Published on March 18, 2024
The true RDA for vitamin D is about 10 times higher than the IOM has said – not a small error. Read on to understand how this might have happened and why this is important.
Key Points
- In 2014, two statisticians published a paper showing that the Institute of Medicine (IOM) had made a serious calculation error in its recommended dietary allowance (RDA) for vitamin D; another analysis starting with a different population entirely came to exactly the same conclusion…. the true RDA for vitamin D was about 10 times higher than the IOM had said
- IOM recommendations have important effects on a wide array of government programs; these include nutritional standards for US military, for school lunch programs, for WIC and many others, both in the United States and in Canada
- Dr. Heaney describes the mistake, how it happened, and why it is a problem
Written by Robert P. Heaney, M.D., reviewed for updates by Cedric Garland, Dr. PH.
The year 2014 saw an unusual event. Two statisticians at the University of Edmonton in Canada (Paul Veugelers and JP Ekwaru) published a paper in the online journal Nutrients (Volume 6; Issue 10: pp. 4472-5) showing that the Institute of Medicine (IOM) had made a serious calculation error in its recommended dietary allowance (RDA) for vitamin D. Immediately other statisticians checked the Canadians’ analyses and found that, indeed, they were right. Together with my colleagues at GrassrootsHealth, I went back to square one, starting with a different population entirely, and came to exactly the same conclusion. The true RDA for vitamin D was about 10 times higher than the IOM had said. Not a small error. To understand how this might have happened and why this is important, some background may be helpful.
Background
An RDA is technically the amount of a nutrient every member of a population should ingest to ensure that 97.5% of its members would meet a specified criterion of nutritional adequacy. For vitamin D, the IOM panel determined that the criterion for adequacy was a serum concentration of a particular vitamin D derivative (25-hydroxyvitamin D) of 20 ng/mL or higher, and that for adults up to age 70, 600 IU of vitamin D per day was the RDA.
Both of those figures provoked immediate and unprecedented dissent from a diverse group of nutritional scientists, but the disagreement centered mostly around the IOM panel’s reading and interpretation of the evidence, rather than its calculation of the RDA. The Edmonton statisticians took the dissent a step further, showing that the actual calculation was itself wrong. Here’s what seems to have happened.
What Happened
Not everyone gets the same response to a given intake of any particular nutrient. Some individuals require more than others to reach the specified target, and while the average response to a certain dose of vitamin D may be above the target level, a substantial fraction of a population can still be below it. The RDA will always be higher than the average requirement, and for some nutrients, substantially so. As a consequence, ensuring that every member of a population receives the RDA guarantees that 97.5% of that population will be getting at least enough, while some will be getting more than they actually need.
The IOM panel identified a number of published studies showing the 25-hydroxyvitamin D response to various vitamin D doses. They plotted the average response in each of those studies against dose, thereby generating what is termed a dose response curve. This is a way to estimate how much of a response would be predicted for any given vitamin D intake. But, to make a long story short, because it used average responses, that curve tells us nothing about the intake requirement for the individual members of a population, and particularly those whose response to a given dose falls in the bottom 2.5 percentile. The IOM panel surely knew that the average intake required to meet or exceed 20 ng/mL was not the same as the RDA, as it would be inadequate for all those with below average responses (about half the population). So, to catch the “weak” responders, they calculated the 95% probability range around their dose response curve, designating as the RDA the point where the bottom end of that probability range exceeded 20 ng/mL. While this might seem to have been the right approach, it was not. The panel appears to have overlooked the fact that the 95% probability range for their curve is for the average values that would be expected from similar studies at any particular dose. The dispersion of averages of several studies is much more narrow than dispersion of individual values within a study around its own average. And it’s the 2.5th percentile individual values from those studies, not the study averages, that should have been used to create the relevant dose response curve.
It’s this latter approach that the Canadian statisticians used. They took precisely the same studies as the IOM had used and demonstrated that the requirement to ensure that 97.5% of the population would have a value of at least 20 ng/mL, was 8,895 IU per day. Recall that the IOM figure was less than 1/10 that, i.e. 600 IU per day up to age 70 (and 800 IU per day thereafter). When my colleagues and I analyzed the large GrassrootsHealth dataset, we calculated a value closer to 7,000 IU per day, still a full order of magnitude higher than the estimate of the IOM, and not substantially different from the estimate of Veugelers and Ekwaru.
Why This Is A Problem
This is an important mistake, not simply because it shouldn’t have been allowed in a major policy document, but because IOM recommendations have important effects on a wide array of government programs. These include nutritional standards for US military, for school lunch programs, for WIC and many others, both in the United States and in Canada. Canada, which paid one third the cost of generating the IOM report, is in a particularly difficult situation. Its First Nations peoples, living near the Arctic Circle, do not get any vitamin D from the sun. They are totally dependent upon food and supplement as sources of vitamin D. Their ancestral diets, based largely on seals and whales, constituted a rich source of vitamin D, but are much less commonly consumed today, in part because of the ready availability of low-nutrient density foods flown in from the south, and because environmental pollution has made seal and whale products a source of dangerous toxic ingredients. The Canadian government, responsible for the health of all of its citizens, can turn only to the existing IOM recommendation (600 IU per day) to set standards for the people living in its northern territories. But, as the Edmonton statisticians noted, that number is woefully inadequate.
There is almost no public awareness of this error or its implications in the United States, but that is not true for Canada. A large nutritional health foundation previously located in Calgary (Pure North S’Energy Foundation) presented a series of half-page advertisements in Canada’s national newspaper (The Globe and Mail), alerting Canadians to the fact that the error was made and that they need more vitamin D than current policy indicates. The IOM, Health Canada, and the Canadian Ministry of Health have all been formally alerted to this problem.
How It May Have Happened
It’s one thing to know how the mistake was made, and quite another to know how it could have happened. Here, one can only speculate, as the IOM processes are shrouded in secrecy. The IOM report was a massive document and it is likely that much of the background work, such as the literature search, the drafting of the report, and the statistical calculations, were done by IOM staff members who may not, themselves, have been sufficiently expert in the vitamin D field to recognize discrepancies that might have occurred. (It is noteworthy that several of the dissenting letters submitted to scientific publications following release of the IOM report had specifically cited the fact that intake of 600 IU per day of vitamin D was not sufficient to guarantee a level of 20 ng/mL of 25-hydroxyvitamin D.) It would then have been up to the expert panel to review and adjust this staff work. To be fair to the panel, it is important to understand that the scientific members of all IOM panels are not compensated for their time and effort. They do it as a public service, and they are all busy scientists with work of their own. Still, it was their job, and one must wonder how they failed to see an error that was apparent to other equally knowledgeable, but outside, scientists.
Comment
There may be a moral here. It is widely recognized that many of the panel members, before coming together to review the evidence, had already staked out a position to the effect that, while the previous (1997) recommendation for vitamin D (200 IU per day) was inadequate, the actual RDA was almost certainly below 1000 IU per day. Accordingly, when the statistical calculations produced a number that matched their own expectations, they may not have been inclined to question its derivation.
There is a generally held belief that science is objective, data-driven. And to a substantial extent that is so. But science and scientists are not identical. Scientists often have strongly held opinions and, like people in general, find ways to construe the evidence to support their beliefs. When those beliefs are wrong, science, as a field, ultimately abandons them. I am confident that this IOM error will be corrected sooner or later. This is partly because it is demonstrably erroneous, and partly because the related set of IOM recommendations has not elicited a consensus in the field of vitamin D research. If the Dietary Reference Intakes produced by the IOM are important, then it is important that they be right. I can only hope that not too much human damage will occur as time passes for the needed correction to happen.
Previous Posts by Dr. Heaney
Nutrition Doesn’t Know What “Normal” Is
Thermostats, Feedback, and Adaptation
Defining Normal – Origins and Resiliency
Taking Recommendations to Task
About Dr. Robert P. Heaney
Dr. Heaney was a full time professor at Creighton University who also donated his time and energy, starting in 2012 until his passing in 2016, as Research Director at GrassrootsHealth. In this capacity Dr. Heaney consulted on studies, methodologies, and how to best change public health direction. Dr. Heaney provided nearly 50 years of advancements in our understanding of bone biology, osteoporosis, and human calcium and vitamin D physiology. He is the author of three books and has published over 400 original papers, chapters, monographs, and reviews in scientific and educational fields. At the same time, he has engaged nutritional policy issues and has helped redefine the context for estimating nutrient requirements. Dr. Heaney was presented a lifetime achievement award in the US House of Representatives on November 10, 2015 (Watch the video here). He was an inspiration to researchers everywhere – his intellect, dedication, integrity, and caring was unsurpassed.
Read more about Dr. Heaney and a few of his accomplishments here.
How Are Your Levels of Important Nutrients?
Do you know what your vitamin D level is? Check yours along with omega-3s, magnesium, and other levels today as part of the vitamin D*action project; add the Ratios for more about how to balance your Omega-3s and 6s!
Measure your:
- Vitamin D
- Magnesium PLUS Elements
- Omega-3 Fatty Acids
- hsCRP (for Inflammation)
- HbA1c (for Blood Sugar)
- and more
Did you know that each of the above can be measured at home using a simple blood spot test? As part of our ongoing research project, you can order your home blood spot test kit to get your levels, followed by education and steps to take to help you reach your optimal target levels. Start by enrolling and ordering your kit to measure each of the above important markers, and make sure you are getting enough of each to support better mood and wellbeing!
Build your custom kit here – be sure to include your Omega-3 Index along with your vitamin D.
Start Here to Measure Your Levels