ESSIAC Herbal Extract Formula

This is an item well worth you guys knowing about.

ESSIAC has been used to fight cancer since the 1920’s in Canada and elsewhere. I have been taking it since February of this year after having searched the net and reading many an article about it. I have checked, to my own satisfaction as a layperson, the efficacy of the herbs used in the formula and reviewed many of the anecdotal stories about the numerous, life-saving, experiences cancer sufferers have had with ESSIAC over the years.

I was so impressed that I ordered several bottles and have since re-ordered. One thing that convinced me as to its overall value in the fight against cancer is that is has been banned for use in the US by the FDA. It’s possibly the only herbal formula ever to be banned by them.

To my way of thinking, if this herbal supplement has been banned by the FDA, then that surely is a sign that it must be a good product to have in the fight against cancer. The ban would have been at the behest of the drug industry, no doubt. They wouldn’t want competition, especially from a product with a more than eighty years of successful, documented, usage. And more specifically, a product the drug industry is unable to synthesize and slap a patent on, thereby missing out on making millions upon millions of dollars in the process.

Importantly, ESSIAC can now be obtained in liquid form as apposed to the powder form, or tea, which, I understand, presented some difficulty to the user with the mixing and preparation. The liquid formula is taken twice daily straight from the bottle.

Wish to know more? Look it up on the URL’s given below. You can order on-line.

I have also included information concerning certain medical conditions which may necessitate some people getting medical advice, before using ESSIAC. But, I should add here that I have no idea as to the author’s qualification to make these statements. Those of you who have read my medical history will have noted that I have a several of the medical issues mention, but my own MD has cleared me for the use of ESSIAC.

Of course, it goes without saying that anyone with a serious medical condition should seek their doctor’s advice before changing or adding to their medication.

http://www.praxea.com/

http://www.cancertutor.com/Cancer/Essiac_Warnings.html

Please note: I have no connection with the product manufacturers or any suppliers.

Today’s Quote:

“If by giving up small pleasures, great happiness is to be found, the wise should give up small pleasures, seeing the prospect of great happiness” - THE BUDDHA

Chemo Leaves Foul Taste

Did you know?
It's a common experience among patients who are receiving chemotherapy to have no tast for food. About two million cancer patients currently receiving certain drug therapies and chemotherapy find foods and beverages to have a foul metallic flavor, as per a medical study. In general, more than 40 percent of hospitalized patients suffer from malnutrition due to taste and smell dysfunction.

Soy as Prostate Cancer Protection Yields Paradoxical Results

Hi Guys,

For years I have used soy products, most particularly soy milk and tofu, but following my diagnosis of aggressive prostate cancer last May and then the public warnings of the danger associated with taking soy, I stopped taking soy milk and moved over to rice milk and oat milk. The tofu I continue to have because my research tells me that the fermentation process used, destroys the two bad elements within soy (hence, I guess, how it is that the Chinese have been consuming tofu for hundreds of years, perhaps thousands, without any perceived ill effects.)

With that background I found the following article of special interest. It appears that consuming soy in the early stages of prostate cancer may be a good thing but definitely not if it is of the aggressive type. But how would you know? Ask a specialist? Maybe! But ask two or three and you're likely to get a different answer each time. Confused? Yep, and so are they much of the time.

The answer? Take charge of your own health and wellbeing. Do your own research, talk to medical professionals; naturopaths; homeopaths, friends and neighbours. Anyone in fact who can add a smidgen of anecdotal or clinical information that will help YOU make your own, rational judgments and decisions.

I can only hope that I cut out taking soy milk in time and that I didn't, in my earlier ignorance, worsened an already worst case scenario.

Visit us online at www.MedPageToday.com


Soy as Prostate Cancer Protection Yields Paradoxical Results

By Neil Osterweil, Senior Associate Editor, MedPage Today
Reviewed by Rubeen K. Israni, M.D., Fellow, Renal-Electrolyte and Hypertension Division, University of Pennsylvania School of Medicine
March 16, 2007


MedPage Today Action Points

Explain to patients who ask that that several studies have suggested that diets rich in soy may protect against some types of prostate cancer.


Explain that this study suggests that in addition to protection there may also be increased risk for advanced prostate cancer from high soy diets, although the reasons are unclear.

Review
TOKYO, March 16 -- Diets rich in soy protect against prostate cancer. Then again, they don't.

This paradoxical finding came from a study of 43,509 Japanese men. For some soy isoflavones in the diet decreased the risk of localized prostate cancer, but at the same time soy containing miso soup increased the risk of advanced prostate cancer.


So reported Norie Kurahashi, M.D., of the National Cancer Center of Japan, and colleagues, in the March issue of Cancer Epidemiology, Biomarkers & Prevention.


"The present findings provide no clear understanding of when or how localized cancer will develop to aggressive cancer, and of the related effect of isoflavones," said Dr. Kurahashi.


The investigators recommended that Japanese men continue their high consumption of soy from foods, but they discouraged the use of supplements.


The investigators hypothesized that soy in general, and its isoflavones genistein and daizden in particular, may attenuate but not prevent the progression of latent prostate cancer. Soy isoflavones are estrogen mimics and strong antioxidants in vitro, and appear to be protective against cancer in animal models.


The Japanese study, the largest of its kind, prospectively evaluated the relationship between soy consumption and prostate cancer in men who were part of an even larger cohort study.


The men, ages 45 to 74 years, responded to a validated questionnaire which included 147 food and beverage items, including questions about portion size and frequency of consumption.


The authors focused on the consumption of miso, a soy-based soup, and at tofu in various forms, as well as natto, or fermented soybean, and soy milk. They also looked at the consumption of the isoflavones, which they estimated based on food composition tables listing isoflavone content of Japanese foods.


The study used as its baseline the five-year follow-up interval from the Japan Public Health Center-Based Prospective Study. Beginning in 1995 and continuing through 2004, there were 307 new cases of prostate cancer: 74 advanced, 220 organ-localized, and 13 of indeterminate stage.


The authors found that intake of genistein, daidzein, miso or soy foods did not have a significant effect on the risk of developing total prostate cancer (localized and advanced) for the entire cohort.


But when they broke the data down according to cancer by stage and age they found that men older than 60 in the highest quartile of intake of three of the four items -- genistein, daidzein, and soy foods -- had significantly decreased risk for localized prostate cancer versus those in the lowest quartile.


Of the men older than 60 with localized cancer, genistein was associated with a relative risk for cancer of 0.52 (95% CI, 0.30-0.90, P for trend = 0.03) in 25,538 person-years of follow-up.


Similarly, highest consumption of daidzein was associated with a relative risk of 0.50 (95% CI, 0.28-0.88, P for trend = 0.04) in 25,276 person-years, and soy foods were associated a relative risk of 0.52 (95% CI, 0.29-0.90, P for trend = 0.01).


There were no significant differences between the highest and lowest quartiles for any of the four items among men younger than 60, however.


When the investigators looked at advanced cancer among men older than 60 in a multivariate analysis adjusted for energy intake, there was a dose-dependent increase in risk for advanced prostate cancer associated with miso soup. There was a multivariable relative risk for the highest versus lowest quartile of 2.79 (95% CI, 1.19-6.55; P for trend = 0.02). Consumption of soy foods or the isoflavones was not associated with advanced prostate cancer in multivariate analysis, however.


"In the present study, we observed a dose-dependent decrease in the risk of localized prostate cancer with isoflavone consumption," the investigators wrote. "Men with the highest intake of isoflavones (as genistein, > 32.8 mg/d) had a decreased risk of prostate cancer compared with those with the lowest intake of isoflavones (as genistein, <13.2mg/d).>

Vitamins ! Are They Good For You?

Hi Guys,

I dare say many of you will have read much of the misinformed nonsense written in recent print media world-wide about the potential harm of vitamins but not much has been written in reply, giving the counter arguments and disputing the interpretations of the studies, or questioning the sponsorship of such studies.

In a earlier post I mentioned that last year the Chief Coroner in New Zealand had queried similar negative reports about the dangers of vitamins to human health and had been inspired to conduct a review of all recorded deaths, nation-wide. As I recall from media reports, he could not find any incidence of vitamins, or other such supplements, being the cause, or a major contributor, of a death.

Another cause of some concern is bleating from the medical profession contesting the benefits of supplements which they say are untried and untested. (Ignoring the past hundred years or so and in the case of some, herbs especially, thousands of years).

The medical profession talk of the well tested, credible, and strictly regulated drugs and pharmaceuticals used by doctors’ but that dubious claim appears to have been refuted in a recent Brisbane Courier report, wherein professor Kelman from the National Centre for Epidemiology and Population Health, is quoted as saying “The current system for evaluating drug safety is outdated”.

It seems that currently, new medicines are judged solely on pre-marketing trials and on doctors’ adverse finding reports. Experts have warned that all new drugs should carry warning labels as part of an overhaul of Australia’s “archaic” monitoring system for new medications.

Professor Kelman is quoted as saying Australia has fallen behind the rest of the world in this matter, and that “Trials usually last no more than 12 months, so do not evaluate the increasingly common long-term use of medicines by patients with chronic disorders.”

Gents, we must counter the pharmaceutically-biased, misinformed, misinterpreted and often, drug company sponsored, studies condemning vitamins and let the truth be know. We can best do this by being well informed ourselves, fully armed with apposing argument. I have recently found a brilliant web site that most ably presents the total picture and which appears to have all the ammunition we need. CLICK on the link below…

For a wealth of information on this issue, go to:

http://www.doctoryourself.com/safety.html

See also: http://www.orthomolecular.org/resources/omns/index.shtml

Prostate Cancer and Other Forms of Cancer

Hi Guys,
Here's food for thought. No doubt some readers will be investigating prostate cancer following recent diagnosis. In which case a little background info on cancer in general won't go astray.

Understanding cancer means knowing it’s more than one disease

Although there are many kinds of cancer, they all start because of out-of-control growth of abnormal cells. Normal body cells grow, divide and die in an orderly fashion. Because cancer cells continue to grow and divide, they are different from normal cells. Instead of dying, they outlive normal cells and continue to form new abnormal cells.

Cancer cells develop because of damage to DNA, which directs all activities in each cell. When DNA becomes damaged, the body is usually able to repair it. In cancer cells, however, the damaged DNA is not repaired. People can inherit damaged DNA, which accounts for the approximately 10 percent of inherited cancers. More often, though, a person’s DNA becomes damaged by exposure to something in the environment or random cellular events.

Most cancers originate almost anywhere in the body and usually form as a solid tumor, while others, such as leukemia and myeloma, are sometimes referred to as liquid tumors (see illustration). These cancer cells involve the blood and blood-forming organs (bone marrow) and circulate through other tissues, where they grow.

The different types of cancer include:

Carcinomas: The most common type of cancer, these tumors arise from the cells that cover external and internal body surfaces. The most frequent cancers of this type in the United States are lung, breast and colon cancer.

Sarcomas: Cancers that arise from cells found in the supporting tissues of the body, such as bone, cartilage, fat, connective tissue and muscle.

Lymphomas: Cancers that arise in the lymph nodes and tissues of the body’s immune system.

Leukemias: Cancers of the immature blood cells that grow in the bone marrow and tend to accumulate in large numbers in the bloodstream.

The place where a cancer starts is called the primary site. From there, it can spread (metastasize) to other parts of the body. Regardless of where a cancer may spread, it is always named for the place it began. For instance, breast cancer that spreads to the liver is still called breast cancer, not liver cancer.

Different types of cancer can behave very differently. For example, lung cancer and breast cancer are very different diseases. They grow at different rates and respond to different treatments. That is why people with cancer need treatment that is aimed at their particular kind of cancer.

Not all tumors are malignant (cancerous). Benign, or noncancerous, tumors do not spread to other parts of the body and, with very rare exceptions, are not life-threatening.

During the second half of the 20th century, scientists uncovered many of the intricacies of cancer and developed the technology to pinpoint the exact site of the damage to a specific gene, which has had a tremendous impact on the types of therapies now available.

Adapted from an article from the American Cancer Society
http://www.cancer.org/docroot/home/index.asp

Sugar Feeds Cancer!

Hi guys,

This is a very important article emphasizing yet again the need to control ones sugar intake. If you are not checking your sugar intake from just about every food item on your supermarket shelves then you are placing yourself at risk. You will even find excess sugar in products sold in so-called, health food shops. I rigorously check all my food items for it sugar content (and for sodium) and avoid adding additional sugar to my beverages, etc.

http://www.alternativehealth.com.au/Articles/sugar_&_cancer.htm

This article is used with permission from:

Dr. Jon J. Brooks, M.D. - Trustee

The Alternative Medicine Research Foundation USA

It puzzles me why the simple concept “sugar feeds cancer” can be so dramatically overlooked as part of a comprehensive cancer treatment plan. Of the 4 million cancer patients being treated in America today, hardly any are offered any scientifically guided nutrition therapy beyond being told to “just eat good foods.” Most patients I work with arrive with a complete lack of nutritional advice. I believe many cancer patients would have a major improvement in their outcome if they controlled the supply of cancer’s preferred fuel, glucose. By slowing the cancer’s growth, patients allow their immune systems and medical debulking therapies–chemotherapy, radiation and surgery to reduce the bulk of the tumour mass–to catch up to the disease. Controlling one’s blood-glucose levels through diet, supplements, exercise, meditation and prescription drugs when necessary can be one of the most crucial components to a cancer recovery program. The sound bite–sugar feeds cancer–is simple. The explanation is a little more complex.

The 1931 Nobel laureate in medicine, German Otto Warburg, Ph.D., first discovered that cancer cells have a fundamentally different energy metabolism compared to healthy cells. The crux of his Nobel thesis was that malignant tumours frequently exhibit an increase in anaerobic glycolysis - - a process whereby glucose is used as a fuel by cancer cells with lactic acid as an anaerobic by-product - - compared to normal tissues. The large amount of lactic acid produced by this fermentation of glucose from cancer cells is then transported to the liver. This conversion of glucose to lactate generates a lower, more acidic pH in cancerous tissues as well as overall physical fatigue from lactic acid build-up. Thus, larger tumours tend to exhibit a more acidic pH.4

This inefficient pathway for energy metabolism yields only 2 moles of adenosine triphosphate (ATP) energy per mole of glucose, compared to 38 moles of ATP in the complete aerobic oxidation of glucose. By extracting only about 5 percent (2 vs. 38 moles of ATP) of the available energy in the food supply and the body’s calorie stores, the cancer is “wasting” energy, and the patient becomes tired and undernourished. This vicious cycle increases body wasting. It is one reason why 40 percent of cancer patients die from malnutrition, or cachexia. Hence, cancer therapies should encompass regulating blood-glucose levels via diet, supplements, non-oral solutions for cachectic patients who lose their appetite, medication, exercise, gradual weight loss and stress reduction.

Professional guidance and patient self-discipline are crucial at this point in the cancer process. The quest is not to eliminate sugars or carbohydrates from the diet but rather to control blood glucose within a narrow range to help starve the cancer and bolster immune function. The glycemic index is a measure of how a given food affects blood-glucose levels, with each food assigned a numbered rating. The lower the rating, the slower the digestion and absorption process, which provides a healthier, more gradual infusion of sugars into the bloodstream. Conversely, a high rating means blood-glucose levels are increased quickly, which stimulates the pancreas to secrete insulin to drop blood-sugar levels. This rapid fluctuation of blood-sugar levels is unhealthy because of the stress it places on the body.

Sugar in the Body and Diet

Sugar is a generic term used to identify simple carbohydrates, which includes monosaccharides such as fructose, glucose and galactose; and disaccharides such as maltose and sucrose (white table sugar). Think of these sugars as different-shaped bricks in a wall. When fructose is the primary monosaccharide brick in the wall, the glycemic index registers as healthier, since this simple sugar is slowly absorbed in the gut, then converted to glucose in the liver. This makes for “time-release foods,” which offer a more gradual rise and fall in blood-glucose levels. If glucose is the primary monosaccharide brick in the wall, the glycemic index will be higher and less healthy for the individual. As the brick wall is torn apart in digestion, the glucose is pumped across the intestinal wall directly into the bloodstream, rapidly raising blood-glucose levels. In other words, there is a “window of efficacy” for glucose in the blood: levels too low make one feel lethargic and can create clinical hypoglycemia; levels too high start creating the rippling effect of diabetic health problems.

The 1997 American Diabetes Association blood-glucose standards consider 126 mg glucose/dL blood or greater to be diabetic; 111125 mg/dL is impaired glucose tolerance and less than 110 mg/dL is considered normal. Meanwhile, the Paleolithic diet of our ancestors, which consisted of lean meats, vegetables and small amounts of whole grains, nuts, seeds and fruits, is estimated to have generated blood glucose levels between 60 and 90 mg/dL. Obviously, today’s high-sugar diets are having unhealthy effects as far as blood-sugar is concerned. Excess blood glucose may initiate yeast overgrowth, blood vessel deterioration, heart disease and other health conditions.

Understanding and using the glycemic index is an important aspect of diet modification for cancer patients. However, there is also evidence that sugars may feed cancer more efficiently than starches (comprised of long chains of simple sugars), making the index slightly misleading. A study of rats fed diets with equal calories from sugars and starches, for example, found the animals on the high-sugar diet developed more cases of breast cancer. The glycemic index is a useful tool in guiding the cancer patient toward a healthier diet, but it is not infallible. By using the glycemic index alone, one could be led to thinking a cup of white sugar is healthier than a baked potato. This is because the glycemic index rating of a sugary food may be lower than that of a starchy food. To be safe, I recommend less fruit, more vegetables, and little to no refined sugars in the diet of cancer patients.

What the Literature Says

A mouse model of human breast cancer demonstrated that tumors are sensitive to blood-glucose levels. Sixty-eight mice were injected with an aggressive strain of breast cancer, then fed diets to induce either high blood-sugar (hyperglycemia), normoglycemia or low blood-sugar (hypoglycemia). There was a dose-dependent response in which the lower the blood glucose, the greater the survival rate. After 70 days, 8 of 24 hyperglycemic mice survived compared to 16 of 24 normoglycemic and 19 of 20 hypoglycemic. This suggests that regulating sugar intake is key to slowing breast tumour growth. In a human study, 10 healthy people were assessed for fasting blood-glucose levels and the phagocytic index of neutrophils, which measures immune-cell ability to envelop and destroy invaders such as cancer. Eating 100 g carbohydrates from glucose, sucrose, honey and orange juice all significantly decreased the capacity of neutrophils to engulf bacteria. Starch did not have this effect.

A four-year study at the National Institute of Public Health and Environmental Protection in the Netherlands compared 111 biliary tract cancer patients with 480 controls. Cancer risk associated with the intake of sugars, independent of other energy sources, more than doubled for the cancer patients. Furthermore, an epidemiological study in 21 modern countries that keep track of morbidity and mortality (Europe, North America, Japan and others) revealed that sugar intake is a strong risk factor that contributes to higher breast cancer rates, particularly in older women.

Limiting sugar consumption may not be the only line of defence. In fact, an interesting botanical extract from the avocado plant (Persea americana) is showing promise as a new cancer adjunct. When a purified avocado extract called mannoheptulose was added to a number of tumour cell lines tested in vitro by researchers in the Department of Biochemistry at Oxford University in Britain, they found it inhibited tumour cell glucose uptake by 25 to 75 percent, and it inhibited the enzyme glucokinase responsible for glycolysis. It also inhibited the growth rate of the cultured tumour cell lines. The same researchers gave lab animals a 1.7 mg/g body weight dose of mannoheptulose for five days; it reduced tumours by 65 to 79 percent. Based on these studies, there is good reason to believe that avocado extract could help cancer patients by limiting glucose to the tumour cells.

Since cancer cells derive most of their energy from anaerobic glycolysis, Joseph Gold, M.D., director of the Syracuse (N.Y.) Cancer Research Institute and former U.S. Air Force research physician, surmised that a chemical called hydrazine sulphate, used in rocket fuel, could inhibit the excessive gluconeogenesis (making sugar from amino acids) that occurs in cachectic cancer patients. Gold’s work demonstrated hydrazine sulphate’s ability to slow and reverse cachexia in advanced cancer patients. A placebo-controlled trial followed 101 cancer patients taking either 6 mg hydrazine sulphate three times/day or placebo. After one month, 83 percent of hydrazine sulphate patients increased their weight, compared to 53 percent on placebo.15

A similar study by the same principal researchers, partly funded by the National Cancer Institute in Bethesda, Md., followed 65 patients. Those who took hydrazine sulphate and were in good physical condition before the study began lived an average of 17 weeks longer. The medical establishment may be missing the connection between sugar and its role in tumorigenesis. Consider the million-dollar positive emission tomography device, or PET scan, regarded as one of the ultimate cancer-detection tools. PET scans use radioactively labelled glucose to detect sugar-hungry tumour cells. PET scans are used to plot the progress of cancer patients and to assess whether present protocols are effective.18 In Europe, the “sugar feeds cancer” concept is so well accepted that oncologists, or cancer doctors, use the Systemic Cancer Multistep Therapy (SCMT) protocol.

Conceived by Manfred von Ardenne in Germany in 1965, SCMT entails injecting patients with glucose to increase blood-glucose concentrations. This lowers pH values in cancer tissues via lactic acid formation. In turn, this intensifies the thermal sensitivity of the malignant tumours and also induces rapid growth of the cancer. Patients are then given whole-body hyperthermia (42 C core temperature) to further stress the cancer cells, followed by chemotherapy or radiation.19 SCMT was tested on 103 patients with metastasised cancer or recurrent primary tumours in a clinical phase-I study at the Von Ardenne Institute of Applied Medical Research in Dresden, Germany. Five-year survival rates in SCMT-treated patients increased by 25 to 50 percent, and the complete rate of tumour regression increased by 30 to 50 percent.

The protocol induces rapid growth of the cancer, then treats the tumour with toxic therapies for a dramatic improvement in outcome. The irrefutable role of glucose in the growth and metastasis of cancer cells can enhance many therapies. Some of these include diets designed with the glycemic index in mind to regulate increases in blood glucose, hence selectively starving the cancer cells; low-glucose TPN solutions; avocado extract to inhibit glucose uptake in cancer cells; hydrazine sulphate to inhibit gluconeogenesis in cancer cells; and SCMT.

A female patient in her 50s, with lung cancer, came to our clinic, having been given a death sentence by her Florida oncologist. She was cooperative and understood the connection between nutrition and cancer. She changed her diet considerably, leaving out 90 percent of the sugar she used to eat. She found that wheat bread and oat cereal now had their own wild sweetness, even without added sugar. With appropriately restrained medical therapy–including high-dose radiation targeted to tumour sites and fractionated chemotherapy, a technique that distributes the normal one large weekly chemo dose into a 60-hour infusion lasting days–a good attitude and an optimal nutrition program which included Sam’s formula nine times/day, she beat her terminal lung cancer. I saw her last month, five years later and still disease-free, probably looking better than the doctor who told her there was no hope.