High doses of vitamin D may result in a decrease in bone density
“A three-year study has shown that there is no benefit in taking high doses of vitamin D. More research is required to determine if high doses may actually compromise bone health.”
When bare skin is exposed to sunlight, it makes Vitamin D, which is needed by our bodies to absorb calcium and ensure strong, healthy bones. With bathing suit skin exposure, it only takes about 10-15 minutes of sun exposure during the summer to generate all the vitamin D your body needs for the day.Â
Other sources, like Osteoporosis Canada, suggest adults at risk of osteoporosis, a condition characterized by bone loss, should take 400 — 2,000 IU of Vitamin D. However, some people may be taking up to 20 times the recommended daily dose to prevent or treat a variety of medical conditions that might be related to having not enough vitamin D. So, what is the correct dose? And, how much is too much?
“Although vitamin D may be involved in regulating many of the body’s systems, it is the skeleton that is most clearly affected by vitamin D deficiency,” says Dr. David Hanley, MD, an endocrinologist in the Cumming School of Medicine (CSM), and one of the principal investigators of the study. “Current Health Canada recommendations were set to prevent the bone diseases caused by vitamin D deficiency for the vast majority of healthy Canadians. But it has been more difficult to clearly establish the optimal dose of vitamin D. When we designed this study, there remained a question whether there’s more benefit in taking a higher dose.”
A three-year study by researchers at the Cumming School of Medicine’s McCaig Institute for Bone and Joint Health published in the Journal of the American Medical Association (JAMA), showed there is no benefit in taking high doses of vitamin D. The study followed 300 volunteers between the ages of 55 and 70 in a double-blind, randomized clinical trial to test the hypothesis that with increasing doses of vitamin D, there would be a dose-related increase in bone density and bone strength. A third of the study participants received 400 IU of vitamin D per day, a third received 4,000 IU per day, and a third received 10,000 IU per day.
Volunteers had both their bone density and bone strength measured using a new, high-resolution computed tomography (CT) scan of bone at the wrist and ankle, called an XtremeCT, used only for research. The XtremeCT, located in the McCaig Institute’s new Centre for Mobility and Joint Health, is the first of its kind in the world, and allows researchers to look at bone microarchitecture in detail never seen before. Standard dual-X-ray absorptiometry (DXA) bone density was also obtained. Participants received scans at the start of the study and at 6, 12, 24 and 36 months. To assess vitamin D and calcium levels, researchers also collected fasting blood samples at the beginning of the study and at 3, 6, 12, 18, 24, 30 and 36 months as well as urine collections annually.
Bone mineral density (BMD) is determined by measuring the amount of calcium and other minerals in a defined segment of bone. The lower the bone density, the greater the risk for bone fracture.
Adults slowly lose BMD as they age, and the DXA results showed a modest decrease in BMD over the duration of the study, with no differences detected between the three groups. However, the more sensitive measurement of BMD with high resolution XtremeCT showed significant differences in bone loss among the three dose levels.
Total BMD decreased over the three-year period by 1.4 per cent in the 400 IU group, 2.6 in the 4,000 IU group and 3.6 in the 10,000 IU group. The conclusion was that, contrary to what was predicted, vitamin D supplementation at doses higher than those recommended by Health Canada or Osteoporosis Canada were not associated with an increase in bone density or bone strength. Instead, the XtremeCT detected a dose-related decrease in bone density, with the largest decrease occurring in the 10,000 IU per day group. More research is required to determine if high doses may actually compromise bone health.
“We weren’t surprised that using DXA we found no difference among the treatment arms, whereas with XtremeCT, the latest in bone imaging technology, we were able to find dose-dependent changes over the three years. However, we were surprised to find that instead of bone gain with higher doses, the group with the highest dose lost bone the fastest,” says Steve Boyd, a professor in the CSM and one of the principal investigators of the study. “That amount of bone loss with 10,000 IU daily is not enough to risk a fracture over a three-year period, but our findings suggest that for healthy adults, vitamin D doses at levels recommended by Osteoporosis Canada (400-2000 IU daily) are adequate for bone health.”
A secondary outcome of the study indicated a potential safety concern with taking high levels of vitamin D. Although there were incidents in all three arms of the study, the investigators found that participants assigned to receive higher doses of daily vitamin D supplementation (4000 IU and 10,000 IU) over the three years were more likely to develop hypercalciuria (elevated levels of calcium in the urine), compared to those receiving a lower daily dose. Hypercalciuria is not uncommon in the general population, but is associated with increased risk of kidney stones and may contribute to impaired kidney function.
Hyperalciuria occurred in 87 participants. Incidence varied significantly between the 400 IU (17%) 4000 IU (22%) and 10,000 IU (31%) study groups. If hypercalciuria was detected in study participants, calcium intake was reduced. After repeat testing, the hypercalciuria usually resolved.
“What we can see in this study is that large doses of vitamin D don’t come with a benefit to the skeleton,” says Dr. Emma Billington, MD, one of the authors of the study. “For healthy adults, 400 IU daily is a reasonable dose. Doses of 4,000 IU or higher are not recommended for the majority of individuals.”
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