Abstract
Identifying environmental factors that influence bone health is crucial for developing effective intervention strategies that maximize peak bone mass. The aim of this study was to estimate the relationship between milk consumption and bone mineral density (BMD) in young adults, and to examine whether this relationship is mediated by body mass index (BMI) and total lean and fat mass. A cross-sectional study involving college students (n = 239) from a Spanish public university was performed. Data on milk consumption and anthropometric and body composition variables were collected. The Pearson correlation coefficients among total body BMD, body composition variables, and milk consumption ranged from −0.111 to −1.171, most of them statistically significant (p < 0.05). The ANCOVA (analysis of covariance) models showed that those with higher regular milk consumption had less total body BMD than those with lower regular milk consumption (p < 0.05), even after controlling for different sets of confounders. In the mediation analysis, BMI and lean and fat mass turned out to act as full mediators of the relationship between regular milk consumption and total body BMD (z = −1.7148, −1.3208, and −1.8549, respectively; p ≤ 0.05). In conclusion, milk consumption, per se, does not seem to have a direct effect on bone development, because its association seems to be fully mediated by body composition variables in young adults.
Highlights
The beginning of adulthood is considered an important opportunity to optimize bone health, since environmental factors play a crucial role in helping skeletal development in this period [1]
The young adults included in the data analysis for this study did not differ in age, sex, or parental socioeconomic status from the whole sample of young adults participating in the trial
In our study, we observed that in young adults the daily milk consumption showed a negative relationship with total body bone mineral density (BMD) after controlling for age and height (Model 0), physical activity (Model 1), and total calcium intake (Model 2) than their peers with less than the daily consumption
Summary
The beginning of adulthood is considered an important opportunity to optimize bone health, since environmental factors play a crucial role in helping skeletal development in this period [1]. Identifying such environmental factors is crucial for developing effective intervention strategies that maximize peak bone mass, defined as the amount of bone attained at the end of skeletal development, and reduce the risk of osteoporosis, falls, and fractures later in life [2,3]. Physical activity (PA) has been positively related to bone health outcomes, and physically active youngsters have shown higher levels of lean mass [4], which is a strong predictor of bone mass [5]. Ca intake recommendations for European people aged 19–50 years range from 700 mg/day to 1000 mg/day, of which more than
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