Multiple vitamin-mineral (MVM) supplements, sometimes known as multivitamin-mineral supplements, contain a variable number of essential and/or non-essential nutrients. Their primary purpose is to provide a convenient way to take a variety of supplemental nutrients from a single product, in order to prevent vitamin or mineral deficiencies, as well as to achieve higher intakes of nutrients believed to be of benefit above typical dietary levels.
Many MVMs contain at least 100% of the Daily Value (DV) or the U.S. Recommended Dietary Allowance (USRDA) of all vitamins that have been assigned these recommended values. Mineral levels may be lower, or in the case of high potency MVMs, most or all mineral levels may also be at 100% of DV or USRDA. Micronutrients that should be included in a complete MVM are vitamin A (or beta-carotene), vitamin B-complex (thiamine, riboflavin, niacin and/or niacinamide, vitamin B6, folic acid (folate), vitamin B12, pantothenic acid, and biotin), vitamin C, vitamin D, and vitamin E, and the minerals calcium, magnesium, zinc, iodine, selenium, copper, manganese, chromium, molybdenum, and possibly iron. Some MVMs also contain vitamin K, but people taking the medication warfarin (Coumadin®) should consult their doctor before taking vitamin K supplements. Phosphorus is another essential dietary mineral, but is so abundant in the diet that it does not need to be included in an MVM formula. The only exception is for elderly people, whose diets tend to be lower in phosphorus. Calcium interferes with phosphorus absorption, so older people who are taking a calcium supplement might benefit from taking additional phosphorus.1
Potassium is an unusual case, as adequate amounts of potassium cannot, by law, be sold in nonprescription products. Thus potassium, when included in an MVM formula, represents only a trivial amount. MVMs may contain iron, but these should be taken only by people who have been diagnosed as having, or being at high risk of, iron deficiency, or who have a history of frequent iron deficiency.
Some nutrients may be beneficial at levels above what is possible to obtain from diet alone, and an MVM formula can provide these levels as well. Nutrients that may be useful to most people in larger amounts include vitamin C, folic acid, and calcium. Vitamin E has long been thought to protect against heart disease beginning at 100 IU per day, but more recent research has cast doubt on the value of vitamin E for heart-disease prevention.2 Large amounts of vitamin B1, vitamin B2, vitamin B3, and pantothenic acid are often included in MVM formulas. Some people claim to experience improvements in mood, energy, and/or overall well-being when taking higher-than-RDA amounts of B vitamins. While there is not a great deal of scientific research to support those observations, one double-blind study of healthy volunteers found that an MVM supplement significantly reduced anxiety and perceived stress levels, and possibly improved energy and the ability to concentrate.3
The importance of including the nonessential nutrient beta-carotene in MVMs remains speculative. The synthetic beta-carotene found in most MVMs clearly does not prevent cancer and may increase the risk of lung cancer in smokers. Therefore, the inclusion of synthetic beta-carotene in MVM formulas is of questionable value, and it should be avoided by smokers. This concern was validated by the results of a large study in which male smokers who supplemented with synthetic beta-carotene had an 18% increase in incidence of lung cancer, compared with those given a placebo.4 On the other hand, because beta-carotene can be converted to vitamin A without causing vitamin A toxicity, some manufacturers use beta-carotene as a source of vitamin A. In contrast to synthetic beta-carotene, however, natural beta-carotene and several other carotenoids may be helpful in preventing certain diseases, including some cancers.5 6 7 Increasingly, natural beta-carotene and several other carotenoids are found in higher quality MVMs.
Another class of non-essential nutrients is the flavonoids, which have antioxidant and other properties and have been reported by some,8 though not all,9 researchers to be linked with a reduced risk of heart disease. MVM supplements also frequently include other nutrients of uncertain benefit in the small amounts supplied, such as choline, inositol, and various amino acids.
Preliminary and double-blind trials have shown that women who use an MVM containing folic acid, beginning three months before becoming pregnant and continuing through the first three months of pregnancy,10 11 have a significantly lower risk of having babies with neural tube defects (e.g., spina bifida) and other congenital defects.
In one double-blind trial, schoolchildren received, for three months, a daily low-potency vitamin-mineral tablet containing 50% of the USRDA for most essential vitamins and the minerals.12 The subjects were “working class,” primarily Hispanic, children, aged 6 to 12 years. Dramatic gains in certain measures of IQ were observed in about 20% of the supplemented children. These gains may have been due to the correction of specific nutrient deficiencies (for example, iron) found in these children. However, it was not possible in this study to identify which nutrients caused the increases in IQ.
One-per-day multiples are primarily B-complex vitamins, with both vitamin A and vitamin D included either at high or low potency, depending on the supplement. The rest of the formula tends to be low potency. It does not take much of some of the minerals—for example, copper, zinc, and iron—to offer 100% or more of what people normally require, so these minerals may appear at reasonable levels in a one-per-day MVM.
One-per-day MVMs usually do not provide sufficient amounts of many nutrient supplements shown to benefit people eating a Western diet, such as vitamin E, calcium, magnesium, and vitamin C. One-per-day MVMs should therefore not be viewed as a way to “cover all bases” in the way that high-potency MVMs, requiring three or more pills per day, are viewed.
The following table shows the USRDA for nutrients as well as suggested optimum amounts of each vitamin and mineral that should be present in a daily MVM supplement for healthy people. Some people may want to take larger amounts because of specific health concerns. They should read the individual nutrient sections to learn about safe upper ranges of supplementation.
Daily Value (includes diet)
Suggested Daily Optimum in an MVM Supplement
|Biotin||300 mcg||300 mcg|
|Calcium||1,000 mg||800–1,000 mg|
|Chromium||120 mcg||120–200 mcg|
|Copper||2 mg||1–3 mg|
|Folate||400 mcg||400 mcg|
|Iodine||150 mcg||150 mcg|
|Iron||18 mg||People should avoid iron supplements unless they have been diagnosed with having, or being at high risk of, iron deficiency.|
|Magnesium||400 mg||250–400 mg|
|Manganese||2 mg||2–5 mg|
|Molybdenum||75 mcg||75 mcg|
|Niacin||20 mg||20 mg|
|Pantothenic acid||10 mg||10 mg|
|Riboflavin||1.7 mg||1.7 mg|
|Selenium||70 mcg||100–200 mcg|
|Thiamine||1.5 mg||1.5 mg|
|Vitamin A||5,000 IU||5,000 IU (as natural beta-carotene)|
|Vitamin B6||2 mg||10 mg|
|Vitamin B12||6 mcg||50 mcg|
|Vitamin C||60 mg||100–200 mg|
|Vitamin D||400 IU||400 IU|
|Vitamin E||30 IU||30–400 IU|
|Vitamin K||80 mcg||80 mcg|
|Zinc||15 mg||15–25 mg|
Because one-per-day formulas typically do not contain even the minimum recommended amounts of some of the nutrients listed here, multiples requiring several capsules or tablets per day are preferable. With two- to six-per-day multiples, intake should be spread out at two or three meals each day, instead of taking them all at one sitting. The amount of vitamins and minerals can be easily increased or decreased by taking more or fewer of the multiple.
Multiples are available as a powder inside a hard-shell pull-apart capsule, as a liquid inside a soft-gelatin capsule, or as a tablet.
Most multiples have all the ingredients mixed together. Occasionally the B vitamins react with the rest of the ingredients in the capsule or tablet. This reaction, which is sped up in the presence of moisture or heat, can cause the B vitamins to “bleed” through the tablet or capsule, discoloring it and also making the multiple smell. While the multiple is still safe and effective, the smell is off-putting and usually not very well tolerated. Liquid multiples in a soft-gel capsule—or tablets or capsules that are kept dry and cool—do not have this problem.
Capsules are usually not as large as tablets, and thus some people find capsules easier to swallow.
Some people prefer vegetarian multiples. While some capsules are made from vegetarian sources, most come from animal gelatin. Vegetarians need to carefully read the label to ensure they are getting a vegetarian product.
One concern people have with tablets is whether they will break down sufficiently to allow the nutrients to be absorbed. Properly made tablets and capsules will dissolve readily in the stomach.
Some multiples are in timed-release form. The theory is that releasing vitamins and minerals slowly into the body over a period of time is better than releasing all of the nutrients at once. Except for work done on vitamin C—some of which showed timed-release C was better absorbed than non-timed-release—research on this question has been lacking. It is possible that some nutrients, especially minerals, will be poorly absorbed from timed-release multiples. Also, some doctors have concerns about the safety of ingesting the chemicals that are used in tablets or capsules to make them timed-release.
Another area of controversy is whether all of the nutrients in a multiple would be better utilized if they were taken separately. While certain nutrients compete with each other for absorption, this is also the case when the nutrients are supplied in food. For example, magnesium, zinc, and calcium compete; copper and zinc also compete. However, the body is designed to cope with this competition, which should not be a problem if multiples are spread out over the day.
Unfortunately, multiples do not taste very good. In order to make chewable multiples palatable, whether for children or adults, some compromises must be made. First, bad-tasting ingredients must be reduced or eliminated. Second, the rest of the ingredients must be masked with a sweetener.
Unless an artificial sweetener like aspartame (NutraSweet®) or saccharin is used, the only sweeteners available are sugars. Generally, consuming sugar is undesirable, and not having it in a chewable dietary supplement would be preferable. Xylitol, a natural sugar rarely used in chewables because it is relatively expensive, would be an ideal choice since it does not cause tooth decay or other known problems.
Some chewables, such as vitamin C, contain more sugar than any other ingredient. In such products, the sweetener should be listed as the first ingredient, but often is not. Care needs to be exercised when reading labels about chewable vitamins. If it tastes sweet, it contains sugar or a synthetic sweetener. In addition, chewable vitamin C products should contain buffered vitamin C, rather than the acidic form, ascorbic acid, in order to avoid damaging dental enamel.
The best time to take vitamins or minerals is with meals. Multiples taken between meals sometimes cause stomach upset and are likely not to be as well absorbed.
1. Heaney RP, Nordin BEC. Calcium effects on phosphorus absorption: implications for the prevention and co-therapy of osteoporosis. J Am Coll Nutr 2002;21:239–44.
2. Miller ER III, Pastor-Barriuso R, Dalal D, et al. Meta-analysis: high-dosage vitamin E supplementation may increase all-cause mortality. Ann Intern Med 2005;142:37–46.
3. Carroll D, Ring C, Suter M, Willemsen G. The effects of an oral multivitamin combination with calcium, magnesium, and zinc on psychological well-being in healthy young male volunteers: a double-blind placebo-controlled trial. Psychopharmacology2000;150:220–5.
4. The effect of vitamin E and beta carotene on the incidence of lung cancer and other cancers in male smokers. The Alpha-Tocopherol, Beta Carotene Cancer Prevention Study Group. N Engl J Med 1994;330:1029–35.
5. Shekelle RB, Lepper M, Liu S, et al. Dietary vitamin A and risk of cancer in the Western Electric Study. Lancet 1981;2:1185–90.
6. Giovannucci E, Ascherio A, Rimm EB, et al. Intake of carotenoids and retinol in relation to risk of prostate cancer. J Natl Cancer Inst 1995;87:1767–76.
7. Seddon JM, Ajani UA, Sperduto RD, et al. Dietary carotenoids, vitamins A, C, and E, and advanced age-related macular degeneration. JAMA 1994;272:1413–20.
8. Hollman PC, Katan MB. Absorption, metabolism and health effects of dietary flavonoids in man. Biomed Pharmacother 1997;51:305–10 [review].
9. Hertog MGL, Sweetnam PM, Fehily AM, et al. Antioxidant flavonols and ischemic heart disease in a Welsh population of men: the Caerphilly Study. Am J Clin Nutr 1997;65:1489–94.
10. Botto LD, Mulinare J, Erickson JD. Occurrence of congenital heart defects in relation to maternal mulitivitamin use. Am J Epidemiol 2000;151:878–84.
11. Czeizel AE. Reduction of urinary tract and cardiovascular defects by periconceptional multivitamin supplementation. Am J Med Genet 1996;62:179–83.
12. Schoenthaler SJ, Bier ID, Young K, et al. The effect of vitamin-mineral supplementation on the intelligence of American schoolchildren: a randomized, double-blind, placebo-controlled trial. J Altern Complement Med 2000;6:19–29.
Copyright © 2007 Healthnotes, Inc. All rights reserved. www.healthnotes.com
The information presented in Healthnotes is for informational purposes only. It is based on scientific studies (human, animal, or in vitro), clinical experience, or traditional usage as cited in each article. The results reported may not necessarily occur in all individuals. For many of the conditions discussed, treatment with prescription or over the counter medication is also available. Consult your doctor, practitioner, and/or pharmacist for any health problem and before using any supplements or before making any changes in prescribed medications. Information expires September 2008.