http://www.jonbarron.org/natural-health/vitamin-e-prostate-cancer-study?utm_source=iContact&utm_medium=email&utm_campaign=Jon%20Barron&utm_content=
Well here's the catch.
The vitamin E they're using is dl-alpha-tocopherol -- the synthetic isolate form of vitamin E, the least effective form possible.
On the other hand, the selenium they're using is l-selenomethionine, which is an organic, highly useable form of selenium. The study gets points for that.
But based on the forms of antioxidants being used, the results of the study are highly predictable even before it starts.
Selenium helps
Vitamin E does not
There is little synergistic effect from the use of selenium and Vitamin E together.
There you go. At great savings to the American taxpayer, I've just given you the erroneous results that will be documented 13 years from now. What a waste!!
Well, here it is seven and a half years later (the study finished early), and except for the results on selenium by itself, the analysis was spot on. And as for selenium, the result doesn't necessarily mean what the study says it does, but we'll have to save that discussion for another time.
For now, though, does that make me some kind of seer for predicting these results so accurately so many years ago? Hardly! Everyone with a basic understanding of vitamin E was making the same prediction, even if they didn't put it down on paper. But enough of that, let's take a closer look at the details of the study to pick up some of the nuances of its stupidity.
We can begin with a little lesson in the history and chemical makeup of vitamin E.
As the old saying goes, you can't tell the players without a scorecard. So let's take a look at vitamin E and define what we're talking about.
When most people think of vitamin E, they think of alpha-tocopherol -- after all, that's the chemical name listed on your vitamin bottle. But the surprising truth is that vitamin E is not a single substance. It is actually a complex of at least eight compounds. There are four tocopherols and four tocotrienols that are all identified as having vitamin E activity. Specifically, there are:
Although natural health practitioners had been proclaiming the benefits of an unidentified substance in certain oils -- especially wheat germ oil -- for decades, it was not until 1922 that vitamin E was first "discovered," and not until 1936 that tocopherols were actually isolated by researchers. Amazingly, it wasn't until 1968, almost 50 years after first being discovered, that the Food and Nutrition Board of the US National Research Council actually acknowledged that vitamin E is an essential nutrient for humans. As for tocotrienols, they weren't even identified and isolated until 1964, so any discussion of their essentiality was several decades off. But the question at hand is: if vitamin E actually has eight components, how did it come to be defined as just alpha-tocopherol?
As it turns out, alpha-tocopherol is the form of vitamin E that is the most absorbable, the most prevalent, and the most active in the human body.6 Thus, scientists just assumed it was the most important -- thus making it the measure for vitamin E supplementation. Unfortunately:
The bottom line is that back in the early 1900's, scientists didn't know about the importance of all the other components of vitamin E. In the end, they made a logical but incorrect assumption: if alpha-tocopherol is the most prevalent form of vitamin E in the body, it must be the most important component and, therefore, the only one worth measuring. Thus, was born the standard of measuring vitamin E by its alpha-tocopherol content -- which wouldn't necessarily be a problem if it weren't for the economics of manufacturing supplements. Quite simply, it's much cheaper to just add one component to a supplement as opposed to eight. Yes, you could use a complete oil extract of all vitamin E components from a natural oil and just "list" its vitamin E content by measuring the alpha-tocopherol levels, but that would be so much more expensive than using just alpha-tocopherol -- particularly if you could synthesize it from something much less expensive than natural vegetable oils. (And in fact only a small handful of manufacturers cared enough to do it right.)
In any case, thus was born synthetic alpha-tocopherol made from petroleum, turpentine, sugar, and artificial preservatives. Yum!
Natural alpha-tocopherol, as found in foods and naturally sourced supplements, is known as d-alpha-tocopherol (aka RRR-alpha-tocopherol), whereas synthetic alpha-tocopherol, created in a laboratory, is known as dl-alpha-tocopherol (aka all-rac-tocopherol). What's the difference?
Most supplement manufacturers (other than a handful of purists) would tell you there is none. Your doctor would tell you there is none. And most scientists, including the researchers running the SELECT Study, it would seem, would tell you there is none.
But they are wrong! There is a world of difference -- recognized by those scientists who keep up-to-date on vitamin research, as well as anyone who actually understands holistic health.
How can there be such a difference of opinion?
The problem is that both natural and synthetic vitamin E have the same chemical formula: C29H50O2. And that similarity is enough for most scientists and today's FDA. But, in fact, the way those atoms are arranged, although similar, varies between natural and synthetic versions. In truth, there are seven synthetic variations of alpha tocopherol (not one of which can be found in nature), and they are all arranged in various mirror images to the natural form in what is known as stereoisomers.
There are three atoms (or stereocenters) in alpha-tocopherol (known as stereocenters 2,4, and 8) around which other atoms and atom groups can swap positions -- mirroring their previous positions. The eight stereoisomers of alpha-tocopherol are chemically identical, differing only in the arrangement of the atoms grouped around these stereocenters. As you can see from the table below, three stereocenters means that the molecules can arrange themselves in eight variations -- thus the eight stereoisomers.
You read the table from left to right. That means that the all natural form of alpha-tocopherol has all of the atoms or atom groups attached to the three stereo centers in their regular or R position. Or to look at it another way, all natural alpha-tocopherol is designated RRR. All of the other variations are synthetic since at least one stereocenter has shifted an atom group into its mirror position. For example, in synthetic variation 1, the CH3 atom group located at stereocenter 2 has flipped into its mirror position. It's still there, just done a flip to the other side of the stereocenter into its S or stereo position. The atoms at the other two centers are unchanged. Thus synthetic 1 is designated SRR. As long as even one group is in the S position, the molecule is in a synthetic form -- a form that has to be created in the lab, that does not exist in nature.
|
Stereocenter 2 |
Stereocenter 4 |
Stereocenter 8 |
Natural |
R |
R |
R |
Synthetic 1 |
S |
R |
R |
Synthetic 2 |
S |
S |
R |
Synthetic 3 |
S |
R |
S |
Synthetic 4 |
S |
S |
S |
Synthetic 5 |
R |
S |
R |
Synthetic 6 |
R |
R |
S |
Synthetic 7 |
R |
S |
S |
It should be noted that the alpha-tocopherol used in the SELECT Study was identified as "all-racemic alpha-tocopherol acetate," which means it was a mixture of all eight stereoisomers identified above. The important thing to understand about this mixture is that only one alpha-tocopherol molecule in eight is in the natural RRR-alpha-tocopherol form. That's means only 12.5% of the total alpha-tocopherol ingested in the study was in the natural form. 87.5% was synthetic!
But the question is: why should it matter? If the molecules contain the exact same atoms and are virtually identical, other than certain groupings within the molecule being mirror images of each other, what difference does it make? After all, nutrition experts don't seem to care, allowing all variations (synthetic and natural) to be used interchangeably on labels. And in fact, it's impossible to notice any visual difference between the stereoisomers, except through detailed computer modeling…or by observing how polarized light passes through them. And in fact, that's where the "d" and "l" in their names comes into play. D stands for dextrorotation (or right handed rotation) and L stands for levorotation (or left handed rotation). The natural form of alpha-tocopherol (d-alpha) bends polarized light to the right when it passes through the molecule. But all of the synthetic variations (l-alpha) rotate that same light to the left -- in exactly the opposite direction. (dl indicates a blend of natural and synthetic molecules.)
And that should be a major clue -- that if nature treats the synthetic forms very differently, perhaps your body does too.
There is no argument among scientists that actually keep up on the research that the natural d-alpha-tocopherol is more potent gram for gram than the synthetic dl-alpha tocopherol. In fact, many years ago, the natural form was officially recognized by the FDA, the World Health Organization, and the United States Pharmacopoeia as 36% more potent than the synthetic. But even at that, government sources might be understating the issue. A study done out of the Steacie Institute for Molecular Sciences, through the National Research Council of Canada, concluded that natural d-alpha-tocopherol is, in fact, twice as bioavailable as the synthetic.14 Even more suggestive is a study done with pregnant women out of the Eastman Center for Nutrition Research at the James H Quillen College of Medicine (part of East Tennessee State University). Researchers there found that natural d-alpha tocopherol passed through the placentas of the pregnant women to their babies three times more efficiently than did the synthetic.15
But that doesn't even tell the whole story. The FDA allows blended natural/synthetic dl-alpha-tocopherol to be labeled as "Natural E" even though it may contain as little as 5% natural alpha-tocopherol. As a result, oftentimes, even when you think you are buying 100% Natural E, you are not! It very well may be 95% synthetic. 100% natural vitamin E, when you actually get it, may be as much as 500% more effective than the synthetic -- or the misleadingly labeled "natural."
And lest I forget, remember Dr. Thompson's comparison of the vitamin E study to the beta-carotene study that found that beta-carotene actually promoted lung cancer instead of protecting against it? As it turns out, that comparison was far more apt than Dr. Thompson intended. As with the vitamin E study, the researchers again chose to test an isolated synthetic form of the vitamin rather than the natural form in its full complex. Synthetic beta-carotene is made by extracting benzene rings from acetylene gas, and then attaching the benzene rings together to form 100% all-trans-beta-carotene. There is no natural food source in the world that contains 100% all-trans-beta-carotene. Natural beta-carotene, on the other hand, is made of two molecules -- all-trans-beta-carotene and 9-cis-beta-carotene. In sources such as Dunaliella salina, the trans and cis forms of beta carotene are split approximately 50/50.
At one time, studies suggested that synthetic beta carotene actually was absorbed better and worked better than natural forms of beta carotene.16 But subsequent studies in both animals and humans have demonstrated far more conclusively that natural beta carotene provides benefits that the synthetic form cannot match.17 And more to the point, studies have shown that pre-cancerous changes in people reverted to normal tissue with natural beta-carotene supplements, but not with synthetic supplements. As I mentioned, it was this same synthetic form of beta carotene that was used several years ago in a test of smokers that "proved" that "beta carotene" increases your risk of lung cancer.18 And as with the vitamin E study, no mention was made when the results were published that it was the inferior synthetic form of the vitamin precursor that was tested -- not the natural form. And of course, as with natural vitamin E, beta-carotene does not exist in nature in an isolated form. It exists only as part of carotenoid complexes.
Why is this important?
Because, as with alpha-tocopherol, beta-carotene is not the most important of the carotenoids. It's merely the one that government regulators have decided to use in calculating Recommended Daily Intake as a vitamin A precursor. Once again, the FDA and the USDA are several decades behind the times. Studies have shown that alpha-carotene, for example, is more powerful than beta-carotene and has a strong inhibitory effect on the proliferation of various types of cancer cells such as those affecting the lungs, stomach, cervix, breast, bladder and mouth.19 It works by allowing normal cells to send growth-regulating signals to premalignant cells. And for that matter, lycopene, yet another part of the carotenoid complex as it is found in nature, is even more effective than either alpha- or beta-carotene when it comes to inhibiting the proliferation of cancer cells.20 So once again, by using an isolate for testing, the researchers left the most important part of the complex behind -- not to mention reaping the harmful effects of using the synthetic form in the first place.
Truly, Dr. Thompson, your comparison of the two studies was remarkably apt!
Running a study on synthetic vitamin E isolate and then broadcasting the negative results as an indictment of "all" forms of vitamin E -- especially considering that the scientific community has already acknowledged the inferiority of dl-alpha-tocopherol -- is like running a study on the quality of fake Rolex watches and coming to the conclusion, based on that study, that all Rolex watches are junk…and then promoting those results to the gullible world press, desperate for any outrageous headline that can sell papers or boost ratings. It is false logic. It is sophistry. It is bad advice. It is unethical. And it is ultimately dangerous in that it will encourage many people to make a bad health choice when it comes to supplementation with vitamin E.
If you supplement with vitamin E, which is probably a good idea despite the study, make sure you use only the all natural form, and make sure it's a complete vitamin E complex with all four tocopherols and all four tocotrienols. (If the label doesn't specifically say that the supplement contains all eight naturally occurring Vitamin E compounds, then it doesn't. As we've already discussed, when it comes to vitamin E, the word "natural" by itself doesn't mean much.)
If you ever see another study again slamming vitamin E, check first to see if it was done using all natural, full-complex E. If not, you can throw the study in the trash where it belongs.
And if you opt for a multivitamin supplement, make sure you choose one that is food formed, or "grown" -- not packed with synthetics and isolates.