Impairment of vitamin D metabolism due to environmental cadmium exposure, and possible relevance to sex‐related differences in vulnerability to the bone damage

Abstract

To determine whether depleted serum 1α,25‐dihydroxyvitamin D (VD) concentrations are associated with cadmium (Cd)‐induced renal damage, the relationships between four indices of renal function and two indicators of bone metabolism, that is, serum VD and parathyroid hormone (PTH) concentrations, were analyzed in 30 male and 44 female subjects exposed to environmental Cd. Also, these associations were compared in male and female subjects to evaluate sex‐related differences in vulnerability to the bone damage observed in Cd‐exposed persons. Serum VD decreased significantly with declines in creatinine clearance and percentage tubular reabsorption of phosphate, and with increases in serum creatinine and serum β₂‐microglobulin (β₂m) concentrations in the female subjects exposed to Cd, but not in the male subjects. The correlation between serum VD and PTH levels was also significant only in the females. Correlation coefficients between serum β₂m and VD and those between serum PTH and VD in both sexes were significantly different. These results suggest that renal damage due to Cd exposure leads to the decreases in the serum VD level and increases in serum PTH level, and that the more marked changes in serum VD and PTH in the women may play a role in the development of sex‐related differences in Cd‐induced bone injury.