Reversing Non-Hodgkins Lymphoma

An amazing story on the benefits of the pH Miracle Plan and it's positive effect on health and physical well being that then contributes to emotional well being.

Lori Putoto tells of her experience and the remarkable improvement in her health after visiting the pH Miracle Center and learning to take back control of her health through simple dietary and lifestyle changes.

She reversed Non-Hodgkins Lymphoma and thanks Dr. Young and staff for returning hope to what was a hopeless situation.

To watch and listen to Lori tell her story go to:

http://www.youtube.com/watch?v=syn0xThLVPM

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Healthy people 2010

Take a look at yourself and see if you can improve your health in 2010. Over Christmas and New year we all eat and drink too much, it is nice but it has to come to an end.

I know that I have put on weight, and I feel unhealthy. My asthma is worse, as is pain in my stomach, which could indicate my ulcer is returning. I do not smoke which is a good thing. I intend to cut down on alcohol which should also help.

I will start to take Odourless garlic supplements 1000mg. This should help my Ulcer and help with my Asthma. It should also lower my cholesterol level and my blood pressure, which I know has been about 160/100, much too high. It will also lower my resistance to infection such as colds and flu.

So what else can I do?. Exercise is important. I need to do this every day. I will plan to walk about 30 minutes every day. I intend to start doing breathing exercises as explained in an earlier post.

Think positive and think healthy in 2010.

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My Favorite Essential Oil - Pain pHree

I wanted you to know about one of my favorite YoungpHorever products I call Pain pHree.

These are just a few of the benefits from using this product:

Relieves muscle pain!
Relieves joint pain!
Reduces heartburn and stomach pain!
Calms headaches!
Opens sinuses!
Soothes spasms and inflammation!
Does not stain your clothes – NOT sticky at all!Safe and also works great for pets muscle and joint pain!
Smells so good I use it as cologne!
Yes – it is Pain pHree...

http://www.phmiracleliving.com/p-371-young-phorever-pain-phree.aspx

I am thrilled to share with you a my testimony about our awesome pain relieving product: pain pHree. I also really want you to experience your own great testimonies using this product. Here are some ideas on ways I have found Pain pHree to work for me and others:

1. Headaches: Massage a drop or 2 of Pain pHree into base of head, scalp and temples

2. For Heartburn/ Nausea: Apply 1-2 drops of Pain pHree into naval and spread around stomach area. (Not for pre-natal nausea)

3. During times of cold or congestion, massage a few drops of pain pHree or LipHt Massage and Body Oil to chest and neck to help open airways and sinuses.

4. Arthritis: Apply Pain pHree to arthritic areas to help ease the pain.

5. To prevent chronic aches or pains that occur during your workout routine, try applying a drop of Pain pHree to the area before your workout.

6. Apply Pain pHree anywhere you have muscle tension, aches, or pains.

7. Treat yourself to a foot bath during a time of congestion by using 3 caps of LipHt Massage and Body Oil and 2 drops of Pain pHree.

8. Apply one drop of Pain pHree wherever you have a chronic itch or on a bug bite to relive the itch.

9. Add 3 drops of Pain pHree to laundry loads as an added antibacterial and refreshing fragrance.

10. During colds, congestion, or flu, bring water to a boil and add 3 caps of LipHt Massage and Body Oil and/or 3 drops of Pain pHree to the boiling water and inhale vapors o open airways and sinuses. Follow by rubbing a drop of Pain pHree over chest and neck.

11. Apply 2 drops of Pain pHree around the diaphragm to reduce asthmatic spasms.

12. Put a drop of Pain pHree in shoes to prevent foot odor.

13. Apply a drop of Pain pHree to the sore muscles or joints of arthritic pets.

14. For a natural cleaning solution, add 5-8 drops of Pain pHree to a gallon of warm water to do your cleaning. I also add 3 drops to my floor steamer to clean my floors. A few drops can be sprinkled onto the vacuum cleaner bag to freshen the house while vacuuming.

15. Apply a drop of Pain pHree to your neck, shirt, or underarm for cologne.

16. Give a bottle to a friend or loved one that you know has aches, pains, or headaches!

Pain pHree Is Amazing!

This amazing blend of essential oils affects pain in two ways. Most topical pain relievers contain camphor, which can be dangerous over time and offers only an analgesic property, numbing pain. Pain pHree does have a powerful analgesic to ease pain that is safer than camphor. It also has other qualities to enhance its pain relieving effects. Pain pHree addresses pain from stiffness with analgesic oil that increases circulation and stimulates healing. It also addresses pain in a unique way that most topical pain products miss: by reducing inflammation and spasms. One cause of pain is inflammation due to over-acidity of the blood and tissues, which can be caused by various factors, including overuse, repetitive motion, structural or functional imbalances, or acid build up in the tissues from lifestyle and diet. Pain is also often present when there are muscle spasms, or trigger point spasms. Relief from inflammation or spasms will often completely eliminate the pain that they cause locally. Pain pHree contains powerful anti-inflammatory and anti-spasmodic oil which addresses pain caused by these factors. The use of both pain relieving components makes Pain pHree a superior topical pain relieving product!

Pregnant women should avoid this product due to the Clary Sage content which has been shown to stimulate labor.

Pain pHree comes in a 10ml dropper bottle for $19.95. One bottle contains approximately 200 uses. We want to encourage you to use Pain pHree in as many ways as possible by offering a special discount because we are sure you will love it as much as we do. This special offer is for a limited time only!

Buy 4, get 1 free!Buy 9, get 3 free!Buy 15, get 5 free!

To order your bottles of Pain pHree go to:

http://www.phmiracleliving.com/p-371-young-phorever-pain-phree.aspx

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On Dr. Robert O. Young and Blood Microscopy

Time is a vampire that flies in the night
like Bela Lugosi, in full flight, with Hungarian
accent, phonetically speaking English,
and oh! with so much feeling!

How the undead can relish delight
when succulent pleasure comes in sight!
The senses flourish, hormones pumping
*seemingly*, without a heart that’s thumping,
coursing blood to all the cells,
drinking water from deeper wells
to keep the land fresh, and irrigated.

You think that he’d feel *irritated*
to be lacking all of that,
But no! like the Cat in the Hat,
he comes back and back and back and back,
smacking his lips on my TV screen
for blood; nearly ready to cream.
It’s definitely a sexual thing –
at least in the sense of satisfying
longing like an itch that scratches
but *way deeper* than sullen patches
of mere desire. No … deeper still,
where hunger joins with fired will
to stoke the furnace, lick the flame,
begin in earnest to try again
to taste the flavor of deeper feeling:
blood that lives, all un-congealing.
How fantasy can be so revealing!
On *many* levels, the *least* of which
is the purely physical .

This Friday, we’ll go to hear and see
a master of live blood microscopy, Dr. Robert O. Young.
He draws some living, vital stuff
then takes a peek, and that’s enough
to tell you what you have been eating,
and therefore how your body’s treating
you like you’ve been treating it:
giving gold for gold and shit for shit!

Right away, he can settle the case –
if your cells are acidic or truly base.
If alkaline, as they should be,
your body functions harmoniously.
If acid, then there’s trouble brewing,
disease and cancers all accruing
there, along with inflammation
at the cellular level. Such degradation
*need not be*; it just reflects
the degree of our ignorant self-neglect.

Create the right environment
internally and life will thrive
harmoniously, to keep alive
what *should* be living,
and fail to support the rest.

“It’s all in the blood”, he says.
And it does indeed seem true:
In the state of perfect balance,
Life Becomes New.--

Tony PaternitiDecember 1, 2009

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The Body Fat Setpoint

One pound of human fat contains about 3,500 calories. That represents roughly 40 slices of toast. So if you were to eat one extra slice of toast every day, you would gain just under a pound of fat per month. Conversely, if you were to eat one fewer slice per day, you'd lose a pound a month. Right? Not quite.

How is it that most peoples' body fat mass stays relatively stable over long periods of time, when an imbalance of as little as 5% of calories should lead to rapid changes in weight? Is it because we do complicated calculations in our heads every day, factoring in basal metabolic rate and exercise, to make sure our energy intake precisely matches expenditure? Of course not. We're gifted with a sophisticated system of hormones and brain regions that do the calculations for us unconsciously*.

When it's working properly, this system precisely matches energy intake to expenditure, ensuring a stable and healthy fat mass. It does this by controlling food seeking behaviors, feelings of fullness and even energy expenditure by heat production and physical movements. If you eat a little bit more than usual at a meal, a properly functioning system will say "let's eat a little bit less next time, and also burn some of it off." This is why animals in their natural habitat are nearly always at an appropriate weight, barring starvation. The only time wild animals are overweight enough to compromise maximum physical performance is when it serves an important purpose, such as preparing for hibernation.

I recently came across a classic study that illustrates these principles nicely in humans, titled "Metabolic Response to Experimental Overfeeding in Lean and Overweight Healthy Volunteers", by Dr. Erik O. Diaz and colleagues (1). They overfed lean and modestly overweight volunteers 50% more calories than they naturally consume, under controlled conditions where the investigators could be confident of food intake. Macronutrient composition was 12-42-46 % protein-fat-carbohydrate.

After 6 weeks of massive overfeeding, both lean and overweight subjects gained an average of 10 lb (4.6 kg) of fat mass and 6.6 lb (3 kg) of lean mass. Consistent with what one would expect if the body were trying to burn off excess calories and return to baseline fat mass, the metabolic rate and body heat production of the subjects increased.

Following overfeeding, subjects were allowed to eat however much they wanted for 6 weeks. Both lean and overweight volunteers promptly lost 6.2 of the 10 lb they had gained in fat mass (61% of fat gained), and 1.5 of the 6.6 lb they had gained in lean mass (23%). Here is a graph showing changes in fat mass for each individual that completed the study:

We don't know if they would have lost the remaining fat mass in the following weeks because they were only followed for 6 weeks after overfeeding, although it did appear that they were reaching a plateau slightly above their original body weight. Thus, nearly all subjects "defended" their original body fat mass irrespective of their starting point. Underfeeding studies have shown the same phenomenon: whether lean or overweight, people tend to return to their original fat mass after underfeeding is over. Again, this supports the idea that the body has a body fat mass "set point" that it attempts to defend against changes in either direction. It's one of many systems in the body that attempt to maintain homeostasis.

OK, so why do we care?

We care because this has some very important implications for human obesity. With such a powerful system in place to keep body fat mass in a narrow range, a major departure from that range implies that the system isn't functioning correctly. In other words, obesity has to result from a defect in the system that regulates body fat, because a properly functioning system would not have allowed that degree of fat gain in the first place.

So yes, we are gaining weight because we eat too many calories relative to energy expended. But why are we eating too many calories? Because the system that should be defending a low fat mass is now defending a high fat mass. Therefore, the solution is not simply to restrict calories, or burn more calories through exercise, but to try to "reset" the system that decides what fat mass to defend. Restricting calories isn't necessarily a good solution because the body will attempt to defend its setpoint, whether high or low, by increasing hunger and decreasing its metabolic rate. That's why low-calorie diets, and most diets in general, typically fail in the long term. It's miserable to fight hunger every day.

This raises two questions:

1. What caused the system to defend a high fat mass?
2. Is it possible to reset the fat mass setpoint, and how would one go about it?
   

Given the fact that body fat mass is much higher in many affluent nations than it has ever been in human history, the increase must be due to factors that have changed in modern times. I can only speculate what these factors may be, because research has not identified them to my knowledge, at least not in humans. But I have my guesses. I'll expand on this in the next post.


* The hormone leptin and the hypothalamus are the ringleaders, although there are many other elements involved, such as numerous gut-derived peptides, insulin, and a number of other brain regions.

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Gratitude and Appreciation For Life Changing Science

The following is an unsolicited testimony from Tammy Copenhaver. Tammy shares her ten year experience with The pH Miracle Lifestyle, Diet, Supplements, and Dr. Young.

December 24 at 7:28pm

Dear Dr. Young,

I love your Christmas gift suggestions! My gift to you my mentor and friend, is gratitude and appreciation.I had no idea 10 years ago when I listened to Tony Robbins "Get the Edge" and he mentioned a "green drink" that I would someday be so indebted to the man who made that drink.

Thank you for the guidance to help my husband through cancer 9 years ago and inspiring me to further my nursing education to become a Doctor of Naturopathy so that I can empower others as you empowered me. I just finished my final practicum and my educational video will be the first one Clayton College ever used on their website from a student! In it I talk to my 10 year old about swine flu and we begin where I always do with the most important thing to remember, "It's not the germ, it's the terrain".

I have had many wonderful courses but I remain steadfast and committed to spreading your research and knowledge of alkalizing the body. Thank you for all the incredible products you have created that I use and recommend to every client. I have personally seen them help myself, my family, and friends. Liquid Chlorophyll is my current favorite, but I also love pHour salts, the oxygen spray mist, the clay, the Liquid Sliver, Biolight, Metabolean, PH-D3,Etc!

My children have been completely healthy since we started alkalizing and have overcome all the issues they used to struggle with like allergies, ear infections, irritable bowel, and warts. I have been waiting for a long time to meet you in person and tell you how much I appreciate you and how grateful I am to have been blessed with your friendship. Hopefully 2010 will be that year.
Until then, I wish you love, laughter, and all the joy your heart can hold. You are simply the best!

With Love and Respect,

Tammy Copenhaver

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Rabbits on a High-Saturated Fat Diet Without Added Cholesterol

I just saw another study that supports my previous post Animal Models of Atherosclerosis: LDL. The hypothesis is that in the absence of excessive added dietary cholesterol, saturated fat does not influence LDL or atherosclerosis in animal models, relative to other fats (although omega-6 polyunsaturated oils do lower LDL in some animal models). This appears to be consistent with what we see in humans.

In this study, they fed four groups of rabbits different diets:

1. Regular low-fat rabbit chow
2. Regular low-fat rabbit chow plus 0.5 g cholesterol per day
3. High-fat diet with 30% calories as coconut oil (saturated) and no added cholesterol
   
4. High-fat diet with 30% calories as sunflower oil (polyunsaturated) and no added cholesterol
   

LDL at 6 months was the same in groups 1, 3 and 4, but was increased more than 20-fold in group 2. It's not the fat, it's the fact that they're overloading herbivores with dietary cholesterol!

Total cholesterol was also the same between all groups except the cholesterol-fed group. TBARS, a measure of lipid oxidation in the blood, was elevated in the cholesterol and sunflower oil groups but not in the chow or coconut groups. Oxidation of blood lipids is one of the major factors in atherosclerosis, the vascular disease that narrows arteries and increases the risk of having a heart attack. Serum vitamin C was lower in the cholesterol-fed groups but not the others.

This supports the idea that saturated fat does not inherently increase LDL, and in fact in most animals it does not. This appears to be the case in humans as well, where long-term trials have shown no difference in LDL between people eating more saturated fat and people eating less, on timescales of one year or more (some short trials show a modest LDL-raising effect, but even this appears to be due to an increase in particle size rather than particle number). Since these trials represent the average of many people, they may hide some individual variability: it may actually increase LDL in some people and decrease it in others.

Merry Christmas!

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What's the Ideal Fasting Insulin Level?

Insulin is an important hormone. Its canonical function is to signal cells to absorb glucose from the bloodstream, but it has many other effects. Chronically elevated insulin is a marker of metabolic dysfunction, and typically accompanies high fat mass, poor glucose tolerance (prediabetes) and blood lipid abnormalities. Measuring insulin first thing in the morning, before eating a meal, reflects fasting insulin. High fasting insulin prevents the escape of fat from fat tissue and causes a number of other metabolic disturbances.

Elevated fasting insulin is a hallmark of the metabolic syndrome, the quintessential modern metabolic disorder that affects 24% of Americans (NHANES III). Dr. Lamarche and colleagues found that having an insulin level of 13 uIU/mL in Canada correlated with an 8-fold higher heart attack risk than a level of 9.3 uIU/mL (1; thanks to NephroPal for the reference). So right away, we can put our upper limit at 9.3 uIU/mL. The average insulin level in the U.S., according to the NHANES III survey, is 8.8 uIU/mL for men and 8.4 for women (2). Given the degree of metabolic dysfunction in this country, I think it's safe to say that the ideal level of fasting insulin is probably below 8.4 uIU/mL as well.

Let's dig deeper. What we really need is a healthy, non-industrial "negative control" group. Fortunately, Dr. Staffan Lindeberg and his team made detailed measurements of fasting insulin while they were visiting the isolated Melanesian island of Kitava (3). He compared his measurements to age-matched Swedish volunteers. In male and female Swedes, the average fasting insulin ranges from 4-11 uIU/mL, and increases with age. From age 60-74, the average insulin level is 7.3 uIU/mL.

In contrast, the range on Kitava is 3-6 uIU/mL, which does not increase with age. In the 60-74 age group, in both men and women, the average fasting insulin on Kitava is 3.5 uIU/mL. That's less than half the average level in Sweden and the U.S. Keep in mind that the Kitavans are lean and have an undetectable rate of heart attack and stroke.

Another example from the literature are the Shuar hunter-gatherers of the Amazon rainforest. Women in this group have an average fasting insulin concentration of 5.1 uIU/mL (4; no data was given for men).

I found a couple of studies from the early 1970s as well, indicating that African pygmies and San bushmen have rather high fasting insulin. Glucose tolerance was excellent in the pygmies and poor in the bushmen (5, 6, free full text). This may reflect differences in carbohydrate intake. San bushmen consume very little carbohydrate during certain seasons, and thus would likely have glucose intolerance during that period. There are three facts that make me doubt the insulin measurements in these older studies:

1. It's hard to be sure that they didn't eat anything prior to the blood draw.
2. From what I understand, insulin assays were variable and not standardized back then.
   
3. In the San study, their fasting insulin was 1/3 lower than the Caucasian control group (10 vs. 15 uIU/mL). I doubt these active Caucasian researchers really had an average fasting insulin level of 15 uIU/mL. Both sets of measurements are probably too high.
   

Now you know the conflicting evidence, so you're free to be skeptical if you'd like.

We also have data from a controlled trial in healthy urban people eating a "paleolithic"-type diet. On a paleolithic diet designed to maintain body weight (calorie intake had to be increased substantially to prevent fat loss during the diet), fasting insulin dropped from an average of 7.2 to 2.9 uIU/mL in just 10 days. The variation in insulin level between individuals decreased 9-fold, and by the end, all participants were close to the average value of 2.9 uIU/mL. This shows that high fasting insulin is correctable in people who haven't yet been permanently damaged by the industrial diet and lifestyle. The study included men and women of European, African and Asian descent (7).

One final data point. My own fasting insulin, earlier this year, was 2.3 uIU/mL. I believe it reflects a good diet, regular exercise, sufficient sleep, a relatively healthy diet growing up, and the fact that I managed to come across the right information relatively young. It does not reflect: carbohydrate restriction, fat restriction, or saturated fat restriction. Neither does the low fasting insulin of healthy non-industrial cultures.

So what's the ideal fasting insulin level? My current feeling is that we can consider anything between 2 and 6 uIU/mL within our evolutionary template, although the lower half of that range may be preferable.

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My favourite veg

Its Christmas time once again and as usual I will be having my favourite vegetable with my dinner, the brussel sprout. As a nutrient the brussel sprout contain an excellent source of vitamin c, b1 and beta carotene.

Vitamin B1 (Thiamine) is essential for energy. As an antioxidant it can help to prevent arthritis and atherosclerosis caused by free radical damage. Together with vitamin c it can help to protect from the damage caused by smoking, and drinking alcohol. Vitamin B1 also promotes a feeling of optimism, helps to overcome stress, depression, anxiety, and poor memory.

Other souses of vitamin B1 are from whole grains, brewers yeast, rice bran and peanuts.

So this Christmas add a few brussel sprouts to your Christmas dinner. Happy Christmas to all.

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Eating Nuts May Prevent Cancerous Lungs and Prostate

The appended article below indicates that nuts, particularly pistashio nuts, will help prevent Lung Cancer and Prostate Cancer, etc., etc. I have long recommended that a healthy alkaline diet should contain a wide array of nuts and nut milks, including almond, hazel, pecan, macadamea, and pine nut, just to name a few. I have also suggested for years that nuts be sprouted and also juiced before ingested because they are so hard if not impossible to digest.

The following article is just more evidence of the efficacy of my adivice.

In love and light,

Dr. Robert O. Young

----------------------Appended Message----------------------------------

Daily Dose of Nuts Reduces Cancer Risk
December 10, 2009

(Ivanhoe Newswire) -- A diet that incorporates a daily dose of pistachios may help reduce the risk of lung and other cancers.

"It is known that vitamin E provides a degree of protection against certain forms of cancer,” Ladia M. Hernandez, M.S., R.D., L.D., senior research dietitian in the Department of Epidemiology at the University of Texas M. D. Anderson Cancer Center, was quoted as saying. Higher intakes of gamma-tocopherol, a form of vitamin E, may reduce the risk of lung cancer.

"Pistachios are a good source of gamma-tocopherol,” said Hernandez. “Eating them increases intake of gamma-tocopherol so pistachios may help to decrease lung cancer risk."

Pistachios are known to be heart-healthy. They have a cholesterol-lowering effect and provide the antioxidants typically found in food products of plant origin. Hernandez and colleagues conducted a six-week, controlled clinical trial to determine whether the consumption of pistachios would increase serum levels of gamma-tocopherol.

"Because epidemiologic studies suggest gamma-tocopherol is protective against prostate cancer, pistachio intake may help," she said. "Other food sources that are a rich source of gamma-tocopherol include nuts such as peanuts, pecans, walnuts, soybean and corn oils."

The study, conducted at Texas Woman's University -- Houston Center, included 36 healthy participants who were randomized into either a control group or the intervention group, which ate a pistachio diet. After an initial baseline period, the intervention group was given about 2 ounces of pistachios per day. The control group continued with their normal diet.

Hernandez and colleagues found a significant increase in energy-adjusted dietary intake of gamma-tocopherol at weeks three and four in those on the pistachio diet. For those on the pistachio diet, cholesterol-adjusted serum gamma-tocopherol was significantly higher at the end of the intervention period. "Pistachios are one of those 'good-for-you' nuts, and 2 ounces per day could be incorporated into dietary strategies designed to reduce the risk of lung cancer without significant changes in body mass index," said Hernandez.

SOURCE: Presented at the American Association for Cancer Research Frontiers in Cancer

Prevention Research Conference, Houston, TX, December 6-9, 2009
Reference: http://ivanhoe.com/channels/p_channelstory.cfm?storyid=23047

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Drinking Beer Will Make You Fat, Sterile and Feminized

The appended article below intends to support the thesis that Hops in beer, etc., helps to decrease the effects of testosterone on promoting the growth of prostate tumors. What the article does not say, is the way hops achieves that effect is by either mimicking an estrogen or deactivating testosterone or other androgens. This so-called science is VERY alarming to me, given the propensity of adolescents to drink copious quantities of beer! The effects would be "feminizing" to males and hyper-feminization in young women, and leading to a host of reproductive disorders, including fertility problems.

It may be that the syndrome referred to as "beer belly" or "acid gut" is even more malignant than just contributing to obesity. Large quantities of beer being consumed at frat parties, etc., may be causing young males not only to become obese, but also to develop breasts, lose libido, and cause the feminization of males
and the hyper-feminization of females.

------------------------------------Appended Article-----------------------------------------------

Hops may Prevent Prostate Cancer

December 9, 2009

(Ivanhoe Newswire) -- The natural compound xanthohumol, which is derived from hops, blocks the effects of the male hormone testosterone, aiding in the prevention of prostate cancer.

"We hope that one day we can demonstrate that xanthohumol prevents prostate cancer development, first in animal models and then in humans, but we are just at the beginning," Clarissa Gerhauser, Ph.D., group leader of cancer chemoprevention in the Division of Epigenomics and Cancer Risk Factors at the German Cancer Research Center in Heidelberg, Germany, was quoted as saying.

Xanthohumol belongs to the group of flavonoids that are found in many plants, fruit, vegetables and spices, especially in hops. Studies to date have shown that xanthohumol blocks the action of estrogen by binding to its receptor, which may lead to prevention of breast cancer. Since testosterone receptors behave similarly to estrogen receptors, the researchers sought to determine whether xanthohumol might not only block the effects of estrogen, but also of the male hormone androgen.

Dr. Gerhauser and colleagues stimulated hormone-dependent prostate cancer cells with testosterone, which led to a massive secretion of prostate specific antigen (PSA), an early indicator of prostate cancer in men. Cells were then treated with testosterone and xanthohumol. "Xanthohumol prevented the receptor from translocating to the cell nucleus, thus inhibiting its potential to stimulate the secretion of PSA and other hormone-dependent effects," Dr. Gerhauser said.

When researchers measured the anti-androgenic potential of xanthohumol in a rat model, they found that although xanthohumol was not able to prevent an increase in prostate weight after testosterone treatment, it could reduce testosterone-increased seminal vesicle weight.

Dr. Gerhauser said, "Although the prostate weights were not changed, xanthohumol still reduced the effects of hormone signaling, such as gene expression, measured in the prostate tissue."

SOURCE: Presented at the American Association for Cancer Research Frontiers in Cancer Prevention Research Conference, Houston, TX, Dec. 6-9, 2009


Reference: http://ivanhoe.com/channels/p_channelstory.cfm?storyid=23043

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CT Scans Cause Death and Cancer

Radiation from CT scans done in 2007 will cause 29,000 cancers and kill nearly 15,000 Americans, researchers said on Monday.

The findings, published in the Archives of Internal Medicine, add to mounting evidence that Americans are overexposed to radiation from diagnostic tests, especially from a specialized kind of X-ray called a computed tomography, or CT, scan.

"What we learned is there is a significant amount of radiation with these CT scans, more than what we thought, and there is a significant number of cancers," said Dr. Rita Redberg, editor of the Archives of Internal Medicine, where the studies were published.

"It's estimated that just from the CT scans done in one year, just in 2007, there will be 15,000 excess deaths," Redberg said in a telephone interview.

"We're doing millions of CT scans every year and the numbers are increasing. That is a lot of excess deaths."

CT scans give doctors a view inside the body, often eliminating the need for exploratory surgery. But CT scans involve much higher radiation dose than conventional X-rays. A chest CT scan exposes the patient to more than 100 times the radiation dose of a chest X-ray.

About 70 million CT scans were done on Americans in 2007, up from 3 million in 1980. Amy Berrington de Gonzalez of the National Cancer Institute and colleagues developed a computer model to estimate the impact of so many scans.

They estimated the scans done in 2007 will cause 29,000 cancers. A third of the projected cancers will occur in people who were ages 35 to 54 when they got their CT, two-thirds will occur in women and 15 percent will arise from scans done in children or teens.

The researchers estimated there will be an extra 2,000 excess breast cancers just from CT scans done in 2007.

UNNEEDED TESTS

Redberg, who wrote a commentary on the studies, said U.S. doctors' enthusiasm for the tests has led to an explosion in their use that is putting patients at risk.

"While certainly some of the scans are incredibly important and life saving, it is also certain that some of them were not necessary," Redberg said.

In a separate study, Dr. Rebecca Smith-Bindman of the University of California, San Francisco, and colleagues analyzed data from 1,119 patients undergoing the 11 most common types of diagnostic CT scans at four institutions in 2008.

They found radiation dosage varied widely between different types of CT studies, from a median or midpoint of 2 millisieverts for a routine head CT scan to 31 millisieverts for a scan of the abdomen and pelvis, which often involves taking multiple images of the same organ.

By comparison, the average American is exposed to about 3 millisieverts of radiation a year from ground radon or flying in an airplane -- a level not considered a risk to health.

The researchers said efforts need to be taken to minimize CT radiation exposure, including reducing the number of unnecessary tests, cutting the dose per study, and standardizing the doses across facilities.

Imaging equipment makers such as GE Healthcare, Siemens, Philips and Toshiba Medical Systems are working to develop low-dose CT scanners.

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Autism Is ON The Rise

Almost one percent of American children had an autism spectrum disorder (ASD) in a large CDC surveillance study whose lead author called the condition a "significant public health issue."

Across 11 sites in the U.S., ASD prevalence in 2006 ranged from about one out of 80 children to one out of every 240 children, with an overall prevalence of one in 111 youngsters, according to a report by investigators from the CDC's Autism and Developmental Disorders Monitoring (ADDM) Network.

They reported their findings in the Dec. 18 Morbidity and Mortality Weekly Report.

"These new numbers are concerning and indicate that even more individuals, families, and communities are struggling to find answers," said lead author Catherine Rice, PhD, of the National Center on Birth Defects and Developmental Disabilities, during a conference call with reporters.

The overall estimate is slightly lower than that from a study using data from the 2007 National Survey of Children's Health -- one in every 91 children -- that was published in October. (See Wider Net Catches More Cases of Autism Disorders)

However, among 10 ADDM sites that reported data in both 2002 and 2006, there was an average 57% increase in ASD prevalence. No single factor could explain the rise, researchers said.

Overall ASD prevalence was 4.5 times higher in boys than in girls: about one in every 70 boys and one in every 315 girls.

From 2002 to 2006, prevalence increased 60% in boys and 48% in girls (P<0.001 for both).

"Some of the increases are due to better detection, particularly among children who may not have come to attention in the past, including girls, Hispanic children, and children without cognitive impairment," Rice said.

"However, a simple explanation is not apparent and a true increase in risk cannot be ruled out."

Janet Farmer, PhD, of the Thompson Center for Autism and Neuro-developmental Disorders at the University of Missouri in Columbia, said that, taken together, the current findings and those presented in October" add substantially to the body of evidence that the prevalence of autism is increasing."

The American Academy of Pediatrics has recommended that all children be screened for autism when they are 18 and 24 months old.

These findings should reinforce that guidance, according to Shlomo Shinnar, MD, PhD, of Albert Einstein College of Medicine in New York.

This is "especially important, as early recognition and treatment improves outcomes," he wrote in an e-mail.

In a statement on its Web site, the advocacy group Autism Speaks placed the burden of dealing with ASDs on the federal government, calling for enhanced efforts and increased funding.

"Now that the government has confirmed that one percent of American children have autism, the question becomes what it will take to get our elected leaders to wake up and take on this crisis in an appropriate way," said Bob Wright, co-founder of the organization.

"We need meaningful action now that acknowledges the scope of this problem and allocates the resources necessary to take the fight against autism to a new level," he said.

In a teleconference reporting the October findings, Tom Insel, MD, director of the National Institute of Mental Health, said President Barack Obama has proposed an increase in funding for autism research from $42 million this year to $48 million next year.

In 2006, the ADDM Network collected data from 11 areas of the U.S., including parts of Alabama, Arizona, Colorado, Florida, Georgia, Maryland, Missouri, North Carolina, Pennsylvania, South Carolina, and Wisconsin.

Health and education records were retrospectively reviewed to identify children with ASD, including autistic disorder, pervasive developmental disorder not otherwise specified, and Asperger disorder. Only 8-year-olds were analyzed because previous studies have shown most children have been diagnosed by this age.

In 2006, ASD prevalence ranged from 4.2 per 1,000 children in Florida to 12.1 per 1,000 children in Arizona and Missouri.

All sites but Florida contributed data to the 2002 assessment. Among these sites, all but Colorado reported a significant increase in ASD prevalence ranging from 34% to 95% (P<0.01).

ASD diagnosis was made at a slightly younger age in 2006 than in 2002, but it was still delayed to an average age of 53 months. That was so despite the fact that anywhere from 70% to 95% of children had developmental concerns noted in their records before age 3.

ASD was more prevalent among non-Hispanic whites (9.9 per 1,000) than among non-Hispanic blacks (7.2) and Hispanics (5.9) (P<0.001).

Susan Hyman, MD, an expert in developmental disabilities at the University of Rochester in New York, said these are "important data for public health officials examining etiologic associations, educational services planning to meet the needs of the students they serve, and social service organizations who need to plan for adolescents and adults who will ultimately transition out of the educational system."

Responding to the report, Lisa Ackerman, executive director of the advocacy group Talk About Curing Autism (TACA), said in a statement that the group "strongly believes that we have a national epidemic on our hands that is not being adequately addressed."

The rapidity of the increase, the organization said, points to an environmental cause for the disorders.

"Therefore," the statement read, "we need to explore and research the environmental triggers that are affecting our children at approximately the same time in their lives -- regardless of race and ethnicity."

Rice said, "The CDC considers ASDs to be a significant public health issue. Increased concern in communities, continued demand for services, and increasing estimates of ASD prevalence underscore the need for a coordinated and strong response to improve the lives of people with ASDs"

According to Dr. Robert O. Young, Director of Research at the pH Miracle Living Center, "ASD is the result of many different acidic contributors, including vaccinations, antibiotics and acidic foods and drinks. I have found great success in the prevention and reversal of ASD's with an alkaline lifestyle and diet. When children with ASD clear their bowels their brains clear as well. I have also found in all children with ASD low sodium levels and congestion and/or damage to the small and large intestine. The focal point of reversing ASD must be a holistic approach with a focus on healing the small bowel which in turn will calm the brain."

Primary source: Morbidity and Mortality Weekly Report
Source reference:
Rice C, et al "Prevalence of autism spectrum disorders -- autism and developmental disabilities monitoring network, United States, 2006" MMWR 2009; 58: 1-24.

In Love and Healing Light,

Robert O. Young, Ph.D., D.Sc.

Founder of 'THE NEW BIOLOGY' ®
Creator of the 'SCIENCE OF ALKALINE
LIVING'™ for Health.

As someone that looks to improve their
health we are pleased to offer you this
free audio, an excerpt of a powerful two
hour interview with Dr Robert O. Young
and Anthony Robbins. Click the link
below to listen:
http://tinyurl.com/krtfr4

Not part of our healing alkaline
community? Visit our website at:
www.phmiracleliving.com

To learn more about the science of Dr.
Robert and Shelley Young go to:
www.articlesofhealth.blogspot.com

'Miracles happen not in opposition to
nature, but in opposition to what we
know of nature.' St. Augustine

'Any sufficiently advanced technology is
indistinguishable from magic' Arthur C.
Clarke

'There are only two ways to live your
life. One, is as though there are no
miracles. The other is as though
everything is a miracle.' Albert
Einstein

Connect with us on Facebook and MySpace:

Dr. Robert O. Young:
http://tinyurl.com/noox6d
http://myspace.com/drrobertoyoung

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http://tinyurl.com/n2r5bm

Click the link below to Join the 'pH
Miracle Fan Club':
http://tinyurl.com/lqepz2

pH Miracle Living Center 16390 Dia Del
Sol Valley Center, California 92082 US

© Copyright 2009 - Dr. Robert O. Young
All rights are reserved. Content may be
reproduced, downloaded, disseminated, or
transferred, for single use, or by
nonprofit organizations for educational
purposes, if correct attribution is made
to Dr. Robert O. Young. PLEASE REMOVE
INFORMATION BELOW THIS LINE BEFORE
FORWARDING THIS E-MAIL TO OTHERS.

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Dietary and Metabolic Acids Can Make You Sick, Tried and Depressed

Although more men may be saved from dying of prostate cancer due to advances in screening and treatment, a new study suggests that emotional stress (which causes an increase of metabolic acid in the blood and then tissues) from being diagnosed with the disease carries deadly risks. A study of more than four million Swedish men over the age of 30 found that the diagnosis of prostate cancer, which occurred in more than 168,000 of them during the study period, amplified the risk of fatal heart problems and suicide.

In men who were diagnosed before 1987, the risk of a fatal heart attack during the week following diagnosis increased 11-fold, and the risk of suicide increased 800 percent. After 1987, the risks of suffering a non-fatal heart attack during the first week of diagnosis fell to 300 percent. But the risk of suicide, although small, held steady. During the year following diagnosis, the risk of both heart attacks and suicide diminished but did not disappear.

"The risks are highest during the first week after diagnosis and young men seem to be most vulnerable," the authors said in a statement, noting that men 54 years of age and under were the most vulnerable. "These unrecognized consequences of a prostate cancer diagnosis deserve the attention of health professionals to the increasing number of men that are diagnosed with this disease."

"Stress can be an important trigger for physiologic reactions, including increased risk of cardiovascular disease," Dr. Meir Stampfer, professor of nutrition and epidemiology at the Harvard School of Public Health, told ABC News. "The diagnosis of cancer also can cause high enough stress to see a noticeable increase in both heart disease and suicide."

According to Dr. Robert O. Young, Director of the pH Miracle Center, "emotional stress requires energy and the consumption of energy leaves acidic residues that can make you sick, tired, and depressed."

One in six American men will develop a cancerous prostate at some point during his lifetime.

According to Dr. Robert O. Young, "a cancerous prostate is not only preventable with an alkalizing lifestyle and diet but is also reversible with the same pH Miracle Plan. Once you understand that cancer is caused by dietary and/or metabolic acid then you can prevent a cancerous condition by maintaining the alkaline design of the body."


In Love and Healing Light,

Robert O. Young, Ph.D., D.Sc.

Founder of 'THE NEW BIOLOGY' ®
Creator of the 'SCIENCE OF ALKALINE
LIVING'™ for Health.

As someone that looks to improve their
health we are pleased to offer you this
free audio, an excerpt of a powerful two
hour interview with Dr Robert O. Young
and Anthony Robbins. Click the link
below to listen:
http://tinyurl.com/krtfr4

Not part of our healing alkaline
community? Visit our website at:
www.phmiracleliving.com

To learn more about the science of Dr.
Robert and Shelley Young go to:
www.articlesofhealth.blogspot.com

'Miracles happen not in opposition to
nature, but in opposition to what we
know of nature.' St. Augustine

'Any sufficiently advanced technology is
indistinguishable from magic' Arthur C.
Clarke

'There are only two ways to live your
life. One, is as though there are no
miracles. The other is as though
everything is a miracle.' Albert
Einstein

Connect with us on Facebook and MySpace:

Dr. Robert O. Young:
http://tinyurl.com/noox6d
http://myspace.com/drrobertoyoung

Shelley Young:
http://tinyurl.com/n2r5bm

Click the link below to Join the 'pH
Miracle Fan Club':
http://tinyurl.com/lqepz2

pH Miracle Living Center 16390 Dia Del
Sol Valley Center, California 92082 US

© Copyright 2009 - Dr. Robert O. Young
All rights are reserved. Content may be
reproduced, downloaded, disseminated, or
transferred, for single use, or by
nonprofit organizations for educational
purposes, if correct attribution is made
to Dr. Robert O. Young. PLEASE REMOVE
INFORMATION BELOW THIS LINE BEFORE
FORWARDING THIS E-MAIL TO OTHERS.

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The Dirty Little Secret of the Diet-Heart Hypothesis

The diet-heart hypothesis is the idea that saturated fat, and in some versions cholesterol, raises blood cholesterol and contributes to the risk of having a heart attack. To test this hypothesis, scientists have been studying the relationship between saturated fat consumption and heart attack risk for more than half a century. To judge by the grave pronouncements of our most visible experts, you would think these studies had found an association between the two. It turns out, they haven't.

The fact is, the vast majority of high-quality observational studies have found no connection whatsoever between saturated fat consumption and heart attack risk. The scientific literature contains dozens of these studies, so let's narrow the field to prospective studies only, because they are considered the most reliable. In this study design, investigators find a group of initially healthy people, record information about them (in this case what they eat), and watch who gets sick over the years.

A Sampling of Unsupportive Studies

Here are references to ten high-impact prospective studies, spanning half a century, showing no association between saturated fat consumption and heart attack risk. Ignore the squirming about saturated-to-polyunsaturated ratios, Keys/Hegsted scores, etc. What we're concerned with is the straightforward question: do people who eat more saturated fat have more heart attacks? Many of these papers allow free access to the full text, so have a look for yourselves if you want:

A Longitudinal Study of Coronary Heart Disease. Circulation. 1963.

Diet and Heart: a Postscript. British Medical Journal. 1977. Saturated fat was unrelated to heart attack risk, but fiber was protective.

Dietary Intake and the Risk of Coronary Heart Disease in Japanese Men Living in Hawaii. American Journal of Clinical Nutrition. 1978.

Relationship of Dietary Intake to Subsequent Coronary Heart Disease Incidence: the Puerto Rico Heart Health Program. American Journal of Clinical Nutrition. 1980.

Diet, Serum Cholesterol, and Death From Coronary Heart Disease: The Western Electric Study. New England Journal of Medicine. 1981.

Diet and 20-year Mortality in Two Rural Population Groups of Middle-Aged Men in Italy. American Journal of Clinical Nutrition. 1989. Men who died of CHD ate significantly less saturated fat than men who didn't.

Diet and Incident Ischaemic Heart Disease: the Caerphilly Study. British Journal of Nutrition. 1993. They measured animal fat intake rather than saturated fat in this study.

Dietary Fat and Risk of Coronary Heart Disease in Men: Cohort Follow-up Study in the United States. British Medical Journal. 1996. This is the massive Physicians Health Study. Don't let the abstract fool you! Scroll down to table 2 and see for yourself that the association between saturated fat intake and heart attack risk disappears after adjustment for several factors including family history of heart attack, smoking and fiber intake. That's because, as in most modern studies, people who eat steak are also more likely to smoke, avoid vegetables, eat fast food, etc.

Dietary Fat Intake and the Risk of Coronary Heart Disease in Women. New England Journal of Medicine. 1997. From the massive Nurse's Health study. This one fooled me for a long time because the abstract is misleading. It claims that saturated fat was associated with heart attack risk. However, the association disappeared without a trace when they adjusted for monounsaturated and polyunsaturated fat intake. Have a look at table 3.

Dietary Fat Intake and Early Mortality Patterns-- Data from the Malmo Diet and Cancer Study. Journal of Internal Medicine. 2005.
I just listed 10 prospective studies published in top peer-reviewed journals that found no association between saturated fat and heart disease risk. This is less than half of the prospective studies that have come to the same conclusion, representing by far the majority of studies to date. If saturated fat is anywhere near as harmful as we're told, why are its effects essentially undetectable in the best studies we can muster?

Studies that Support the Diet-Heart Hypothesis

To be fair, there have been a few that have found an association between saturated fat consumption and heart attack risk. Here's a list of all four that I'm aware of, with comments:

Ten-year Incidence of Coronary Heart Disease in the Honolulu Heart Program: relationship to nutrient intake. American Journal of Epidemiology. 1984. "Men who developed coronary heart disease also had a higher mean intake of percentage of calories from protein, fat, saturated fatty acids, and polyunsaturated fatty acids than men who remained free of coronary heart disease." The difference in saturated fat intake between people who had heart attacks and those who didn't, although statistically significant, was minuscule.

Diet and 20-Year Mortality From Coronary Heart Disease: the Ireland-Boston Diet-Heart Study. New England Journal of Medicine. 1985. "Overall, these results tend to support the hypothesis that diet is related, albeit weakly, to the development of coronary heart disease."

Relationship Between Dietary Intake and Coronary Heart Disease Mortality: Lipid Research Clinics Prevalence Follow-up Study. Journal of Clinical Epidemiology. 1996. "...increasing percentages of energy intake as total fat (RR 1.04, 95% CI = 1.01 – 1.08), saturated fat (RR 1.11, CI = 1.04 – 1.18), and monounsaturated fat (RR 1.08, CI = 1.01 – 1.16) were significant risk factors for CHD mortality among 30 to 59 year olds... None of the dietary components were significantly associated with CHD mortality among those aged 60–79 years." Note that the associations were very small, also included monounsaturated fat (like in olive oil), and only applied to the age group with the lower risk of heart attack.

The Combination of High Fruit and Vegetable and Low Saturated Fat Intakes is More Protective Against Mortality in Aging Men than is Either Alone. Journal of Nutrition. 2005. Higher saturated fat intake was associated with a higher risk of heart attack; fiber was strongly protective.

The Review Papers

Over 25 high-quality studies conducted, and only 4 support the diet-heart hypothesis. If this substance is truly so fearsome, why don't people who eat more of it have more heart attacks? In case you're concerned that I'm cherry-picking studies that conform to my beliefs, here are links to review papers on the same data that have reached the same conclusion:

The Questionable Role of Saturated and Polyunsaturated Fatty Acids in Cardiovascular Disease. Journal of Clinical Epidemiology. 1998. Dr. Uffe Ravnskov systematically demolishes the diet-heart hypothesis simply by collecting all the relevant studies and summarizing their findings.

A Systematic Review of the Evidence Supporting a Causal Link Between Dietary Factors and Coronary Heart Disease. Archives of Internal Medicine. 2009. "Insufficient evidence (less than or equal to 2 criteria) of association is present for intake of supplementary vitamin E and ascorbic acid (vitamin C); saturated and polyunsaturated fatty acids; total fat; alpha-linolenic acid; meat; eggs; and milk" They analyzed prospective studies representing over 160,000 patients from 11 studies meeting their rigorous inclusion criteria, and found no association whatsoever between saturated fat consumption and heart attack risk.

Where's the Disconnect?

The first part of the diet-heart hypothesis states that dietary saturated fat raises the cholesterol/LDL concentration of the blood. This is held as established fact in the mainstream understanding of nutrition. The second part states that increased blood cholesterol/LDL increases the risk of having a heart attack. What part of this is incorrect?

There's definitely an association between blood cholesterol/LDL level and heart attack risk in certain populations, including Americans. MRFIT, among other studies, showed this definitively, although the lowest risk of all-cause mortality was at an average level of cholesterol. The association between blood cholesterol and heart attack risk does not apply to Japanese populations, as pointed out repeatedly by Dr. Harumi Okuyama. This seems to be generally true of groups that consume a lot of seafood.

So we're left with the first premise: that saturated fat increases blood cholesterol/LDL. This turns out to be largely a short-term effect. In fact, it isn't even true in animal models of heart disease if you exclude those that use large doses of dietary cholesterol. In the 1950s, the most vigorous proponent of the diet-heart hypothesis, Dr. Ancel Keys, created a formula designed to predict changes in blood cholesterol based on the consumption of dietary saturated and polyunsaturated fats. This formula does not have a very good predictive value in long-term controlled trials and its use in the modern medical literature is declining.

This is it, folks: the diet-heart hypothesis ends here. It's been kept afloat for decades by wishful thinking and selective citation of the evidence. It's time to put it out of its misery.

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Acid reflux is in the news again

Acid reflux has been in the news again. A few years back I used to wake in the night with a terrible burning sensation at the back of my throat. It used to make me cough and feel nauseated.

My GP sent me for a procedure at hospital known as Endoscopy. This is when a small flexible tube is sent down via your esophagus into your stomach to see what the problem is. In my case it was a stomach ulcer, which can be treated with this hospital procedure followed by some medication, and everything was then fine.

If anyone is about to have this procedure and your are worried or anxious about it please let me know, as I can reassure you that there is no need to worry.

So what can you do from a natural point of view to help acid reflux?
If you want to eliminate acid reflux, start eating more food that has living enzymes. Eat organic, fresh, raw fruits and vegetables.

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The pH Miracle for Reversing Stuttering

An unsolicited testimony from Angie Johnson Roach on The pH Miracle

My son began stuttering when he was 4 years old. We did every kind of therapy possible when in school and professionally and he seem to struggle more. In his early teens I started to Question his food choices. We tried him on more of a diabetic type diet, and saw improvement. Then we where introduced to the idea of Dr. Youngs alkaliaztion and "... See MoreSuper Greens". His fluency went from 35% to 100% with staying power in just a short time. If he eats cold cereal for breakfast, to many carbs and sweets. It's out the window. This has been almost 8-9 years ago. He's in College now and doing great. Stuttering is so rare, Good food choices, good Vitamins, especially B's and the good Omega Oils, both help with stress. I hope this can help someone today! Thanks to the Youngs we can make better choices. God bless you and Merry christmas!

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Eating Meat, Algae, and Mushrooms Will Kill You!

In this second part of my interview with Dr. Robert Young on You Tube, he talks about the consumption of mushrooms, algaes and meat and what it can to to your health.

Watch, listen and learn from Dr. Young at:

http://www.youtube.com/watch?v=sRhCVUFbNTM&feature=channel

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Dr. Young Explains The Importance of Testing Urine pH

In this first installment on You Tube, Dr. Robert Young explains how you should test your pH and what levels your urine, saliva and blood should be.

Watch, listen and learn from Dr. Young at:

http://www.youtube.com/watch?v=UKP351Lcank&feature=channel

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Reversing Autism With The pH Miracle Lifestyle and Diet

The following is another unsolicited pH Miracle Testimony on reversing Autism from Tony Paterniti:

Our 21-year-old, severely autistic daughter (low-functioning) met Dr. Young last night. He spent some time connecting with her, looked at her blood, and sorted out the extreme crisis she had been going through for the past week - thrashing wildly about in apparent pain, with loud vocalizations and no sleep for a full week.

We applied his immediate suggestions, and by the time we got home at around 10 p.m. (the meeting was some distance from our home), she was quiet and still. Heading up to bed an hour later, we could see the exhaustion of the past week finally descending upon her, looking for rejuvenation - and knowing she would find it.

Elena slept peacefully through the night. By morning, it was clear that the serious gut issues Dr. Young had tuned in on had been cleared - at least for the moment. Clearly, we are now on a path with Elena that can only lead to more good, more health and greater well-being.

And for this, we feel extremely grateful and happy.

Blessings on you and on your assistants, Dr. Young - Especially during Elena's time of extreme crisis, you were - and are - a godsend.

Tony & Ziek Paterniti

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Our Doctor Told Us There Was No Cure For Autism!

The following is an unsolicited pH Miracle testimony for Autism. I hope you will share this incredible story with everyone you know, love and care about.

In love and healing,

Dr. Robert O. Young

================================================================

Dear Dr. Robert Young

We would like to share a pH Miracle with you.

We have a son born 06.06.06. Until he got his first vaccination, about three months old, he was a very happy, peaceful boy ,who smiled a lot and slept thewhole night from the day he was born.
From the moment of vaccination his life changed in a dramatic way. Ten minutes later he had very high fever and thenthe game was on. He got ear infection right away, and they started to give him penicillin. The next 2 years, he was always sick. A runny nose and a high fever all the time. Some days were without fever, but always a runny nose. We decided as parents not to give him any more vaccinations after the first ones. Around that time we start to noticed that he was slow to develop, and he did not start to walk until he was 16 months old. He was always weak in his upper body and powerless in his arms. He had diarrhea many times.

About three months ago he was diagnosed with Autism. And the doctor told us, that there was very little we could do. Perhaps with a lot of practice and speech therapy we would be able to make his life more easy for him. He said there is no cure for Autism.

At this time our son could not say a single word. He had a lackof understanding when we talked to him. He did not follow instructions. For example, he did not mind staying alone in a dark room (by his own choosing). He did not mind other children, and did not participate in games with other children.He seemed to be alone inside him self.

We did not want to believe that there was nothing that we could do to heal him.

So than we started to search for information about Autism, in any way we could, on the Internet, by books etc.

We had some knowledge and interest about nutrition and physical condition. The pH of food was one of the things we had been looking in to.

We made a decision that it would probably be best to start him on a pH Miracle Diet. His Mother, Helga, made the decision to start to change her diet two weeks prior, sothat she could be able to guide the rest of the family through cravings and those things that include changing the diet of the whole family.

We took a roll of garbage bags and took every acidic food and drink from the kitchen that would be harmful to our body's. We took foods that included gluten, sugar, yeast, allprocessed food, bad oils and fats, dairy products, and fermented soy products. As you can imagine, there was almost nothing left, and Hlynur (the husband) began to worry, and said,"we were going to starve to death :-)."

Today, Helga, is giving our son alkalizing vegetables, and is using many methods and to do that. We love our new super alkalizing pH Miracle food.
After three weeks, on the new pH Miracle diet, our autistic son was able to assemble 2-3 words in a sentence. He started to follow instructions and he started to understand what wewere talking about. The diarrhea also stopped.

Today, 2 1/2 months later, he tries to say everything that we ask him to say. He participates in games with other children and he seeks for them to play with him. He goes to sleep by himself and says goodnight. He has started to try tosing along with songs. He looks into our eyes and finally he is present.

There are so many things that we could share about our son's pH miracle transformation.
People in kindergarten, friends and family are amazed of our son's pH Miracle changes he has shown for this short period of time. Last but not least, Helga has lost over 20 pounds in the same time :-)

We have attached two photos of our son. The one with the dolphin was shot before the transformation, and the other was shot today eating a cucumber.

Best regards,

Helga and Hlynur

Iceland

Mobile 00354-6154070 and 00354-6158910

Skype: gudrunoghlynur

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Butyric Acid: an Ancient Controller of Metabolism, Inflammation and Stress Resistance

An Interesting Finding

Susceptible strains of rodents fed high-fat diets overeat, gain fat and become profoundly insulin resistant. Dr. Jianping Ye's group recently published a paper showing that the harmful metabolic effects of a high-fat diet (lard and soybean oil) on mice can be prevented, and even reversed, using a short-chain saturated fatty acid called butyric acid (hereafter, butyrate). Here's a graph of the percent body fat over time of the two groups:

The butyrate-fed mice remained lean and avoided metabolic problems. Butyrate increased their energy expenditure by increasing body heat production and modestly increasing physical activity. It also massively increased the function of their mitochondria, the tiny power plants of the cell.

Butyrate lowered their blood cholesterol by approximately 25 percent, and their triglycerides by nearly 50 percent. It lowered their fasting insulin by nearly 50 percent, and increased their insulin sensitivity by nearly 300 percent*. The investigators concluded:

Butyrate and its derivatives may have potential application in the prevention and treatment of metabolic syndrome in humans.

There's one caveat, however: the butyrate group at less food. Something about the butyrate treatment caused their food intake to decline after 3 weeks, dropping roughly 20% by 10 weeks. The investigators cleverly tried to hide this by normalizing food intake to body weight, making it look like the food intake of the comparison group was dropping as well (when actually it was staying the same as this group was gaining weight).

I found this study thought-provoking, so I looked into butyrate further.

Butyrate Suppresses Inflammation in the Gut and Other Tissues

In most animals, the highest concentration of butyrate is found in the gut. That's because it's produced by intestinal bacteria from carbohydrate that the host cannot digest, such as cellulose and pectin. Indigestible carbohydrate is the main form of dietary fiber.

It turns out, butyrate has been around in the mammalian gut for so long that the lining of our large intestine has evolved to use it as its primary source of energy. It does more than just feed the bowel, however. It also has potent anti-inflammatory and anti-cancer effects. So much so, that investigators are using oral butyrate supplements and butyrate enemas to treat inflammatory bowel diseases such as Crohn's and ulcerative colitis. Investigators are also suggesting that inflammatory bowel disorders may be caused or exacerbated by a deficiency of butyrate in the first place.

Butyrate, and other short-chain fatty acids produced by gut bacteria**, has a remarkable effect on intestinal permeability. In tissue culture and live rats, short-chain fatty acids cause a large and rapid decrease in intestinal permeability. Butyrate, or dietary fiber, prevents the loss of intestinal premeability in rat models of ulcerative colitis. This shows that short-chain fatty acids, including butyrate, play an important role in the maintenance of gut barrier integrity. Impaired gut barrier integrity is associated with many diseases, including fatty liver, heart failure and autoimmune diseases (thanks to Pedro Bastos for this information-- I'll be covering the topic in more detail later).

Butyrate's role doesn't end in the gut. It's absorbed into the circulation, and may exert effects on the rest of the body as well. In human blood immune cells, butyrate is potently anti-inflammatory***.

Butyrate Increases Resistance to Metabolic and Physical Stress

Certain types of fiber reduce atherosclerosis in animal models, and this effect may be due to butyrate production produced when the fiber is fermented. Fiber intake was associated with lower blood markers of inflammation in the Women's Health Initiative study, and has been repeatedly associated with lower heart attack risk and reduced progression of atherosclerosis in humans. Butyrate also sharply reduces the harmful effects of type 1 diabetes in rats, as does dietary fiber to a lesser extent.

Butyrate increases the function and survival of mice with certain neurodegenerative diseases. Polyglutamine diseases, which are the most common class of genetic neurodegenerative diseases, are delayed in mice treated with butyrate (1, 2, 3). Many of you have probably heard of Huntington's disease, which is the most common of the class. I did my thesis on a polyglutamine disease called SCA7, and this is the first suggestion I've seen that diet may be able to modify its course.

Yet another interesting finding in the first paper I discussed: mice treated with butyrate were more cold-resistant than the comparison group. When they were both placed in a cold room, body temperature dropped quite a bit in the comparison group, while it remained relatively stable in the butyrate group, despite the fact that the butyrate group was leaner****. This was due to increased heat production in the butyrate group.

Due to the potent effect butyrate has on a number of bodily processes, I believe it may be a fundamental controller of metabolism, stress resistance and the immune system in mammals, similar to omega-6:3 balance.

An Ancient Line of Communication Between Symbiotic Organisms

Why does butyrate have so much control over inflammation? Let's think about where it comes from. Bacteria in the gut produce it. It's a source of energy, so our bodies take it up readily. It's one of the main molecules that passes from the symbiotic (helpful) bacteria in the gut to the rest of the body. It's only logical that the body would receive butyrate as a signal that there's a thriving colony of symbiotic bacteria in the gut, and induce a tolerance to them. The body may alter its immune response (inflammation) in order to permit a mutually beneficial relationship between itself and its symbionts.

A Change of Heart

Butyrate has caused me to re-think my position on fiber-- which was formerly that it's irrelevant at best. I felt that fiber came along with nutrient-dense whole plant foods, but was not beneficial per se. I believed that the associations between fiber intake and a lower risk of a number of diseases were probably due to the fact that wealthier, more educated, healthier people tend to buy more whole grains, fruit and vegetables. In other words, I believed that fiber intake was associated with better health, but did not contribute to it. I now feel, based on further reading about fiber and short-chain fatty acids like butyrate, that the associations represent a true cause-and-effect relationship.

I also didn't fully appreciate the caloric contribution of fiber to the human diet. In industrialized countries, fiber may contribute 5 to 10 percent of total calorie intake, due to its conversion to short-chain fatty acids like butyrate in the large intestine (free full text). This figure is probably at least twice as high in cultures consuming high-fiber diets. It's interesting to think that "high-carbohydrate" cultures may be getting easily 15 percent of their calories from short-chain fats. Since that isn't recorded in dietary surveys, they may appear more dependent on carbohydrate than they actually are. The Kitavans may be getting more than 30 percent of their total calories from fat, despite the fact that their food is only 21 percent fat when it passes their lips. Their calorie intake may be underestimated as well.

Sources of Butyrate

There are two main ways to get butyrate and other short-chain fatty acids. The first is to eat fiber and let your intestinal bacteria do the rest. Whole plant foods such as sweet potatoes, properly prepared whole grains, beans, vegetables, fruit and nuts are good sources of fiber. Refined foods such as white flour, white rice and sugar are very low in fiber. Clinical trials have shown that increasing dietary fiber increases butyrate production, and decreasing fiber decreases it (free full text).

Butyrate also occurs in significant amounts in food. What foods contain butyrate? Hmm, I wonder where the name BUTYR-ate came from? Butter perhaps? Butter is 3-4 percent butyrate, the richest known source. But everyone knows butter is bad for you, right?

After thinking about it, I've decided that butyrate must have been a principal component of Dr. Weston Price's legendary butter oil. Price used this oil in conjunction with high-vitamin cod liver oil to heal tooth decay and a number of other ailments in his patients. The method he used to produce it would have concentrated fats with a low melting temperature, including butyrate, in addition to vitamin K2*****. Thus, the combination of high-vitamin cod liver oil and butter oil would have provided a potent cocktail of fat-soluble vitamins (A, D3, K2), omega-3 fatty acids and butyrate. It's no wonder it was so effective in his patients.


* According to insulin tolerance test.

** Acetate (acetic acid, the main acid in vinegar), propionate and butyrate are the primary three fatty acids produced by intestinal fermentation.

*** The lowest concentration used in this study, 30 micromolar, is probably higher than the concentration in peripheral serum under normal circumstances. Human serum butyrate is in the range of 4 micromolar in British adults, and 29 micromolar in the hepatic portal vein which brings fats from the digestive tract to the liver (ref). This would likely be at least two-fold higher in populations eating high-fiber diets.

**** Due to higher mitochondrial density in brown fat and more mitochondrial uncoupling.

***** Slow crystallization, which selectively concentrates triglycerides with a low melting point.

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More natural cures for disease

Turmeric (Curcuma Longa) is a natural healing spice traditionally used by both Indian and Chinese systems of medicine to treat inflammations and cure sprains. It contains a yellow pigment curcumin, an active ingredient that has been used for centuries.

The curcuminoids in Turmeric are a group of phenolic acids that have been found to have unique antioxidant and anti-inflammatory properties. They retard age-related diseases by preventing free radical damage, inhibit the growth of cancer cells, protect the Liver from toxins, help to dissolve gallstones, and alleviate joint swelling.

Studies with HIV patients have shown that turmaric also has a beneficial effect in the treatment of AIDS.






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Exercise May Prevent or Reverse Cancer

There is an increasing body of research evidence to suggest that many cases of cancer can be prevented through an alkaline lifestyle and diet. Indeed, even conservative estimates suggest that more than 60 percent of new cancer cases could be prevented simply by abstaining from unhealthy acidic lifestyle and dietary habits.

(I have suggested that 98 percent of all cancerous conditions are preventable with rigorous alkaline lifestyle and diet changes.)

Given that, in the best case, modern cancer treatments result in the long-term survival of only about 10 percent of all cancer patients, and that the survival rate for many of the most lethal cancers still remains far more dismal, an ounce of cancer prevention is certainly worth much more than a pound of so-called cancer cure. (This simple yet profound realization is the central theme of The pH Miracle for Cancer CD's.

http://www.phmiracleliving.com/p-253-the-ph-miracle-for-cancer.aspx

While not every case of cancer can be reversed through and alkaline lifestyle and diet regime, many of the terrible, and ultimately fatal, cancer cases might have been prevented with reasonably moderate alkaline alterations in the way that people choose to live their daily lives.

Prostate cancer is the most common non-skin cancer that occurs in men, and the second most common cause of cancer death in men. In 2009, an estimated 192,000 new cases of prostate cancer will be diagnosed, and approximately 27,000 men will die of this acidic dis-ease. Prostate cancer currently afflicts 1 out of every 6 American men, and accounts for 25 percent of all cancer diagnoses in men (similar, I might add, to the percentage of breast cancer cases among all cancer cases diagnosed in women). Most prostate cancers are stimulated by the hormone acids testosterone and other androgens produced by the testes, and by other tissues in the body.

The relationship between prostate cancer risk and exercise has not been entirely clear, thus far, as various clinical studies have produced contradictory findings. Some of these studies have suggested that high levels of daily physical activity may reduce the risk of prostate cancer, while other studies have not confirmed a link between prostate cancer risk and physical activity levels.

A new prospective public health study, just published in the British Journal of Cancer, adds further important evidence that increased levels of physical activity may indeed reduce the risk of developing prostate cancer. In this newly published study, nearly 46,000 men between the ages of 45 and 70 years were prospectively followed between 1998 and 2007. All of these male volunteers completed extensive questionnaires regarding their daily levels of physical activities at 30 years of age and at 50 years of age, as well as at the time or their entry into this clinical study.

These questionnaires specifically included questions regarding walking or bicycling; current waist, hip and height measurements; education level; cigarette smoking; alcohol consumption; diabetes; family history of prostate cancer; and other lifestyle factors. Six predefined activity levels for occupational activity (from “mostly sitting down” to “heavy manual labor”), and additional predefined categories for time spent on different activities, were specifically included in the questionnaire, such as walking or bicycling (“hardly ever” to “more than 90 min per day”), home or household work (“less than 1 hour per day” to “more than 8 hours per day”), inactive leisure time (“from 2 hours per day or less” to “5 hours per day or more”), and active leisure-time exercising (“from less than 1 hour per week” to “more than 5 hours per week”). The patient volunteers were also queried regarding the average number of hours per day they spent sleeping.

When the men who engaged in physical activity at the highest levels were compared with those at the lowest levels, some very important differences in prostate cancer risk emerged. Overall, very high levels of physical activity were associated with a 16 percent reduction in the risk of developing prostate cancer.

Why? Because exercise removes dietary and/or metabolic acids out of the tissues. And, keep in mind that acid is the cause for all cancerous conditions.

Additionally, among the men who spent at least half of their work days being physically active, the risk of prostate cancer was 20 percent lower when compared to men who spent most of their work day sitting down. Specifically, and very importantly, there appeared to be a linear and progressive decrease in prostate cancer risk with each additional 30 minutes of walking or bicycling per day over the course of the adult lifetimes of these men (this linear relationship was noted within a range of 30 to 120 minutes of walking or bicycling per day). Additionally, the risk of developing advanced prostate cancer appeared to be further lessened by regular daily physical activity which once again removes the acid that will cause cancer.

Cardiovascular disease remains the most common cause of premature death in most societies. Cancer is the No. 2 cause of premature death when including people of all ages, and the No. 1 cause of premature death below the age of 80 in the United States. Regular exercise, including relatively moderate activities such as brisk walking or bicycling, have been shown to significantly reduce the risk of death due to cardiovascular disease, as well as, increasingly, the risk of developing or dying from multiple different types of cancer. Based upon the results of this well-designed and well-executed prospective clinical research study, it would appear that prostate cancer can be added to the list of life-threatening illnesses for which the risk can be decreased through regular and frequent physical activity (and both at work and at home).

To learn more about low and no-impact alkalizing exercise go to:

http://www.phmiracleliving.com/p-304-vibraphirm.aspx
http://www.phmiracleliving.com/p-357-rebounder-with-bar.aspx

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Malocclusion: Disease of Civilization, Part IX

A Summary

For those who didn't want to wade through the entire nerd safari, I offer a simple summary.

Our ancestors had straight teeth, and their wisdom teeth came in without any problem. The same continues to be true of a few non-industrial cultures today, but it's becoming rare. Wild animals also rarely suffer from orthodontic problems.

Today, the majority of people in the US and other affluent nations have some type of malocclusion, whether it's crooked teeth, overbite, open bite or a number of other possibilities.

There are three main factors that I believe contribute to malocclusion in modern societies:

1. Maternal nutrition during the first trimester of pregnancy. Vitamin K2, found in organs, pastured dairy and eggs, is particularly important. We may also make small amounts from the K1 found in green vegetables.
2. Sucking habits from birth to age four. Breast feeding protects against malocclusion. Bottle feeding, pacifiers and finger sucking probably increase the risk of malocclusion. Cup feeding and orthodontic pacifiers are probably acceptable alternatives.
3. Food toughness. The jaws probably require stress from tough food to develop correctly. This can contribute to the widening of the dental arch until roughly age 17. Beef jerky, raw vegetables, raw fruit, tough cuts of meat and nuts are all good ways to exercise the jaws.
   

And now, an example from the dental literature to motivate you. In 1976, Dr. H. L. Eirew published an interesting paper in the British Dental Journal. He took two 12-year old identical twins, with identical class I malocclusions (crowded incisors), and gave them two different orthodontic treatments. Here's a picture of both girls before the treatment:


In one, he made more space in her jaws by extracting teeth. In the other, he put in an apparatus that broadened her dental arch, which roughly mimics the natural process of arch growth during childhood and adolescence. This had profound effects on the girls' subsequent occlusion and facial structure:

The girl on the left had teeth extracted, while the girl on the right had her arch broadened. Under ideal circumstances, this is what should happen naturally during development. Notice any differences?

Thanks to the Weston A Price foundation's recent newsletter for the study reference.

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