( PDF ) Rev Osteoporos Metab Miner. 2019; 11 (4): 85-86
2 Trauma Unit associated with the Shoulder Unit. Department of Orthopedic Surgery and Traumatology Virgen Macarena University Hospital. Seville (Spain)
Raised levels of air pollution have recently been been linked to the induction of inflammatory phenomena at both systemic and tissue levels. Chronic inflammatory diseases, such as rheumatoid arthritis or chronic obstructive pulmonary disease, reduce bone mineral density (BMD), which leads to an increase in the release of immune cells from the bone marrow. Particulate matter is associated with oxidative damage and inflammation, which can accelerate bone loss and increase the risk of fractures in older adults. However, the association between air pollution and osteoporosis is not yet well defined in the literature.
It seems that there are other indirect routes, such as vitamin D and PTH, which may also be altered by contamination and are involved in bone remodeling [1-8]. In the first place, air pollution (microparticles and ozone) presents a physical barrier to ultraviolet B solar radiation, thus contributing to a lower cutaneous production of vitamin D [2,4,5]. Similarly, a study conducted in the United States  indicated the relationship between low levels of PTH in blood and elevated levels of microparticles and carbon in the air, causing indirect harmful effects on bone mass.
To appreciate the importance of these findings, we should take into account the complex etiology of osteoporosis and its consequence of fragility fractures in the general population. Osteoporosis is a systemic disease. Approximately one third of women and one tenth of men over 50 have osteoporosis or osteopenia. The statistics allow us to calculate that approximately one in two women and one in three men over 50 will suffer a fragility fracture during their lifetime.
These patients are more apt to suffer a second fracture, in addition to developing chronic pain, greater dependence on basic activities of daily living and a reduction in their quality of life.
However, the available literature offers conflicting results. In their study, Prada et al.  argue that osteoporosis and fragility fractures may be related to air pollution, since populations in areas of higher environmental concentrations of particles smaller than 2.5 μm presented a lower BMD with higher hospital admission rates for fractures. Chang et al.  obtained similar results in their study in Taiwan, where they discovered that air contaminated with higher concentrations of nitrogen dioxide (NO2), together with carbon monoxide, increased the risk of osteoporosis and fractures.
Mazzucchelli et al.  consider the association of the levels of different air pollutants on the incidence of osteoporotic hip fracture in a region of southern Europe, detecting an association between SO2 and NO2 and hospital admissions due to hip fracture. In a second study , however, these same authors established that at the time of the year with the most adverse weather conditions, such as winter and autumn, there were more cases of fractured hip fractures. Apparently, this phenomenon is due to the fact that at these stages of the year the environment is impregnated with fog and rainwater, and the ground is wet, slippery or covered with tree leaves, which increases the risk of falls and, therefore, fractures, especially those of the hip.
However, in the article published in this issue of the Journal of Osteoporosis and Mineral Metabolism, Ormeño and Quevedo  do not find a statistically significant association between environmental pollution and the incidence rate of hospital discharges due to osteoporotic hip fracture in Chile. To its credit, this analysis assesses more than 8,000 hospital discharges in 2017, and, in addition, considering hip fracture as the main objective. As a weakness, it is a retrospective analysis and does not assess the health habits of the population evaluated.
Given the importance of the problem and the different points of view in the literature, we believe more studies are necessary to establish the true relationship between air pollution and osteoporotic fractures. After all, we belong to an ecosystem and everything that alters it can have harmful effects on the fine balance of life.
Conflict of interests: The authors declare no conflict of interest.
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