Sumiaki Okamoto

Alfacalcidol reduces accelerated bone turnover in elderly women with osteoporosis

To evaluate the effects of alfacalcidol on bone turnover in elderly women with osteoporosis, an open-label, prospective, calcium-controlled study was conducted. A total of 80 patients with osteoporosis were divided into two groups: the control group, group C (mean age, 78.0 years), in which patients were given calcium, and group D (mean age, 77.4 years), in which the patients were given alfacalcidol 1 µg/day together with calcium for 6 months. Calcium regulation, lumbar bone mineral density (LBMD), and markers for bone turnover were assessed. A significant increase in urinary calcium/creatinine ratio (90% increase from baseline at 3 months; P = 0.0083, and 60% at 6 months; P = 0.0091) and a significant decrease in serum parathyroid hormone (30% decrease from baseline at 6 months; P < 0.0001) was observed in group D compared with the corresponding changes in group C. Significant decreases of bone resorption markers (deoxypyridinoline and N-telopeptide) at 6 months (about 15% decrease from the baseline values) were observed in group D compared with the corresponding changes in group C. The changes in bone formation markers (bone-derived alkaline phosphatase and osteocalcin) in group D were significantly different at 6 months (−21.5%; P = 0.0047 and −13.4%; P = 0.0032, respectively) from the values in group C. The magnitudes of the decrease in bone turnover markers were highly correlated with the corresponding baseline values, suggesting that alfacalcidol treatment effectively reduces bone turnover in patients with high bone turnover rates. The LBMD in group D increased by 1.7% and that in group C decreased by 1.6% (P = 0.0384). The changes in calcium metabolism and LBMD were in good agreement with those in previous reports. Although the changes in bone turnover markers in group D were slight, significant reduction in bone turnover with alfacalcidol treatment, together with the change in calcium metabolism, may account for the effects of alfacalcidol on BMD and on fracture prevention reported previously. In conclusion, alfacalcidol reduces bone turnover in elderly women with high-bone-turnover osteoporosis, and it may have beneficial effects on bone.

Stimulation of thyroid adenylate cyclase activity by sera from patients with non-thyroidal illness

We have previously shown that sera from many hypothyroid patients stimulated adenylate cyclase activity as measured by serum bioactive TSH concentrations produced by FRTL-5 cell line. This TSH-stimulating activity did not correlate with serum immunoreactive TSH. IgG fractions of these sera did not stimulate FRTL-5 cells. The present study was, therefore, undertaken to investigate the thyroid stimulating activity of sera from patients with non-thyroidal illness. Studies were performed in 36 patients with various non-thyroidal illness. In these patients, serum concentrations of T4, free thyroxine, T3, and TSH were determined. In addition, sera were incubated with FRTL-5 cells or porcine thyroid cells in primary culture in the presence of 0.4 mM MIBX, and medium cAMP concentrations were determined by radioimmunoassay. Sera obtained from some patients with various non-thyroidal illness increased cAMP concentrations in culture media of FRTL-5 cells as well as that of porcine thyroid cells. The thyroid stimulating effects of sera were not disease specific and significantly correlated inversely with serum T3 and T4 concentrations. Serum TSH concentrations in these patients were within the normal range even by the newly developed ultrasensitive assay. Although the nature of substance(s) present in sera of patients with low T3 syndrome which stimulates thyroid adenylate cyclase is not entirely known, it is conceivable that there exist mechanisms independent of TSH to compensate the decreased serum T3 levels in low T3 syndrome.

Subnormal secretion of parathyroid hormone prevents age-related bone loss

Parathyroid hormone (PTH) is a key factor involved in the systemic regulation of bone resorption. It is well known that a high turnover of bone occurred together with the reduced bone mass in patients with hyperparathyroidism. However, the effect of subnormal secretion of PTH on age-related bone loss has not been extensively investigated. Recently, some investigators and us have focused on the effect of suppressed PTH secretion and have demonstrated that patients with subnormal secretion of PTH preserved a relatively higher bone mineral densities than age- and sex-matched controls. We believe that these results will give a new insight into the mechanism of age-related bone loss or osteoporosis. Further studies are needed to evaluate the mechanisms of this protective effect of suppressed PTH secretion on bone mass.