Cola niet goed voor de botten bij oudere vrouwen.*
Uit een studie onder ruim 2.500 mensen van bijna 60 jaar blijkt dat het regelmatig drinken van cola niet goed is voor vrouwen. De botdichtheid van de heupen blijkt duidelijk minder te worden door het drinken van cola. De botdichtheid in de rug bij vrouwen bleek ongewijzigd. Voor mannen werd geen relatie gevonden tussen botdichtheid en het drinken van cola. Het lijkt vooral het fosforzuur in cola te zijn dat hiervoor verantwoordelijk zou zijn.
Cola
Is Associated With Bone Mineral Density Loss So May Up Osteoporosis Risk For
Older Women
According
to the National Osteoporosis Foundation, approximately 55 percent of Americans,
mostly women, are at risk of developing osteoporosis, a disease of porous and
brittle bones that causes higher susceptibility to bone fractures. Now,
Katherine Tucker, PhD, director of the Epidemiology and Dietary Assessment
Program at the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts
University, and colleagues have reported findings in the American Journal of
Clinical Nutrition that cola, a popular beverage for many Americans, may
contribute to lower bone mineral density in older women, a condition which
increases risk for osteoporosis.
Tucker, also a professor at the Friedman School of Nutrition Science and Policy
at Tufts, and colleagues analyzed dietary questionnaires and bone mineral
density measurements at the spine and three different hip sites of more than
2,500 people in the Framingham Osteoporosis Study whose average age was just
below 60. In women, cola consumption was associated with lower bone mineral
density at all three hip sites, regardless of factors such as age, menopausal
status, total calcium and vitamin D intake, or use of cigarettes or alcohol.
However, cola consumption was not associated with lower bone mineral density for
men at the hip sites, or the spine for either men or women. The results were
similar for diet cola and, although weaker, for decaffeinated cola as well.
Men reported drinking an average of six carbonated drinks a week, with five
being cola, and women reported consuming an average of five carbonated drinks a
week, four of which were cola. Serving size was defined as one bottle, can or
glass of cola. "The more cola that women drank, the lower their bone
mineral density was," says Tucker, who is corresponding author of the study.
"However, we did not see an association with bone mineral density loss for
women who drank carbonated beverages that were not cola."
"Carbonated soft-drink consumption increased more than three-fold"
between 1960 and 1990, cite the authors. They also note that more than 70
percent of the carbonated beverages consumed by people in the study were colas,
all of which contain phosphoric acid, an ingredient that is not likely to be
found in non-cola carbonated beverages.
While previous studies have suggested that cola contributes to bone mineral
density loss because it replaces milk in the diet, Tucker determined that women
in the study who consumed higher amounts of cola did not have a lower intake of
milk than women who consumed fewer colas. However, the authors did conclude that
calcium intake from all sources, including non-dairy sources such as dark leafy
greens or beans, was lower for women who drank the most cola. On average, women
consumed 1,000 milligrams of calcium per day, and men consumed 800 milligrams
per day, both lower than the daily recommended 1,200 daily milligrams for adults
over age 50.
"Physiologically, a diet low in calcium and high in phosphorus may promote
bone loss, tipping the balance of bone remodeling toward calcium loss from the
bone. Although some studies have countered that the amount of phosphoric acid in
cola is negligible compared to other dietary sources such as chicken or cheese,"
Tucker says, "further controlled studies should be conducted to determine
whether habitual cola drinkers may be adversely affecting their bone health by
regularly consuming doses of phosphoric acid that do not contain calcium or
another neutralizing ingredient."
Tucker stresses that as with any epidemiological study, the results should be
taken with caution. "We are not certain why women who drank more cola also
had lower bone mineral density," says Tucker. Although adjustment for fruit
juice intake did not change results, women in the study who drank a considerable
amount of cola not only consumed less calcium, but less fruit juice as well.
Previous studies have also shown that low fruit and vegetable intake may affect
bone mineral density.
The message from experts is clear that overall nutritional choices can affect
bone health, but "there is no concrete evidence that an occasional cola
will harm the bones," says Tucker. "However, women concerned about
osteoporosis may want to steer away from frequent consumption of cola until
further studies are conducted."
###
Tucker, KL, Morita, K, Qiao N, Hannan MT, Cupples A, Kiel DP. American
Journal of Clinical Nutrition. (October) 2006; 84(4). "Colas, but not
other carbonated beverages, are associated with low bone mineral density in
older women: The Framingham Osteoporosis Study."
If you are interested in learning more about these topics please contact Siobhan
Gallagher or Peggy Hayes at the Friedman School of Nutrition Science and Policy,
Tufts University, or another Tufts health sciences researcher.
The Gerald J. and Dorothy R. Friedman School of Nutrition Science and Policy at
Tufts University is the only independent school of nutrition in the United
States. The school's eight centers, which focus on questions relating to famine,
hunger, poverty, and communications, are renowned for the application of
scientific research to national and international policy. For two decades, the
Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University has
studied the relationship between good nutrition and good health in aging
populations. Tufts research scientists work with federal agencies to establish
the USDA Dietary Guidelines, the Dietary Reference Intakes, and other
significant public policies.
Contact: Siobhan Gallagher
Tufts University
(Okt.
2006)