Supplements: Nutrition Science Or Nutrition Crap?

Nutritionists claim they are doing science, consumers buy it, and the supplements industry makes a healthy living from it. Only you probably won't. Here is why: 

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One of the enduring diet questions is whether supplements are a good tool to (a) improve health, and (b) compensate for nutritional deficits of an enjoyable but less than healthy dietary habit.  
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Nano-encapsulated supplements. Ballyhoo or miracle drug?

When humble supplements meet ultra cool nano-technology.

I'm going to continue where I left off in my previous post: With the question:

Does nano-encapsulation improve the effect of multi-vitamin multi-mineral supplements?

When I was confronted with this question my immediate reaction was: What is wrong with old-fashioned natural delivery of vitamins, from eating fruit, and vegetables, and, yeah, eggs and meat and drinking milk, all of which are the natural carriers of vitamins and more? Is this "nano-whatever" just a cool gimmick of an industry pushing a market, which "suffers" from only moderate growth? I admit it, I have a bias.  A bias for evidence. 

And as a health scientist I also have to admit that nano-encapsulation appeared, until now, only on the very fringes of the radar screen with which I observe the thousands of studies published each year on the subject of preventable, lifestyle-dependent chronic diseases. Literally thousands! Now go to PubMed, where the US National Library of Medicine and the National Institute of Health collect and archive all of those millions of studies and papers written on anything related to biomedicine and search for the combination of the terms "nano-encapsulation" and "vitamin" and you will find the stupendous number of ...

10 papers. None of them related to the oral administration of vitamins. That settled my initial fear, that my radar might have had a blind spot. The drawback was, I can't argue the case, for or against the usefulness of nano-encapsulation, based on published evidence. That leaves me no choice than to do what we scientists are supposed to do: to come up with testable hypotheses on subjects of which we have no, or not enough, knowledge. Which is why my answer to Björn's question will admittedly, be a highly subjective one. But then, there is no clear-cut answer anywhere else to get. Beware of the types who claim to have that answer!

Now let's get the technicalities out of the way first. What does nanoencapsulation mean? It simply means to coat one substance with another at sizes ranging from 1 to 1000 nm. The purpose of doing that is to

·       deliver a drug to a specific tissue or site in an organism, where the drug is then released

·       slow down or time the release of a drug. Which is a good way of delivering Insulin via a nasal spray, a very new technique, which has shown some promise in reducing food intake in overweight women.

·       adding certain micro-nutrients, such as omega-3 fatty acids, to foods without altering the foods' textures or tastes, and to prevent degradation of the otherwise volatile micro-nutrient

·       increase the shelf-life of vitamins

·       increase the bioavailability of anti-oxidants and to prevent unwanted reactions with other food items.

There are lots of other uses in the food and cosmetics industry, but they do not concern us here.

What we want to know is, whether a nano-encapsulated vitamin supplement does its job any different from, and possibly better than, a supplement that is not so encapsulated. 

Now when you take in vitamins, with your food or with supplements, these vitamins need to travel from the mouth through your esophagus and stomach to the small intestine where they will be absorbed through the intestine's membrane. Water-soluble vitamins are typically transported via some sort of a carrier, with the exception of vitamin B12, for which specific receptors do that job. Fat-soluble vitamins require the presence of the same enzymes which fat itself requires for being absorbed. All this happens in the small intestine, the one into which the stomach empties its content. These processes are complex but well researched and known in great detail. Now, just for laughs, let's look at what the geniuses at one of the nano-encapsulation supplement producers have to say about the point where nano-encapsulated vitamins meet the small intestine.

And I quote from here (http://livethesource.com/index.php/products/dailymultivitamin):

"livethesource® nanotechnology creates a particle size small enough to be efficiently absorbed, yet not so small as to be counterproductively absorbed by the body. We use all natural plant lipids as the basis of our nano encapsulation material. The importance of this cannot be overstated. The food grade material not only is absorbed and recognized as a safe substance, but also delivers its payload in a quick, safe and efficient manner."

"small enough to be efficiently absorbed" - as opposed to what? In the intestine water-soluble vitamins are transported molecule by molecule across the intestinal barrier and fat soluble vitamins are integrated into the micelles, which are small enough to pass through this barrier. That's what happens to the vitamins in your food. No nanoencapsulation required here. I also fail to understand what could possibly be a counterproductive absorption. Either vitamins are absorbed, or they are not, but counterproductive absorption is an oxymoron.

What really throws me off is the "natural plant lipids" which form the "basis of our nanoencapsulation material". If water-soluble vitamins are encased in lipids (another term for fat, or fatty acids) they are not available for transport as these vitamins' carriers and receptors will not recognize them. If the nanocapsules, thanks to their fat-soluble exterior, are integrated wholly into the micelles, which transport fat and fat-soluble vitamins, then the water soluble vitamins end up in the blood in a different pathway. If the nanocapsules are dissolved in the intestine prior to their absorption, then what difference does nanoencapsulation make to the absorption process. And with "difference" I mean the difference to naturally delivered vitamins of an apple or an egg yolk which you eat.

The rest of this quote is, like most of their page, a lot of ballyhoo.

Now it's time to return to our initial question: Does nano-encapsulation improve the effect of multi-vitamin multi-mineral supplements? You probably have guessed my answer: If I had to form a hypothesis, it would be something along the line of "nano-encapsulation in itself is not expected to improve a supplement based delivery of vitamins. The potential benefit of nanoencapsulating vitamins in supplements is the potentially longer shelf life of so encapsulated products."

But this longer shelf life benefits exclusively the manufacturer, not you, the consumer. Encapsulation or not, you'll only buy a bottle of vitamin pills which you can consume before it's use-by date. Don't you?

Now that you have read my point of view on vitamin supplementation (my yesterday's post) and on nano-encapsulation of supplements, I need to tell you why my arguments may not apply to you, personally. This is an issue which plagues medicine and public health, and it is hardly recognized or being talked about. This issue is at the heart of personalized medicine and personalized prevention. Stay tuned, because I will tell you in my next post, why you should be skeptical of the interpretation of the results of any study, regardless of who interprets the results. Whether it's me or anybody else.

Stay tuned.

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Do vitamin supplements make you healthier?

The (non-)sense of vitamin supplementation?

Almost one in two American adults is a regular user of vitamin and mineral supplements, either in the form of single- or multivitamin/mineral formulations (MVMS). It all adds up to a market of US$ 9 Billion annually, or one third of the total US supplements market. Does all the pill-popping help their users to achieve better health or longevity? 

That's one question raised by Björn, one of the readers of my blog. Thanks, Björn, I wanted to write on this subject for some time. You just got me going on this a little earlier than I would have otherwise. And also thanks for the second question: Does the latest technology of delivering the drug (not to your house, but within your body to your organism's cells) via "nano-encapsulation" improve that health effect in any way? Let me try to answer these questions one by one.

When you talk about vitamins, you talk about essential micronutrients, for which the human organism has either no or only a very limited ability to produce (e.g. Vitamin D) on its own. If you want to group vitamins according to their solubility you'll find that they come in two flavors: water soluble and fat soluble. Of course, you could group them for any other biochemical characteristic, but grouping them according to their solubility makes immediate sense when you keep in mind that the fat soluble ones (A, D, E and K) can accumulate in your body's tissues, whereas the water soluble Vitamins typically can't. Whatever can accumulate, can also accumulate to the point where there is too much of it in a body's tissue. So, yes, too much of a good thing may turn into a not so good thing, as is the case for vitamins A and E for example. Or, too much of a good thing may just be flushed out of the body, as is the case with water-soluble vitamin C.

The supplement industry certainly does a good job convincing the public that supplementing one's diet with additional vitamin formulations is good for one's health. It's certainly good for the industry's bank accounts. In such cases it always pays to ask one simple question: Where is the evidence?  

In a meta-analysis of randomized clinical trials (RCT, the gold standard of clinical research methodology), the authors investigated the effects of vitamins E and A on the risk of cardiovascular disease and death in altogether 220,000 patients [1]. The effects? Zilch. The authors recommendation? The evidence does not support any recommendation for the use of Vitamins E and A. On the contrary, they found a slight increase in all-cause and cardiovascular disease mortality associated with vitamin A supplementation.

In another 2007 review on the subject, published in the American Journal of Clinical Nutrition, its author came to the same conclusion, stating that "Results to date are not compelling concerning a role for MVMs in preventing morbidity or mortality from cancer or CVD." [2] The two largest trials on Vitamin A and E supplementation in smokers, the Finnish Alpha-Tocopherol Beta-Carotene (ATBC Trial) and the US Carotene and Retinol Efficacy Trial (CARET) enrolled 29,000 and 18,000 smokers. In the Finnish trial, supplementation with Vitamin A increased the risk for lung cancers by 18% within a 5 to 8-year observation period [3]. And the US trial was halted after 2 years for the same reason: a 28% increase in lung cancer risk, a 26% increase in risk for dying from cardiovascular disease [4]. In 22,000 healthy men who had been observed for 12 years, supplementation with vitamin A showed neither benefit nor harm [5].  

So where is the evidence for you to believe that buying Vitamin E and A supplements will make you healthier and live longer? Maybe I'm blinded by a perverse distrust of everything a sales man tells me, but I can't see it.

So, how about multi-vitamins? In the group of people with the highest take-up rate of multivitamins: post-menopausal women? Again, the authors of a study which pooled the data from the Women's Health Initiative trial and observational study cohorts, come to the same conclusion "the WHI CT and OS cohorts provide convincing evidence that multivitamin use has little or no influence on the risk of cancer or CVD in postmenopausal women." [6].

Not even for infections is there any evidence that MVMS have any protective effect on those most vulnerable, the elderly [7]. 

Of course, keeping all this in mind, the nagging question remains: would there be an effect if only the delivery of the drug in the human body was improved? After all, if vitamins are essential for survival, and if vitamin supplementation does not improve health, then there are several possible reasons for this observation. For instance, we might get enough vitamins from our food, and adding vitamins has simply no effect. Or, maybe we have vitamin deficiencies but the supplements are ineffective in delivering their vitamin loads.

Which brings us to Björn's second question: "Does nano-encapsulation improve the effect of MVMS?

And may I add my nagging question: Or is "nano-whatever" just a cool gimmick of the industry to push a market, which currently grows only moderately? In the next post (Monday 16. April) I'll try to answer this question. So, stay tuned. 

1.           Vivekananthan, D.P., et al., Use of antioxidant vitamins for the prevention of cardiovascular disease: meta-analysis of randomised trials. Lancet, 2003. 361(9374): p. 2017-23.

2.           Prentice, R.L., Clinical trials and observational studies to assess the chronic disease benefits and risks of multivitamin-multimineral supplements. American Journal of Clinical Nutrition, 2007. 85(1): p. 308S-313S.

3.           The Effect of Vitamin E and Beta Carotene on the Incidence of Lung Cancer and Other Cancers in Male Smokers. New England Journal of Medicine, 1994. 330(15): p. 1029-1035.

4.           Omenn, G.S., et al., Effects of a combination of beta carotene and vitamin A on lung cancer and cardiovascular disease. N Engl J Med, 1996. 334(18): p. 1150-5.

5.           Hennekens, C.H., et al., Lack of Effect of Long-Term Supplementation with Beta Carotene on the Incidence of Malignant Neoplasms and Cardiovascular Disease. New England Journal of Medicine, 1996. 334(18): p. 1145-1149.

6.           Neuhouser, M.L., et al., Multivitamin Use and Risk of Cancer and Cardiovascular Disease in the Women's Health Initiative Cohorts. Archives of Internal Medicine, 2009. 169(3): p. 294-304.

7.           El-Kadiki, A. and A.J. Sutton, Role of multivitamins and mineral supplements in preventing infections in elderly people: systematic review and meta-analysis of randomised controlled trials. BMJ, 2005. 330(7496): p. 871.

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