Search Term: " Pancreaiis "

	Use warm water and turmeric to cleanse your body, support digestion	Darrell Miller	5/10/19
	Pancreatitis Symptoms: 11 Natural Ways to Prevent & Manage	Darrell Miller	11/17/17
	The Health Benefits of Grape Seed Extract	Darrell Miller	11/14/16
	Can Pancreatic Enzymes Help Reduce Pancreatic Stress?	Darrell Miller	5/22/13
	L-Methionine	Darrell Miller	5/2/09
	Turmeric Extract (Curcumin)	Darrell Miller	2/10/09
	Curcumin, Curcuminoids, and Curamin	Darrell Miller	4/30/08
	Cholesterol Conundrum	Darrell Miller	6/10/05

Date: May 10, 2019 02:25 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Use warm water and turmeric to cleanse your body, support digestion

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Date: November 17, 2017 03:59 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Pancreatitis Symptoms: 11 Natural Ways to Prevent & Manage

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Date: November 14, 2016 10:20 PM
Author: Darrell Miller
Subject: The Health Benefits of Grape Seed Extract

Grape seed extract is most commonly a waste product produced by the grape juice and winery industry. This is because grape seed extract doesn't go into finished drinks. Grape seed contains a wide variety of health-enhancing ingredients like protein, carbohydrates and lipids (healthy fats).

Immune system

Vascular Endothelial Health

High Blood Pressure

High Cholesterol

Pancreas

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Date: May 22, 2013 10:43 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Can Pancreatic Enzymes Help Reduce Pancreatic Stress?

  Pancreatic enzymes are crucial for the purpose of breaking down fats, carbohydrates and proteins. A healthy pancreas will produce about 8 cups of pancreatic juice daily. This is released into the duodenum helping neutralize any acid. This potion of the stomach is at the entrance of the small intestines. The lack of these fluids could cause a myriad of problems depending on the functions that are carries out.

The question however is; can pancreatic enzymes help reduce pancreatic stress?

One of the best ways to answer this is to find out what these enzymes are and do exactly.

Lipase is a pancreatic enzyme that breaks down fats. The lack of this enzyme causes a shortage of fat soluble vitamins and diarrhea evident by fatty stools.

Protease breaks down proteins in the body. It is also crucial in keeping the system clear of protozoa and yeast among many other parasites. The lack of the same will cause a rise on toxicity in the stomach due to faulty digestion. The individual will also be at risk due to infections.

Amylase will break down carbohydrates and is commonly found in the saliva. The lack of the same will cause diarrhea due to the presence of starch that is undigested in the colon.

This is common in patients that have developed pancreatic cancer. The lack of pancreatic juice in the body will cause pancreatic stress. This calls for doctors to find a way to help induce the functionality of this juice into the body. This is the reason why pancreatic enzymes are used to help along with the breaking down of these body substances.

This partly answers the question, can pancreatic enzymes help increase pancreatic stress?

Some other effects that could come with the lack of these enzymes include cystic fibrosis, pancreatitis, duodenal tumors and Whipple procedure. Some of the symptoms of these conditions brought by the lack of the enzymes include cramps, gas, indigestion, weight loss and diarrhea.

These enzymes given by doctors may also be given along some acid reducing medication. These enzymes should be taken carefully to ensure that they work optimally. 

Added enzymes will ease pancreatic stress by balancing the digestive system. The body in turn will not think it needs more enzymes and reduce its demands on the pancreas.

Some of the things to keep in mind when using these are;

1. Ensure that you take the enzymes with every meal for digestion to take place optimally.
   

2. Start with a small dose and increase depending in the situation. You may need to alter this depending on the progressiveness of the situation.
   
3. The enzymes should be taken right before meals. If you are taking a number of the, take some in between the meal, never take them after the meals as they will not function then.
   
4. Ensure that you take the capsules and the pills with water or any other liquids. They should not be ingested in the mouth unless under special circumstance and orders from the doctor.
   

The most common side effect of these enzymes is constipation. They are however the best way to deal with indigestion due to the lack of the pancreatic fluid in the body.  Have you had your pancreatin today to boost digestion and eliminate food allergies?

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Date: May 02, 2009 11:41 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Methionine

Methionine is an essential amino acid, meaning that it is not synthesized by the body, and so has to be taken as part of your diet. It also contains sulfur, one of two sulfur-containing amino acids that can form proteins, the other being cysteine. It is a precursor for taurine, which is an aminosulphonic acid, and not strictly an amino acid, which together with cysteine supports the health of your cardiovascular system and helps to eliminate toxins from the body.

Maintenance of Cell Membranes

It is also an important intermediary in the maintenance of cell membranes. Phospholipids are fat-soluble components of the cell membrane, phosphatidylcholine being a very important example. Also known as lecithin, this substance is derived from choline, itself biosynthesized in a chemical pathway involving S-adenosylmethionine.

This substance is made in the body from ATP (adenosine triphosphate) and methionine with the help of the enzyme methionine adensosyltransferase. Known as SAM (or SAM-e), S-adenosylmethionine employs a number of metabolic pathways in its reaction, though generally aminopropylation, transmethylation and transsulfuration. These add aminopropyl, sulfo and methyl groups to a number of substances, the most common being the methylation of proteins, nucleic acids and lipids.

Phosphatidylcholine is produced by the enzyme-catalyzed sequential methylation of phosphatidylethanolamine, SAM donating the methyl groups. The maintenance of the integrity of the cellular membrane by phosphatidylcholine is critical to all of the basic processes in human biology, including communication between cells, flow of information and bioenergetics.

A by-product of this reaction is homocysteine, formed in the liver from the S-adenosylhomocysteine that SAM is changed to after donating methyl groups. Excess homocysteine in the blood can create the risk of myocardial infarction and cardiovascular disease. SAM is also of use in the treatment of depression and of arthritis.

Muscle Development

Creatine is a substance well known to athletes as being useful in provide short-term energy for high-intensity training. Although available in the diet, about 50% creatine used by the body is biosynthesized from methionine and two other amino acids, glycine and arginine. It allows a burst of energy lasting about 10 seconds, carried out without the use of glycogen reserves or fatty tissue.

Glycine and arginine combine to release ornithine as a by-product, and form guanidino acetate. SAM donates a methyl group to the latter to form creatine, about 95% of which is then stored in the skeletal muscle tissue. The stored creatine phosphate has the effect of allowing the muscle cells to hold more water, which also enables an enhanced level of protein synthesis, and hence an increase in muscle bulk, which also results from the increased blood flow resulting from the short-term high-intensity exercise that creatine allows.

Creatine can also increase the levels of MRF4 (myogenic transcription factor), resulting in an increasing in the myonuclei provided by satellite cells to damaged muscle tissue, that not only repair damaged muscle fibers, but also increase their ability to grow.

Detoxification of the Liver

Substances that help the liver to process fats, or lipids, are known as lipotropic, and the important lipotropics in human biochemistry are imositol, betaine, choline and methionine. They prevent fat from accumulating in the liver, and methionine is also useful in its effect of glutathione. This is a substance that helps the liver to neutralize toxins, such as excessive doses of acetaminophen, and its supplies are regulated by methionine.

Methionine and Autism

Research into autism is closely studying the Methionine/Glutathione Transsulfuration Pathway. This pathway is a very important biochemical means of detoxification, whereby toxins are methylated and then excreted. This pathway seems to be disrupted in autistic individuals.

Not only that, but disruption can lead to oxidative stress which results in many health problems. An example of this is the build-up of the oxidant homocysteine when there is insufficient Vitamin B6 to convert it into cysteine. This has been discussed previously, and is discussed again below.

Miscellaneous Benefits

Although research is in its infancy, it appears that AIDS sufferers also have decreased levels of methionine in their blood. It is believed that the process of AIDS could be linked to this, particularly the dementia that can occur as a result of the deterioration of the nervous system.

It is also hoped that it can help with some symptoms of Parkinson's disease, and pancreatitis. Initial research into this use of methionine has been very promising, as are studies into its use for urinary tract infections. It appears to operate like cranberry in this respect, preventing bacteria from attaching to the cell walls and multiplying in the urinary tract.

Methionine is believed to be essential for the formation of collagen, and for healthy pliable skin, hair, nails and other forms of connective tissue. For this reason it is often used as a supplement for the treatment of arthritis, although an excess should be avoided for reasons discussed above. S-Adenosylmethionine generates homocysteine during the biosynthesis of phosphatidylcholine, and this can cause cardiovascular problems.

So stick to the recommended doses when you use methionine as a supplement. Used properly, and according to instructions, it offers many health benefits, and can also be used to bulk up your muscle tissue and give increased energy when you need it most.

Dietary sources include fish, eggs, lentils, onions, garlic, meat, seeds, spinach and yoghurt. A good supplement would be from 800mg - 1000mg per day, and is best taken along with a B vitamin complex, or at least folic acid and vitamins B6 and B12, in order to prevent the increased generation of homocysteine.

Methionine also promotes the excretion of estrogen, so is a possible supplement for women on oral contraceptives that lower the production of this hormone. The elderly might also benefit from a supplement although, if taken for any specific condition, your health professional should be consulted first, as they should be for any supplement.

Nevertheless, methionine is a very useful supplement, and can be taken to prevent a large number of conditions. Research is continuing on its effect on AIDS patients, and Parkinson's, and it is hopeful that it will one day be recommended to help people suffering from these conditions.

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Date: February 10, 2009 01:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Turmeric Extract (Curcumin)

Curcumin is a potent antioxidant and anti-inflammatory that has the potential to provide far-reaching health benefits. It has been shown to be helpful in rheumatoid arthritis, inflammatory bowel disease, pancreatitis, Alzheimer’s disease, heart disease, diabetic retinopathy, and cancer. All of these diseases share underlying inflammation that curcumin may help to diminish.

If you have ever eaten curry or cooked with the spice turmeric, you’ve consumed curcumin. It is obtained from the roots of Curcuma longa and consists of several curcuminoids. Turmeric is biologically related to ginger. Curcumin works as an antioxidant, boosting levels of glutathione S-transferase, which is one of the body’s principal antioxidants. This antioxidant blocks the formation of prostaglandin E2, which is a compound that promotes inflammation within the body. Curcumin also inhibits two inflammation-promoting enzymes: COX-2 and 5-LOX. Additionally, curcumin is able to prevent mutations to DNA, which is an effect that helps to maintain younger, healthier cells.

A study conducted at the University of Arizona Health Sciences Center in Tucson had researchers using a curcumin rich turmeric extract to treat rheumatoid arthritis in laboratory animals. The extract blocked joint inflammation as well as the breakdown of joint cartilage and bone. It did this by inhibiting the genes that are involved in inflammation. Curcumin also holds tremendous promise in preventing cancer, as well as an adjunct treatment. Studies on animals have found that curcumin can protect against colon, intestinal, oral, and skin cancers. Its benefits come from several mechanisms. First of all, it blocks the cell-growth cycle in cancer cells, which eventually leads to destruction. It also reduces free radicals and inflammation, both of which can lead to cancer-causing cell mutations.

Many studies have found that curcumin can protect the liver against a variety of toxic compounds, which is important news for those people who are suffering from liver diseases like hepatitis or cirrhosis. In a recent study, researchers reported that curcumin increased the clearance of creatinine and urea, which are signs of improved kidney function. Additionally, curcumin reduced liver damage from toxic chemicals and excess iron.

Another study found that curcumin has the ability to inhibit the activation and spread of the liver cells that play a role in the development of cirrhosis. Japanese doctors have recently used curcumin, drugs, or placebos to treat 89 patients that have ulcerative colitis. These doctors found that a combination of curcumin and conventional medications resulted in the greatest benefits over six months of treatment. Patients in this study took 1,000 mg of curcumin after breakfast and again after dinner.

Inflammation is the underpinning of all chronic degenerative diseases, making curcumin likely to be beneficial for many different conditions. So far, research has identified curcumin’s benefits for diabetic retinopathy, lung disorders, and skin problems such as psoriasis. A dose of 3.6 g of curcumin reduced PGE2 levels by two-thirds in only one hour. After consuming curcumin daily for one month, PGE2 levels were 57 percent lower than before supplementation began.

Turmeric has been used as a culinary spice for at least 2,000 years. It was listed in an Assyrian herbal in 600 BC, used by ancient Greeks, and widely recommended in Ayurvedic medicine. Native to India and other regions of South Asia, it may reduce the risk of Alzheimer’s disease and help maintain mental function. Curcumin is safe in amounts of 500 to 8,000 mg daily, with most supplements providing 500 mg of curcumin.

Turmeric has been proven safe in larger amounts, but is usually limited by taste as a spice. One should look for a standardized supplement that contains at least 90 percent curcumin. Standardized Turmeric can be found at your local or internet health food store.

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Date: April 30, 2008 10:40 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Curcumin, Curcuminoids, and Curamin

Curcumin, a potent antioxidant and anti-inflammatory, possesses many potentially far-reaching health benefits. After many studies preformed on humans, animals, and in-vitro, it has been found that curcumin may be helpful in rheumatoid arthritis, inflammatory bowel disease, pancreatitis, Alzheimer’s disease, heart disease, diabetic retinopathy, and cancer. All of these previously listed diseases share an underlying inflammation, which can be diminished by curcumin.

If you have ever eaten curry or cooked with the spice turmeric, you’ve consumed curcumin. Curcumin, which consists of several curcuminoids, is the active constituent of turmeric, which is used in curry. Turmeric is biologically related to ginger. Curcumin works as an antioxidant by boosting levels of glutathione S-transferase, which is one of the body’s main antioxidants. It also blocks the formation of the prostaglandin E2, which is compound that promotes inflammation within the body. Curcumin also inhibits the activity of nuclear factor kappa beta, which is another substance that is involved in inflammation. Additionally, it reduces the activity of COX-2 and 5-LOX, which are two more inflammation-promoting enzymes. Lastly, curcumin prevents mutations that can result in DNA, which helps to maintain healthier, younger cells.

Curcumin taken as a supplement can help with any conditions and diseases including rheumatoid arthritis, cancer, liver and kidney protection, ulcerative colitis, and other inflammatory diseases. A study using a curcumin-rich turmeric extract done at the University of Arizona Health Sciences Center in Tucson, treated rheumatoid arthritis in laboratory animals. The results showed that this extract blocked joint inflammation as well as the breakdown of joint cartilage and bone by inhibiting the genes that are involved in inflammation. Curcumin also holds a great amount of promise in preventing cancer and also as an adjunct treatment.

Animal studies have shown that curcumin can protect against colon, intestinal, oral, and skin cancers as its benefits come from several mechanisms. First of all, it blocks the cell-growth cycle in cancer cells, which leads to cell destruction. Additionally, it reduces free radicals by its antioxidant properties, which can lead to cancer-causing cell mutations. Studies have also found that curcumin can protect the liver from a variety of toxic compounds. One recent study left researchers reporting that curcumin increased the clearance of creatinine and urea, which are signs of improved kidney function. It also reduced liver damage from toxic chemicals and excess iron.

Japanese doctors have recently used curcumin to treat patients with ulcerative colitis. A combination of curcumin and conventional medications has led to the best benefits over six months of treatment. Since inflammation is the root of all chronic degenerative diseases, curcumin is likely to be beneficial for many different conditions. So far, research has identified curcumin’s benefits for diabetic retinopathy, lung disorders, and skin problems including psoriasis.

Turmeric, which is the source of curcumin, has been used as a culinary spice for the past 2,000 years, was used by ancient Greeks, and is now a widely recommended Ayurvedic medicine. It is native to India and other regions of South Asia. By eating a lot of curry, which is rich in curcumin, you may reduce the risk of Alzheimer’s disease and help to maintain mental function. One study proved that people who often ate curry had half the risk of becoming mentally impaired. By eating curry on occasion, the risk of mental decline can be reduced by a little more than a third. Curcumin can be safely taken in amounts from 500 to 8,000 mg daily. Look for a standardized supplement containing at least 90 percent curcumin.

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Date: June 10, 2005 02:35 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Cholesterol Conundrum

Cholesterol Conundrum

by Jane Lane Energy Times, February 7, 1999

The cholesterol story packs enough subplots to satisfy a soap opera. There's Cholesterol: The Good, the Bad and the Awful. Cholesterol: The Stalker Behind Every (Restaurant) Door. Cholesterol Steals Your Heart Away-to the Mediterranean.

The very image of cholesterol chills the imagination. Lurid and unsavory, it would seem to bob through the bloodstream like blobs of fat congealed on cold soup, slathering itself onto arteries.

Cholesterol is in fact a normal, natural substance in our bodies, found in the brain, nerves, liver, blood and bile. Cholesterol is so crucial that each cell is equipped with the means to synthesize its own membrane cholesterol, regulating the fluidity of those membranes when they are too loose or too stiff.

We manufacture steroid hormones-the female hormones estrogen and progesterone, and the male hormone testosterone-from cholesterol. Adrenal corticosteroid hormones, which regulate water balance through the kidneys, and the hormone cortisone, the vital anti-inflammatory that also governs our stress response, come from cholesterol. Other jobs of cholesterol: production of vitamin D and bile acid (for the digestive process); healing and protecting skin, and antioxidant compensation when vitamin and mineral stores are low.

How can mere mention of this invaluable component in our body chemistry make our blood run cold?

Guilt by Association

Cholesterol's reputation as a bad character actually originates in the crowd it runs with: the lipoproteins, protein molecules to which it binds in order to travel back and forth through the bloodstream to the liver, where it is manufactured.

Not really a nasty round glob of fat at all, cholesterol is a crystalline substance, technically a steroid, but soluble in fats rather than water, thus classified as a lipid, as fats are. Thousands of cholesterol molecules bind with lipoproteins, spherical fat molecules that transport them through the bloodstream.

Three different kinds of lipoproteins participate in this necessary process, not always with the same salutary effect. Here's how they work:

High-density lipoprotein (HDL): referred to as the "good cholesterol." Carries relatively little cholesterol. Travels through the bloodstream removing excess cholesterol from the blood and tissues. HDLs return the surplus to the liver, where it may once again be incorporated into low-density lipoproteins for redelivery to the cells.

Low-density lipoprotein (LDL): the so-called "bad cholesterol," heavily laden with cholesterol, hauling it from the liver to all cells in the body.

Ideally, this system should be in balance. But if there is too much cholesterol for the HDLs to pick up, or an inadequate supply of HDLs, cholesterol may aggregate into plaque groups that block arteries.

Lipoprotein(a), or Lp(a): the "really bad" cholesterol, can step in, providing the glue that actually sticks to the arterial wall. Lp(a) is an LDL particle with an extra adhesive protein wrapped around it, enabling it to attach fat globules to the walls of blood vessels. The potentially deadly results are atherosclerotic ("plaque") deposits. Simple LDL lacks adhesive power and presents little risk for cardiovascular disease.

Researchers confirmed the existence of Lp(a) in the August 1996 issue of the Journal of the American Medical Association, disclosing that high levels of Lp(a) in the blood can double a man's risk of heart attack before age 55. Doctors estimate that about 20% of all Americans carry elevated levels of Lp(a).

One troubling aspect of the report, part of the ongoing 40-year-old Framingham Study, concerned the fact that the men who suffered heart attacks entered the project with no signs of heart disease and only slightly elevated cholesterol.

But during the 15-year investigation, 129 men out of 2,191 developed premature heart disease.

The culprit? High levels of Lp(a)

Experts don't know for certain where Lp(a) comes from, or its normal function, although they suspect the body's quotient of Lp(a) is mostly due to your genes. According to the study, they also believe that aspirin, a blood thinner, and red wine (or its grapeseed and skin extracts) may mitigate the damage of Lp(a). That also would explain why the French, who tend to wash down their fat-rich diet with red wine, experience a relatively moderate incidence of cardiovascular disease

The Terrible Triglycerides

The body also transports fats via triglycerides (TGs), the main form of body fat and the storehouse for energy. Edible oils from seeds, egg yolk and animal fats also are composed chiefly of TGs. Although not as corrosive as LDL, excess TGs intensify heart disease potential when they oxidize and damage artery linings or induce blood cells to clump.

An "acceptable" level of triglycerides is thought to be 200 milligrams, although under 150 is probably healthier. And some researchers think your triglyceride reading should be below 100. High triglycerides and low HDL often occur together, increasing the risks of cardiovascular disease, high blood pressure, heart and kidney failure and other degenerative diseases.

What To Do About Your Cholesterol

Have it checked. High cholesterol alone shows no symptoms. Your health practitioner can perform a laboratory test to measure your levels. Thoroughly share your own medical history and as much as you know about your family members: heredity and related illnesses definitely are important influences. People with diabetes, for example, can have high levels of triglycerides, which also may lead to pancreatitis (painful inflammation of the pancreas) at extremely high levels.

According to the National Cholesterol Education Program, a reading of under 200 mg/dL is desirable; 200 to 239 is borderline high; 240 and above is high. Your LDL level should be 130 or under; HDL should not be lower than 35. A triglyceride level below 200 is considered desirable; readings above 400 are high.

Adjust your diet. Cholesterol levels are readily controllable, primarily through changes in your diet. Leslie C. Norins, MD, PhD, suggests all-out war in his Doctor's 30-Day Cholesterol Blitz (Advanced Health Institute) with saturated fats, which raise cholesterol more than any other component in your diet, as your number-one target. Out with saturated fats like butter, cheese, whole milk, ice cream, red meat and some vegetable fats found in tropical oils like coconut and palm; in with fruits, vegetables, brown rice, barley (a good source of soluble fiber, the kind that soaks up fats and cholesterol and escorts them out of the body), beans, potatoes and pasta, prepared or dressed with monounsaturated fats in olive and canola oils (the so-called Mediterranean diet concept). Feast on cold-water fish (mackerel, salmon, sardines and herring) rich in omega-3 fatty acids that help reduce serum lipids, among many other healthful advantages.

Exercise. Move it and lose it are the words to live by when it comes to cholesterol. Researchers from the Stanford Center for Research in Disease Prevention reported in the July 2, 1998 New England Journal of Medicine (vol. 339, pages 12-20) that a weight-loss diet like that of the National Cholesterol Education Program plus exercise significantly lowered LDL (bad) cholesterol levels for men and postmenopausal women. The diet alone failed to lower LDL in these folks with high-risk lipoprotein.

Educate yourself. In addition to your health practitioner, books and magazines can guide you in cholesterol management. A trove of information is the National Cholesterol Education Program (NCEP), launched in 1985 by the National Institute of Health. Their address is: National Cholesterol Education Program, Information Center, P.O. Box 30105, Bethesda, MD 20824-0105; telephone (301) 251-1222; they're on the web at /nhlbi/.

Recommended Reading: Fats that Heal, Fats that Kill (Alive, 1993), by Udo Erasmus.

Prescription for Nutritional Healing (Avery, 1997), by James F. Balch, MD, and Phyllis A. Balch, CNC.

The Healthy Heart Formula (Chronimed, 1997), by Frank Bary, MD.

Eradicating Heart Disease (Health Now, 1993), by Matthias Rath, MD.

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VitaNet ®
VitaNet ® Staff

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