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      Protective Effect of High Protein and Calcium Intake on the Risk of Hip Fracture in the Framingham Offspring Cohort

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          Abstract

          The effect of protein on bone is controversial, and calcium intake may modify protein's effect on bone. We evaluated associations of energy-adjusted tertiles of protein intake (ie, total, animal, plant, animal/plant ratio) with incident hip fracture and whether total calcium intake modified these associations in the Framingham Offspring Study. A total of 1752 men and 1972 women completed a baseline food frequency questionnaire (1991–1995 or 1995–1998) and were followed for hip fracture until 2005. Hazard ratios (HRs) were estimated using Cox proportional hazards regression adjusting for confounders. Baseline mean age was 55 years (SD 9.9 years, range 26 to 86 years). Forty-four hip fractures occurred over 12 years of follow-up. Owing to significant interaction between protein (total, animal, animal/plant ratio) and calcium intake ( p interaction range = .03 to .04), stratified results are presented. Among those with calcium intakes less than 800 mg/day, the highest tertile (T3) of animal protein intake had 2.8 times the risk of hip fracture [HR = 2.84, 95% confidence interval (CI) 1.20–6.74, p = .02] versus the lowest tertile (T1, p trend = .02). In the 800 mg/day or more group, T3 of animal protein had an 85% reduced hip fracture risk (HR = 0.15, 95% CI 0.02–0.92, p = .04) versus T1 (p trend = .04). Total protein intake and the animal/plant ratio were not significantly associated with hip fracture ( p range = .12 to .65). Our results from middle-aged men and women show that higher animal protein intake coupled with calcium intake of 800 mg/day or more may protect against hip fracture, whereas the effect appears reversed for those with lower calcium intake. Calcium intake modifies the association of protein intake and the risk of hip fracture in this cohort and may explain the lack of concordance seen in previous studies. © 2010 American Society for Bone and Mineral Research.

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          An investigation of coronary heart disease in families. The Framingham offspring study.

          The Framingham Heart Study (FHS) was started in 1948 as a prospective investigation of cardiovascular disease in a cohort of adult men and women. Continuous surveillance of this sample of 5209 subjects has been maintained through biennial physical examinations. In 1971 examinations were begun on the children of the FHS cohort. This study, called the Framingham Offspring Study (FOS), was undertaken to expand upon knowledge of cardiovascular disease, particularly in the area of familial clustering of the disease and its risk factors. This report reviews the sampling design of the FHS and describes the nature of the FOS sample. The FOS families appear to be of typical size and age structure for families with parents born in the late 19th or early 20th century. In addition, there is little evidence that coronary heart disease (CHD) experience and CHD risk factors differ in parents of those who volunteered for this study and the parents of those who did not volunteer.
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            The incidence of fall injury events among the elderly in a defined population.

            Falls are a leading cause of death from injury among older persons in the United States, and about one in three older persons falls each year. Yet, reliable estimates of the incidence of fall injury events in a population-based setting are not readily available. Therefore, the authors analyzed population-based surveillance data, between July 1985 and June 1987, from the Study to Assess Falls Among the Elderly, Miami Beach, Florida. The rate of fall injury events coming to acute medical attention increased exponentially with age for both elderly men and women (predominantly white), reaching a high for those aged 85 years or more of 138.5 per 1,000 for males and 158.8 per 1,000 for females. Compared with males, females had a higher incidence of fractures other than skull. Males were nearly twice as likely to die, however, following a fall injury event than were females. Of those fall injury events identified through the surveillance system, about 42% resulted in hospital admission. The mean length of hospital stay was 11.6 days overall and was 15.5 days for hip fracture, 9.8 days for skull fracture/intracranial injury, 11.2 days for all other fractures, and 9.1 days for all other injuries. About 50% of fall injury events that occurred at home and required hospital admission resulted in a person being discharged to a nursing home.
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              Osteoporosis: the role of micronutrients.

              Osteoporosis and low bone mass are currently estimated to be a major public health threat. Adequate nutrition plays a major role in the prevention and treatment of osteoporosis; the micronutrients of greatest importance are calcium and vitamin D. Calcium has been shown to have beneficial effects on bone mass at all ages, although the results are not always consistent. Higher doses than the current US recommendation (600 IU) of vitamin D in the elderly (age > or = 65 y) may actually be required for optimal bone health (800-1000 IU/d). The elderly can clearly benefit from increased vitamin D intakes; however, the potential importance of vitamin D in peak bone mass is just being investigated. Vitamin D has been related to falls, with supplementation reducing the number of falls. There are clear fracture benefits demonstrated in randomized clinical trials of calcium and vitamin D supplementation. The other micronutrient needs for optimizing bone health can be easily met by a healthy diet that is high in fruits and vegetables to ensure adequate intakes for magnesium, potassium, vitamin C, vitamin K, and other potentially important nutrients. Healthcare professionals need to be aware of the importance of adequate calcium and vitamin D intakes (easily monitored by serum 25(OH)D) for optimal bone health, as well as the prevention of falls and fractures. In addition, a healthy diet that includes 5 servings a day of fruits and vegetables should optimize the intake of micronutrients required for bone health.
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                Author and article information

                Journal
                J Bone Miner Res
                jbmr
                Journal of Bone and Mineral Research
                Wiley Subscription Services, Inc., A Wiley Company
                0884-0431
                1523-4681
                December 2010
                26 July 2010
                : 25
                : 12
                : 2770-2776
                Affiliations
                [1 ]simpleInstitute for Aging Research, Hebrew SeniorLife and Harvard Medical School Boston, MA, USA
                [2 ]simpleDepartment of Biostatistics, Boston University School of Public Health and the Framingham Heart Study Boston, MA, USA
                [3 ]simpleDepartment of Health Sciences, Northeastern University School of Health Professionals Boston, MA, USA
                Author notes
                Address correspondence to: Marian T Hannan, DSc, MPH, Musculoskeletal Research Institute for Aging Research, Hebrew SeniorLife and Harvard Medical School, 1200 Centre Street, Boston, MA 02131, USA. E-mail: hannan@ 123456hrca.harvard.edu
                Article
                10.1002/jbmr.194
                3179277
                20662074
                e23f2259-cd93-47c3-b97b-a6ac86e37306
                Copyright © 2010 American Society for Bone and Mineral Research

                Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

                History
                : 12 January 2010
                : 29 June 2010
                : 14 July 2010
                Categories
                Original Article

                Human biology
                hip fracture,nutrition,cohort study,protein intake,calcium
                Human biology
                hip fracture, nutrition, cohort study, protein intake, calcium

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