Wallace, PhD, Council for Responsible Nutrition, Washington, DC Adequate check details Calcium and vitamin D intakes are critical during all stages of the lifecycle. These nutrients are particularly significant for bone accretion during adolescence and in preventing bone loss (i.e., osteoporosis) among subpopulations such as elderly men and post-menopausal women. This study aimed to characterize usual intakes of calcium and vitamin D from food and
dietary supplements in specific MK 1775 subpopulations of Americans, and compare those usual intakes to the established dietary reference intakes for U.S. residents aged ≥4 years using NHANES 2001–2002, 2003–2004, 2005–2006, and 2007–2008 datasets. The National Cancer Institute method was used to estimate usual intakes of calcium and vitamin D by source. Calcium and vitamin D disparities may be influenced by a number of different demographic and/or socioeconomic factors. Our study showed for the first time that calcium and vitamin D intakes from food and dietary supplements combined were closely related
to an individual’s gender, race, household income, weight classification, and age, particularly adulthood. Calcium and vitamin D intakes from food and dietary supplements were not related to an individual’s vegetarian status. Excessive intakes of calcium and vitamin D above the tolerable upper intake level value were low among all studied populations and “overnutrification” did not seem to be widely present across these analyses. Age- and gender-specific QNZ order supplementation and modest fortification of foods with calcium and vitamin D may be warranted for targeting certain subpopulations, particularly older adults, post-menopausal women, minorities,
and those who are low income and/or obese. P30 PATIENTS’ RESPONSE TOWARD AN AUTOMATED OSTEOPOROSIS INTERVENTION PROGRAM Matthew A. Varacallo, BA, Penn State University College of Medicine, Hershey, PA; Ed J. Fox, MD, Penn State University College of Medicine, Hershey, PA BACKGROUND: Osteoporosis is overshadowed in an era of chronic illnesses and a care gap exists between physicians and patients. enough Methods for improving the care gap via various intervention programs have yielded modest success, but most systems lack automation. The aim of this study was to determine the effectiveness of implementing an automated system for identifying and enhancing follow-up care for patients at high risk for osteoporosis. METHODS: Penn State Hershey Medical Center fracture patients 50 years of age and older were tagged with a diagnostic ICD-9 code upon the ER visit, identifying fractures at osteoporosis risk. Hospital encounter screening identified these codes and subjects were pre-screened to exclude cases involving trauma/MVA, repeats in the database, and individuals already being treated for osteoporosis. 103 subjects comprised the final intervention group.