the energy needed for gluconeogenesis.
Turmeric and Alzheimer’s Disease
May 10, 2007 12:38 PM
Turmeric and Alzheimer’s Disease
Compare these findings to people over the age of 65 living in the
So what are people who are living in
Q. How can curry prevent these changes in the brain? Isn’t that a lot to expect from a spice?
A. Evidently, it’s not too much to expect from this spice. Curry comes from the turmeric plant – Curcuma longa is the plant’s official name. Curcumin, a plant compound in turmeric, is the source of curry’s instantly recognizable bright yellow pigment. When it comes to the scientific research of Curcuma longa, the terms curcumin and turmeric are both used. Both refer to the same thing- tumeric extract.
There have been more than 1300 studies on tumeric and its health benefits for humans. Research has shown tumeric is able to help the body get rid of cancer-causing toxins. Turmeric also blocks estrogen receptors and enzymes that promote cancer. And it’s been found to stop the growth of new blood vessels in cancerous tumors – an important factor in keeping cancer from getting larger and spreading throughout the body.
But one of turmeric’s most exciting health benefits is its ability to reduce, prevent, and stop inflammation. While inflammation is a normal and needed response to injury or disease, chronic inflammation can cause damage to tissues. And researchers are now finding inflammation plays a huge role in Alzheimer’s disease.
Q. I’ve always heard that Alzheimer’s disease was caused by complex growths in the brain called plaques and tangles. How can simple inflammation cause such a devastating disease?
A. You are right. Plaques and tangles are indeed the hallmarks of Alzheimer’s disease. But researchers looking at the brain damage caused by Alzheimer’s have always noted the presence of inflammation wherever plaques and tangles form. In the past, this inflammation was thought to be simply a consequence of Alzheimer’s disease. Now scientists believe the inflammation itself starts a chain reaction ultimately contributing to the development of Alzheimer’s disease.
` When cells in the brain are disrupted by inflammation, amyloid, and a protein normally found in the brain, beings to act chaotically. This chaos results in the creation of beta-amyloid, protein that is toxic to cells in the brain. Sticky deposits of beta0amyloid build up and collect around the cells, making dense clumps or plaques. Because the brain can’t break the plaques down and get rid of them, they stay right where they are and slowly accumulate.
Tangles result when long protein fibers that act like scaffolding for brain cells begin to twist and tangle. The cell is damaged and eventually dies. But the tangled proteins remain in the brain even after the dead neuron has been cleared away. And inflammation might be the culprit causing the long protein fibers to start tangling.
The consequence of these abnormalities of protein in the brain is more than the cell death they cause. They also act as roadblocks interfering with electrochemical messengers being shot from cell to cell. Therefore, the remaining healthy cells’ activity is diminished as well.
Research of identical twins has repeatedly shown that if one twin has Alzheimer’s disease, the other has a 60% chance of developing the disease, too. Scientists from the Karolinska Institute in
In fact, the inflammatory process might occur years before the onset of Alzheimer’s, and be the result of any number of infections people can contract. That’s why current research is searching for ways to protect brain cells from inflammation. And why some countries have low rates of Alzheimer’s disease, like
Q. Why curry? Couldn’t other lifestyle difference account for the low rates of Alzheimer’s disease in
A. That’s a good question. When researchers begin studying a disease, like Alzheimer’s, they look for trends to help them determine how and why the disease occurs. For example, we all now know the connection between cigarettes smoking and long cancer. But, it wasn’t until the 1930’s that doctors noticed the trend fro cigarette smokers to have more lung cancer than people who didn’t smoke.
So it has been with researchers studying Alzheimer’s disease. They know Alzheimer’s disease has an important connection to inflammation. They also know turmeric reduces inflammation. And when researchers noticed these trends – that people in India eat high amounts of curry from turmeric and have very little Alzheimer’s disease – they began to theorize that turmeric might be able to prevent or even treat the illness. And the research they designed around these trends has unequivocally found turmeric to be on common denominator.
Q. What have the turmeric studies shown so far?
A. Simply amazing findings are coming from curry research. Not only does turmeric slow down cancer growth, it’s also been found to correct the cystic fibrosis defect in mice, help prevent the onset of alcoholic liver disease, and may slow down other serious brain diseases like multiple sclerosis.
Researchers from the
And now the UCLA Alzheimer’s Disease Research Center (ADRC) is using turmeric in clinical trials and studying the effect of this powerful spice in patients diagnosed with this devastating disease. Clinical trials are the gold standard of medical research. But it’s rare in Alzheimer’s disease. And it’s even more rare when all-natural herbs and spices like turmeric are used in hopes the positive benefits will be discovered. The head of the UCLA’s research team was recently interviewed and stated that setting out to hopefully prove turmeric’s ability to prevent and treat Alzheimer’s disease was “tremendously exciting.”
Q. I recently read that one of the non-steroidal anti-inflammatory drugs (NSAID) was found to prevent Alzheimer’s disease. Is this true?
A. Scientists recently studied ibuprofen, one of the NSAIDs investigated for Alzheimer’s disease Prevention. Ibuprofen belongs to a family of drugs that includes naproxen, indomethacin, nabumetone, and several others. These drugs are used most often to get rid of headaches, mild arthritis, and other kinds of pain and inflammation.
In the studies, the average dose of ibuprofen was 800mg a day. Patients took the product for two years. While the results suggested that ibuprofen might reduce the risk of developing Alzheimer’s, ibuprofen’s side effects are too harmful to be a valid lifelong prevent aid treatment. Ibuprofen, like other NSAIDs, can cause gastrointestinal bleeding when used at high dosages over a long period of time. Long term use of ibuprofen can also lead to analgesic nephropathy, a kind of kidney damage caused by NSAIDs.
As we discussed earlier, turmeric appears to block and break up brain plaques that cause the disease and helps reverse some of the damage already present. Ibuprofen does not provide any protection against free radical damage. No anti-inflammatory medicine can do this.
Q. If I eat curry will I be protected against Alzheimer’s disease? There aren’t many foods or recipes I make that require curry, do I need to eat it every day? And how much do I need?
A. If you enjoy Indian cuisine, by all means, enjoy these delicious foods. You’ll benefit your brain and your appetite. But you make a good point, American meals rarely contain curry. That’s why supplements that contain extracts are suddenly quite popular. In fact, there are numerous turmeric/curcumin supplements on the market today.
But like all nutritional supplements, some turmeric supplements are superior to others. You need to read their labels to make sure the turmeric extract you are buying will provide the protection you need. Look for high-potency turmeric extract from turmeric (Curcuma longa) rhizome. And make sure the extract is standardized to contain 90% curcuminoids, the active ingredient in turmeric responsible for the positive research findings.
Researchers once thought that preventing for Alzheimer’s disease would elude them for decades. In fact, several scientists privately speculated the disease might never be ameliorated. They thought the origin of the disease was too complex and the symptoms of the disease were too profound.
That’s why ongoing research on turmeric is so exciting. A safe, natural, and effective way to protect against Alzheimer’s disease almost seems too good to be true. But, the nation of
Glucosamine Sulfate and Chondroitin Sulfate
March 28, 2007 11:10 AM
Glucosamine Sulfate and Chondroitin Sulfate
Osteoarthritis is the most prevalent form of arthritis in the U.S., according to the Arthritis Foundation. One-third of all American adults have X-ray evidence of osteoarthritis of the hand, foot, knee, or hip. Osteoarthritis is responsible for more than 7 million physician visits per year and is second only to cardiovascular disease as the cause of chronic disability in adults. As Baby Boomers age, the number of people suffering from osteoarthritis is expected to rapidly increase in the next 10 years.
While osteoarthritis research ahs led to the development of promising new prescription and over-the-counter medications aimed at reducing pain, none has created the excitement of glucosamine sulfate (GS), which actually addresses the underlying joint destruction.
Q. What is osteoarthritis?
A. Osteoarthritis is a complex, metabolic disorder of the cartilage and bones of certain joints. However, to fully understand how osteoarthritis develops, we need to understand how joints work.
A joint is formed when two or more bones are brought together and held in place by muscles and tendons. Some joints have very little range of movement, such as the joints of the ribs, while others have much more range of movement. Hips, knees, elbows, writs, and thumbs are termed synovial joints, and have the greatest range of movement and mobility of human joints. To allow such mobility, synovial joints have a unique structure.
The bones that form synovial joints are covered with cartilage. Tough fibrous tissue encloses the area between the bone ends and is called the joint capsule. The joint cavity within the capsule is lined with an inner membrane, called synovial membrane. The membrane secretes synovial fluid, a thick, slippery fluid that fills the small space around and between the two bones. This fluid contains many substances that lubricate the joint and ease movement.
The cartilage of synovial joints serves two very important functions. First, it provides a remarkably smooth weight-bearing surface; synovial joints move easily. Secondly, synovial cartilage serves as a shock absorber, providing a soft, flexible foundation. Healthy cartilage absorbs the force of the energy, transmits the load to the bone, and distributes the mechanical stress created by joint movement.
Synovial joints function under almost continual mechanical stress. A joint’s ability to withstand or resist this stress is a reflection of its health. When the mechanical stress is too great or the joint’s ability to resist this stress is compromised, physical changes occur in the cartilage covering the bones.
Cartilage is a tough, elastic tissue, comprised mostly of water, collagen, and complex proteins called proteoglycans. In osteoarthritis, the cartilage starts to weaken, becomes frayed, and eventually breaks down. This exposes the bones of the joint, which then rub together. A gritty feeling and grinding sound may occur when an osteoarthritic joint is bent and flexed. As osteoarthritis progresses, bits of bone and cartilage often break off and float inside the joint space. The bones may enlarge, causing the joint to lose its normal shape. Tiny bone spurs may grow on the joints’ sides and edges. These physical changes in the diseased joint are responsible for progressive damage and continual pain.
People with osteoarthritis most frequently describe their pain as deep and aching. The pain not only is felt in the affected joint but may also be present in the surrounding and supporting muscles. Joint inflammation also may occur, increasing the already considerable discomfort. Joint stiffness is another unfortunate component of osteoarthritis. Exercising the joint most often results in increased pain; however, stiffness tends to follow periods of inactivity. Humid weather often makes all osteoarthritis symptoms worse. As the disease progresses, the pain may occur even when the joint is at rest, creating sleepless nights and miserable days.
Q. What causes osteoarthritis?
A. Osteoarthritis’ exact cause remains unknown. Researchers know aging doesn’t appear to cause osteoarthritis. Cartilage in people with the disease show many destructive changes not seen in older persons without the disease. However, certain conditions do seem to trigger osteoarthritis or make it worse.
Some families seem to have a lot of osteoarthritis, pointing to a genetic factor. This is most commonly seen in people who have osteoarthritis of the hands. Repeated trauma can contribute to osteoarthritis, too. Athletes, extremely active people, and individuals who have physically demanding jobs often develop the disease. Persons who have certain bone disorders are more prone to osteoarthritis due to the continuous, uneven stress in their hips and knees.
Obesity also is a risk factor for the disease. In overweight women, osteoarthritis of the knee is fairly common. Excess pounds also may have a direct metabolic effect on cartilage beyond the effects of increased joint stress. Obese people also often have m ore dense bones. Research has shown dense bones may provide less shock-absorbing function than thinner bones, allowing more direct trauma to the cartilage.
Q. Can osteoarthritis be prevented?
A. While there is currently no sure way to prevent osteoarthritis or slow its progression, some lifestyle changes may reduce or delay symptoms. The Arthritis Foundation states that maintaining a healthy weight, losing weight if needed, and regular exercise are effective osteoarthritis prevention measures.
Optimal calcium intake in younger years is vital to ensure a healthy aging skeletal system. Vitamins A, C, D, and E have been studied for their role in osteoarthritis prevention. These vitamins also have shown benefit in individuals who have osteoarthritis.
Q. What treatments are available for osteoarthritis?
A. The goal of treatment is to reduce or relieve pain, maintain or improve movement, and minimize any potential permanent disability. Typically, non-steroidal anti-inflammatory drugs or NSAIDs (pronounced “n-sayds”) such as aspirin and ibuprofen are used for pain and inflammation relief. These medications are effective in treating only the pain of osteoarthritis.
These medications have many side effects, some of which are serious. NSAID-induced gastrointestinal complications cause more than 100,000 hospitalizations and nearly 16,500 deaths annually in the U.S. Aspirin can cause an extremely annoying and continual ringing in the ears. NSAIDs frequently cause damage to the stomach lining, which can produce uncomfortable heartburn and abdominal pain. Continued NSAID use may lead to the development of stomach ulcers. NSAID-related ulcers can perforate the stomach lining and cause life-threatening bleeding. Most NSAIDs also interfere with blood clotting and may cause kidney damage. When older persons take NSAIDs, dizziness, drowsiness, memory loss, and decreased attention span may occur.
Acetaminophen (Tylenol and similar medications) is similar to aspirin and other NSAIDs in its pain-relief abilities. However, acetaminophen doesn’t reduce inflammation. And while acetaminophen doesn’t have the same side effects of aspirin and other NSAIDs, if large doses are taken, liver damage can occur.
Newer medications called COX-2 inhibitors provide both pain relief and reduce inflammation without the many side effects of acetaminophen, aspirin, and other NSAIDs. More recent research has indicated that, in certain situations. COX02 inhibitors also can cause stomach lining damage and bleeding. While aspirin, NSAIDs, and COX-2 inhibitors may reduce osteoarthritis pain, they do nothing to stop or slow down cartilage deterioration. In other words, these medications have no effect on the disease itself.
That is why many believe glucosamine sulfate (GS) and chondroitin sulfate (CS) are preferable to pain relievers and anti-inflammatory medications in osteoarthritis treatment: they actually improve synovial joint health. And they do this without potentially life-threatening side effects.
Q. How do GS and CS work?
A. GS improves the health of joints affected by osteoarthritis. This supplement is so effective that even physicians who mostly rely on conventional medications routinely recommend it to their patients with osteoarthritis. In fact, GS is so good at treating osteoarthritis, many physicians use it for their own osteoarthritis joints.
There is even more good news. When glucosamine sulfate is combined with low-molecular weight CS, even greater benefits can be achieved. GS and CS are naturally occurring compounds found in human joints. The right GS/CS combination actually reverses damage in joints affected by osteoarthritis, in turn significantly reducing pain and stiffness.
Glucosamine occurs naturally in the body and is found in synovial fluid. Glucosamine is a basic building block for proteoglycans, is a basic building block for proteoglycans, one of the important compounds of synovial cartilage. It also is required for the formation of lubricants and protective agents for the joints.
In Europe, GS and CS have been used to treat osteoarthritis for more than 10 years. While persons with arthritis felt much better when they took GS and CS, no one really knew how these compounds worked. When European and American researchers first started to study glucosamine, they discovered GS can reduce synovial joint inflammation. This explains why people felt better after taking it.
Q. What has additional study of GS and CS revealed?
A. As the scientific study of GS progressed, researchers determined it can stimulate the growth of cartilage cells, inhibit proteoglycans breakdown, and rebuild cartilage damaged from osteoarthritis. In other words, GS does not simply make persons with osteoarthritis feel better; GS actually makes persons with osteoarthritis get better.
GS is the form of glucosamine used in research. It’s the sulfate salt of glucosamine and breaks down into glucosamine and sulfate ions in the body. The sulfate part of GS plays an important role in proteoglycans synthesis.
CS also provides cartilage strength and resilience. CS is an important component of the cartilage proteoglycans of synovial joints. Because CS helps the production of proteoglycans, researchers believe CS works in a similar nature to GS.
Q. Couldn’t GS and CS be taken on their own? Is there any benefit in taking them together?
A. Research has discovered GS and CS act synergistically (work well together) in improving joint health. Several studies have investigated this action and it’s recommended that GS and CD be taken together. However, there may be times when your healthcare practitioner may recommend using one or the other, but not both GS and CS together. Please follow their recommendations to obtain the best results for your own unique health concerns. Low-molecular weight chondroitin sulfate (CS) is the preferred CS form, and the form that has shown the most promise in studies.
Q. Why is it important to take low-molecular weight CS?
A. When CS was first studied, it was given to six healthy volunteers, six patients with rheumatoid arthritis, and six patients with osteoarthritis. Researchers then measured the levels of CS in all study subjects. They found no evidence of CS in any of the subjects. This single study led many physicians and scientists to believe CS can’t be absorbed, and was not an effective natural treatment.
However, several other studies in healthy volunteers have reported CS can be absorbed. The distinct difference for these findings is thought to be associated with the types of CS used in the studies. Some forms are much more absorbable that others. This was demonstrated in a recent study using CS with lower molecular weight. A higher absorption is observed for low-molecular weight CS.
This means CS products with a low molecular weight may be better absorbed, allowing the CS to get into the bloodstream and the synovial fluid of joints where it’s needed.
Q. Are there other supplements that can help osteoarthritis?
A. Several vitamins, minerals, enzymes, and natural supplements have benefits for individuals with osteoarthritis. Proteolytic enzymes effectively offer relief of the pain, stiffness, and swelling of osteoarthritis.
Folic acid and vitamin B can reduce the number of tender joints and increase joint mobility. Vitamins C, D, and E not only may prevent osteoarthritis, but inhibit the disease’s progression. Niacinamide improves joint function, range of motion, and muscle strength. Clinical studies using the herb Boswellia serrata have yielded good results in osteoarthritis.
Application of ointments on osteoarthritic joints may be helpful in reducing pain and stiffness. Menthol-based preparations can provide soothing relief to painful joints. Capsaicin ointments and gel made for cayenne pepper also are very beneficial. When applied to the skin, capsaicin first stimulates, then blocks, nerve fibers that transmit pain messages. Capsaicin depletes nerve fibers of a neurotransmitter called substance P. This neurotransmitter transmits pain messages and activates inflammation in osteoarthritis. Capsaicin ointment is very effective in relieving osteoarthritis pain in many individuals.
Q. Is there anything else I can do for joint pain and stiffness?
A. When osteoarthritis occurs in the hands, use of a paraffin dip can be very comforting. A licensed health care practitioner can provide information about how to safely use paraffin dips at home.
Exercise is an excellent way to keep joints mobile, decrease pain, and increase body strength, too. Water aerobics also can reduce the pressure and stress on joints.
The Arthritis Foundation strongly suggests making movement an integral part of your life. When you’re in less pain and have more energy, more range-of-motion, and a better outlook on life, you’ll reduce stress and be a much healthier person despite your osteoarthritis.
One important last thought
When we don’t feel well, we sometimes have a tendency to self-diagnose. If you haven’t been evaluated by a licensed health care practitioner for your joint pain and stiffness, you need to do so. These symptoms may be caused by other illnesses and may require much different treatment. Only licensed health care practitioner can provide a certain diagnosis of osteoarthritis.
Osteoarthritis may be a part of life for many of us as we age; however, constant pain and stiffness need not be. GS combined with absorbable CS can actually improve damage in joints affected by osteoarthritis and significantly reduce pain and stiffness. And it can be an empowering way to improve your health.
Astragalus Fact Sheet
December 07, 2005 01:15 PM
Astragalus Fact SheetNeil E. Levin, CCN, DANLA 02/10/05
LIKELY USERS: Everyone seeking a healthy immune system; Those lacking energy
KEY INGREDIENTS: Astragalus Root Extract Powder 70% polysaccharides (200 mg)
MAIN PRODUCT FEATURES: A Chinese “tonic herb” used in Traditional Chinese Medicine for night sweats, diarrhea and lack of energy. Tonic herbs are often known as “adaptogens”, helping the body adapt to stresses and modulating immune system responses. Some reports credit Astragalus with shortening colds and strengthening the heart.Astragalus additionally contains triterpene glycosides, also known as astragalosides.
ADDITIONAL PRODUCT INFORMATION: Vegetarian formula.May be useful to maintain the patient’s immunity in dialysis patients, those with liver problems and those who have suffered from strokes, according to Chinese studies (not as a treatment for those conditions!).
SERVING SIZE & HOW TO TAKE IT: For everyday use take one to five caps per day, either with meals or on an empty stomach.
COMPLEMENTARY PRODUCTS: Immune Renew, Inositol Hexaphosphate (IP-6), I3C, Pometrol, mixed carotenoids and other antioxidants.
CAUTIONS: Pregnant & lactating women, children and people using prescription drugs should consult their physician before taking any dietary supplement. Do not take with AIDS drugs or if you have an autoimmune disease, though there is some (not enough) evidence that Astragalus may balance immune function for at least one autoimmune disorder. This information is based on my own knowledge and these references, but should not be used as diagnosis, prescription or as specific product claims.
Disclaimer: These statements have not been evaluated by the FDA. This product is not intended to diagnose, treat, cure or prevent any disease.
REFERENCES: 1. Ooi VE, Liu F. Immunomodulation and anti-cancer activity of polysaccharide-protein complexes. Curr Med Chem. 2000 Jul;7(7):715-29.
THE FDA AND STEVIA
July 15, 2005 12:45 PM
THE FDA AND STEVIA
While stevia in no way qualifies as an “artificial sweetener,” it has been subject to rigorous inquiry and unprecedented restraints. In 1986, FDA officials began to investigate herb companies selling stevia and suddenly banned its sale, calling it “an unapproved food additive.” Then in 1991, the FDA unexpectedly announced that all importation of stevia leaves and products must cease, with the exception of certain liquid extracts which are designed for skin care only. They also issued formal warnings to companies and claimed that the herb was illegal. The FDA was unusually aggressive in its goal to eliminate stevia from American markets, utilizing search and seizure tactics, embargoes and import bans. Speculation as to why the FDA intervened in stevia commerce points to the politics of influential sugar marketers and the artificial-sweetener industry.
During the same year, the American Herbal Products Association (AHPA) began their defense of the herb with the goal of convincing the FDA that stevia is completely safe. They gathered documented literature and research on both stevia and other non-caloric sweeteners. The overwhelming consensus was that stevia is indeed safe, and the AHPA petitioned the FDA to exempt stevia from food additive regulations.
Food Additive vs. Dietary Supplement
FDA regulations of stevia were based on its designation as a food additive. The claim was that scientific study on stevia as a food additive was inadequate. Ironically, extensive Japanese testing of stevia was disregarde—regardless of the fact that this body of documented evidence more than sufficiently supported its safe use. Many experts who have studied stevia and its FDA requirements have commented that the FDA wants far more proof that stevia is safe than they would demand from chemical additives like aspartame.
Stevia advocates point out that stevia not a food additive, but rather, a food. Apparently, foods that have traditionally been consumed do not require laborious and expensive testing for safety under FDA regulations. The fact that so many toxicology studies have been conducted in Japan, coupled with the herb’s long history of safe consumption, makes a strong case for stevia being accepted by the FDA as a safe dietary substance. Still, it was denied the official GRAS (generally recognized as safe) status and designated a food additive by the FDA.
The FDA reverses Its Position
As a result of the Health Freedom Act passed in September of 1995, stevia leaves, stevia extract, and stevioside can be imported to the United States. However, ingredient labels of products that contain stevia must qualify as dietary supplements.
Stevia had been redesignated as a dietary supplement by the FDA and consequently can be legally sold in the United States solely as a supplement. Its addition to teas or other packaged foods is still banned. Moreover, stevia cannot, under any circumstances, be marketed as a sweetener or flavor enhancer.
SUGAR, SUGAR EVERYWHERE
Ralph Nader once said, “If God meant us to eat sugar, he wouldn’t have invented dentists.” The average American eats over 125 pounds of white sugar every year. It has been estimated that sugar makes up 25 percent of our daily caloric intake, with soda pop supplying the majority of our sugar ingestion. Desserts and sugar-laden snacks continually tempt us, resulting in an escalated taste for sweets.
The amount of sugar we consume has a profound effect on both our physical and mental well-being. Sugar is a powerful substance which can have drug-like effects and is considered addictive by some nutritional experts. William Duffy, the author of Sugar Blues, states,“The difference between sugar addiction and narcotic addition is largely one of degree.” In excess, sugar can be toxic. Sufficient amounts of B-vitamins are actually required to metabolize and detoxify sugar in our bodies. When the body experiences a sugar overload, the assimilation of nutrients from other foods can be inhibited. In other words, our bodies were not designed to cope with the enormous quantity of sugar we routinely ingest. Eating too much sugar can generate a type of nutrient malnutrition, not to mention its contribution to obesity, diabetes, hyperactivity, and other disorders. Sugar can also predispose the body to yeast infections, aggravate some types of arthritis and asthma, cause tooth decay, and may even elevate our blood lipid levels. Eating excess sugar can also contribute to amino acid depletion, which has been linked with depression and other mood disorders. To make matters worse, eating too much sugar can actually compromise our immune systems by lowering white blood cells counts. This makes us more susceptible to colds and other infections. Sugar consumption has also been linked to PMS, osteoporosis and coronary heart disease.
Why Do We Crave Sweets?
Considering the sobering effects of a high sugar diet, why do we eat so much of it? One reason is that sugar gives us a quick infusion of energy. It can also help to raise the level of certain brain neurotransmitters which may temporarily elevate our mood. Sugar cravings stem from a complex mix of physiological and psychological components. Even the most brilliant scientists fail to totally comprehend this intriguing chemical dependence which, for the most part, hurts our overall health.
What we do know is that when sugary foods are consumed, the pancreas must secrete insulin, a hormone which serves to bring blood glucose levels down. This allows sugar to enter our cells where it is either burned off or stored. The constant ups and downs of blood sugar levels can become exaggerated in some individuals and cause all kinds of health problems. Have you ever been around someone who is prone to sudden mood swings characterized by violent verbal attacks or irritability? This type of volatile behavior is typical of people who crave sugar, eat it and then experience sugar highs and lows. Erratic mood swings can be linked to dramatic drops in blood sugar levels.
Hypoglycemia: Sign of Hard Times?
It is rather disturbing to learn that statisticians estimate that almost 20 million Americans suffer from some type of faulty glucose tolerance. Hypoglycemia and diabetes are the two major forms of blood sugar disorders and can deservedly be called modern day plagues. Hypoglycemia is an actual disorder that can cause of number of seemingly unrelated symptoms. More and more studies are pointing to physiological as well as psychological disorders linked to disturbed glucose utilization in brain cells. One study, in particular, showed that depressed people have overall lower glucose metabolism (Slagle, 22). Hypoglycemia occurs when too much insulin is secreted in order to compensate for high blood sugar levels resulting from eating sugary or high carbohydrate foods. To deal with the excess insulin, glucagon, cortisol and adrenalin pour into the system to help raise the blood sugar back to acceptable levels. This can inadvertently result in the secretion of more insulin and the vicious cycle repeats itself.
A hypoglycemic reaction can cause mood swings, fatigue, drowsiness, tremors, headaches, dizziness, panic attacks, indigestion, cold sweats, and fainting. When blood sugar drops too low, an overwhelming craving for carbohydrates results. To satisfy the craving and compensate for feelings of weakness and abnormal hunger, sugary foods are once again consumed in excess.
Unfortunately, great numbers of people suffer from hypoglycemic symptoms. Ironically, a simple switch from a high sugar diet to one that emphasizes protein can help. In addition, because sugar cravings are so hard to control, a product like stevia can be of enormous value in preventing roller coaster blood sugar levels. One Colorado internist states: People who are chronically stressed and are on a roller coaster of blood sugar going up and down are especially prone to dips in energy at certain times of day. Their adrenals are not functioning optimally, and when they hit a real low point, they want sugar. It usually happens in mid-afternoon when the adrenal glands are at their lowest level of functioning. (Janiger, 71) Our craving for sweets in not intrinsically a bad thing; however, what we reach for to satisfy that craving can dramatically determine how we feel. Stevia can help to satisfy the urge to eat something sweet without changing blood sugar levels in a perfectly natural way and without any of the risks associated with other non-nutritive sweeteners.
Diabetes: Pancreas Overload?
Diabetes is a disease typical of western cultures and is evidence of the influence that diet has on the human body. Perhaps more than any other disease, diabetes shuts down the mechanisms which permit proper carbohydrate/sugar metabolism. When the pancreas no longer secretes adequate amounts of insulin to metabolize sugar, that sugar continues to circulate in the bloodstream causing all kinds of health problems. The type of diabetes that comes in later years is almost always related to obesity and involves the inability of sugar to enter cells, even when insulin is present. Diabetes can cause blindness, atherosclerosis, kidney disease, the loss of nerve function, recurring infections, and the inability to heal. Heredity plays a profound role in the incidence of diabetes, but a diet high in white sugar and empty carbohydrates unquestionably contributes to the onset of the disease. It is estimated that over five million Americans are currently undergoing medical treatment for diabetes and studies suggest that there are at least four million Americans with undetected forms of adult onset diabetes. Diabetes is the third cause of death in this country and reflects the devastating results of a diet low in fiber and high in simple carbohydrates. Most of us start our children on diets filled with candy, pop, chips, cookies, doughnuts, sugary juice, etc. Studies have found that diabetes is a disease which usually plagues societies that eat highly refined foods. Because we live in a culture that worships sweets, the availability of a safe sweetener like stevia, which does not cause stress on the pancreas is extremely valuable. If sugar consumption was cut in half by using stevia to
GARLIC AND CARDIOVASCULAR HEALTH
June 25, 2005 09:59 AM
GARLIC AND CARDIOVASCULAR HEALTH
Recent research has supported the fact that garlic shows excellent potential in the treatment of cardiovascular diseases. Disorders of the heart and the circulatory system claim more lives than any other disease. It is the obstruction or clogging of the coronary arteries which causes more deaths that any other factor. The arteries, which supply the heart with blood and oxygen, become increasingly narrower as plaque builds up over time. When blood supply becomes so restricted that a certain portion of the heart is deprived of oxygen, a heart attack occurs.
The two greatest predictors of heart disease are high blood pressure and high blood serum cholesterol levels. Both of these determinants are directly impacted by the therapeutic action of Garlic. What is particularly relevant about the role of Garlic in coronary heart disease is that several studies done on rabbits found that even pre-existing atherosclerotic deposits and lesions could actually be reversed if garlic was consistently consumed.4
Granted, the above study has not been performed on humans, however, its implications are extremely significant. It is important to remember that it is not always what we are eating that causes heart disease, but what we are not eating. Studies like the one just described suggest that even if our diets were high in cholesterol, adding chemical compounds like the ones found in garlic may keep us from developing cardiovascular disease. This might explain why some cultural groups which consume high fat diets do not suffer the coronary consequences so typical of our population.
What is particularly exciting about the potential of garlic for anyone suffering from heart disease is that it can help reverse the disease and substantially reduce the risk of a second heart attack. The longer garlic is used, the better its results are. For example; people who have heart disease showed more improvement after the third year of garlic therapy than before. A possible explanation for this is that using garlic consistently over time progressively reverses hardening of the arteries, therefore the longer the garlic usage, the less the risk of heart attack.5 The New York Times ran an article on garlic in their September 4, 1990 edition. Concerning heart disease and garlic, it stated:
“...most exciting to those attending the conference, which was co-sponsored by Pennsylvania State and the Federal Department of Agriculture, were the results of a three year study in India among 432 coronary patients who had already suffered one heart attack. The patients were randomly divid ed into two groups, with one group receiving daily supple ments of garlic juice in milk. Those who took the garlic sup plements suffered fewer additional heart attacks, had lower blood pressure and serum cholesterol levels and were less likely to die during the study. After three years, nearly twice as many patients had died in the group not taking garlic . . . Patients who drank the garlic supplement were more likely to report such subjective benefits as an increase in vigor, energy and sexual desire, improvements in exercise tolerance, and a decrease in joint pains and asthmatic tendencies.”
June 10, 2005 04:08 PM
Basic Detox by Harriet Epstein , February 4, 2002
Basic Detox By Harriet Epstein Trying to stay healthy and clean in a dirty world can prove a difficult task. The rise of modern industry and agriculture has meant the widespread accumulation of toxins in our environment that can cause health problems.
As Kenneth Bock, MD, and Nellie Sabin point out in their book The Road to Immunity (Pocket), "Fat soluble chemicals are readily absorbed by the body but are difficult to excrete. To be excreted, they must first be enzymatically converted into water-soluble substances. Some of them can't be converted at all."
Bock and Sabin point out that a 1990 survey by the United States Environmental Protection Agency (EPA) that looked at people's tissues found that everyone the agency examined had styrene (a chemical used to make plastic) and xylene (a paint and gasoline solvent) stored in their bodyfat.
The toxins that you encounter every day are not only present in air and water, but also may be found in food and medicines. If we eat beef that's been exposed to pesticides, those chemicals may be shunted into our bodyfat. Pesticide residues in fruits and vegetables may end up in a similar place.
To cope with chemicals, the human body has evolved methods for detoxifying. When we breathe out we often release inhaled toxins. Other toxins are purged through urine, feces and sweat.
One of the chief organs responsible for cleansing the body is the liver. This organ utilizes a pair of chemical pathways for breaking down and eliminating toxins. In our hectic, industrialized world, this flow of toxins can overwhelm the liver's ability to detoxify. In addition, the dual processes the liver uses to eliminate noxious substances may become unbalanced, allowing toxins produced by one pathway to build up to dangerous proportions.
Once liver function falters, toxic havoc ensues. Toxins may remain in the body, often stored indefinitely in bodyfat. The body's detoxifying systems may be swamped with toxins.
In protecting the liver and enhancing its detox functions, many naturopathic practitioners recommend the herb milk thistle (silybum marianum). According to Steven Bratman, MD, and David Kroll, PhD, authors of the Natural Health Bible (Prima), milk thistle helps the liver cope with its toxic load. Consequently, milk thistle is frequently used in Europe for liver problems like jaundice.
Bratman and Kroll point out that milk thistle "is one of the few herbs that have no real equivalent in the world of conventional medicine." As Lise Alschuler, ND, medical director at the Bastyr Natural Health Clinic, told Natural Digest, "Milk thistle protects the liver against toxic damage (and) helps prevent damage to the rest of the body."
The compounds in milk thistle that help zap toxins, known as silymarin, protect the liver by binding with substances that would otherwise interact with the liver and slow its function. They also help the liver repair itself and regenerate new liver cells.
As an extra bonus, silymarin acts as an antioxidant, protecting liver cell membranes from oxidative damage.
Dandelion has a place as another traditional treatment for toning the liver and boosting the body's filtration system. The leaves are a cornucopia of antioxidants and nutrients including B vitamins, vitamins A, C and D, plus boron, silicon, potassium, magnesium and zinc. They help detoxify by acting as a mild diuretic: they cause the body to eliminate excess fluid.
But herbalists worldwide have found the compounds in dandelion root most useful for helping alleviate liver and gall bladder malfunction. (If you think you suffer these difficulties, consult your health practitioner.) Two unique and helpful natural substances found in dandelion root are chemicals called germacranolide and eudesmanolide. The root, according to the Natural Health Bible, has traditionally been used to speed up a sluggish or congested liver as well as detoxing the body by eliminating constipation. Research indicates dandelion root may stimulate bile flow (Arzneimittel -forschung 9, 1959: 376-378).
Juniper berries (Juniperus communis), may also be taken with dandelion as a diuretic. This botanical, often used to combat urinary tract problems, is also an anti-inflammatory (Phyto Res 1, 1997: 28-31).
Heavy metals rank as dangerous toxins unleashed by modern industry. As Michael Murray, ND, and Joseph Pizzorno, ND, explain in the Encyclopedia of Natural Medicine (Prima), metals like lead, mercury, cadmium, arsenic, nickel and aluminum can "accumulate within the (body) where they can severely disrupt normal function."
Public health experts estimate at least one in five Americans has been a victim of heavy metal poisoning. Lead may be the most common villain. In your everyday life, you may be ingesting metals from your cookware, from pesticides, cigarette smoke, dental fillings, polluted fish, and chipping house paint.
Signs that you may suffer from toxicity linked to heavy metals: Unusual fatigue, Persistent headaches, Unexplained muscle pains, Anemia, Ringing in the ears or dizziness and Tremors.
Of course, if you think you suffer from heavy metal poisoning, you should see a knowledgeable health practitioner as soon as possible. Murray and Pizzorno recommend an array of precautions to protect yourself against heavy metals in the environment:
Take a daily multivitamin and mineral.
Take extra amounts of vitamin C and B-complex.
Take amino acids that contain sulfur (taurine, cysteine and methionine) and high sulfur foods like onions and garlic (or supplements). (Consult your pharmacist of health practitioner before taking individual amino acids.)
In addition, Leo Galland, MD, in his book The Four Pillars of Healing (Random House) offers these tips for keeping your digestive tract functioning at top capacity:
Take supplements of lactobacil-lus acidophilus and lactobacillus plantarum, friendly bacteria that in-habit the large intestine. These microorganisms can help break down toxins and eliminate them.
Use aspirin and ibuprofen as little as possible. They increase the permeability of the digestive system, allowing allergens and other problematic substances to enter the body.
Do not use antacids. The stomach's acidic environment is designed to kill ingested bacteria and parasites.
To fight digestive problems or heartburn, cut back on saturated fat; eat smaller meals. Chewing on calcium tablets after meals may help. Foods that can exacerbate heartburn include coffee, alcoholic beverages and very spicy foods.
Dr. Galland also recommends not eating for four hours before bed.
Environmental Free Radicals
Detoxing the body may also require taking antioxidant nutrients to fight off what are called free radicals.
Free radicals are caustic molecues thought to be involved in causing many chronic problems such as cancer and heart disease. Free radicals are created within the body and its cells every time a metabolic activity takes place. While the human body has developed its own mechanisms for defending itself against these byproducts of metabolism, exposure to pollution, radiation and other toxins may overburden the body's free radical burden. Scientists believe that taking extra antioxidant nutrients like vitamins C and E and carotenoids (natural substances found in many vegetarian foods) may help prevent damage by free radicals.
Environmental oxidizing agents include ionizing radiation (from industry, sun, cosmic rays, x-rays) ozone and nitrous oxide (from auto exhaust) heavy metals (mercury, cadmium, lead) and cigarette smoke, along with other chemical and compounds from food, water and air. Free radicals are believed to play a role in more than sixty different health conditions, including the aging process, cancer and arteriosclerosis. (Proc Natl Acad Sci USA 1993;90:7915-7922).
The good news? Reducing exposure to free radicals and increasing intake of antioxidant nutrients can shrink the risk of these health problems.
"Antioxidants can't get rid of heavy metals and solvents," says Dr. Glidden, "but they do cut down on the damage they do while they're there. As toxins wander through your body, they generate metabolic reactions, resulting in free radicals. And anti-oxidants mop them up." The liver is the last line of defense in handling toxins; supplements help it regenerate itself.
The body itself does produce enzymes like Superoxide dismutase (SOD) catalase, and glutathione peroxidase which can defend against and defuse many types of free radicals.
Supplements of these compounds are also available to augment the body's supply.
These building block nutrients include the minerals manganese, zinc, and copper for SOD and selenium for glutathione peroxidase. Many vitamins and minerals act as antioxidants. Dr. Crinnion recommends a multivitamin with "a lot of B, especially magnesium."
Since chlorinated pesticides like DDT "rob the body" of B1 and Vitamin A, he says, it's a good idea to supplement these as well.
In addition, acidophilus, a beneficial bacteria that grows in the digestive tract (and found in yogurt) may restore immunity hurt by pollutants. A study on women with recurrent vaginal candidiasis found that acidophilus cut their infections by 300% (Annals Int Med 1992; 116:353-357.)
Another immunity enhancer, colostrum, a natural immune enhancer that promotes cellular repair (Food Res Intl. 1995, 28(1):9-16) can also help the immune system battle pollution.
Vitamin C vs Pollution
A study of vitamin's C's antioxidant properties, conducted by University of Buffalo epidemiologists, and presented at the Annual Meeting of the Society of Epidemiologic Research, revealed that people with higher levels of vitamin C in their blood serum have lower levels of a marker of oxidative stress.
"It is well known that oxidative stress (cell damage caused by free radicals) plays a role in arteriosclerosis, cancer, pulmonary disease and other chronic conditions," said Holger Schunemann, M.D. a research assistant professor of social and preventive medicine at the University of Buffalo and lead author on the study.
"In this population, vitamin C was negatively associated with oxidative stress, suggesting it may play a role in protecting against these diseases." Vitamin C is the "greatest antioxidant," says Dr. Crinnion. "It has even been shown to clear lead from the blood."
A powerful fat-soluble antioxidant, Vitamin E scavenges free radicals protecting cells from oxidative damage. Vitamin E, "reverses toxicity of various toxic chemicals," says Dr. Walter Crinnion, "it is also a stabilizer of membranes." A study published in the American Journal of Clinical Nutrition regarding antioxidant vitamin supplementation and lipid peroxidation in smokers even indicates that an antioxidant-supplemented drink can reduce lipid peroxidation and susceptibility of LDL to oxidation in smokers and may ameliorate the oxidative stress of cigarette smoke.
Dr. Glidden recommends E preferably in the form of mixed tocopherols )If you take blood thinners, check with your health practitioner.)
Unfortunately, completely avoiding toxins in today's world is probably impossible. Civilization and toxic chemicals accompany each other hand in rubber-glove-encased hand. Still, with proper attention to nutrition and supplements to keep our bodies detoxifying, we can probably minimize health difficulties linked to these undesirables.