Continuous Parathyroid Hormone and Estrogen Administration Increases Vertebral Cancellous Bone Volume and Cortical Width in the Estrogen-Deficient Rat

Abstract

Generally, it is believed that intermittent administration of parathyroid hormone (PTH) has an anabolic effect on the skeleton, whereas continuous administration is catabolic. However, there is evidence that continuous exposure to PTH may have an anabolic effect, for example, in patients with mild primary hyperparathyroidism (PHPT). The possibility of delivering PTH continuously may have important implications for the treatment of osteoporosis. Furthermore, estrogen treatment may be useful in the medical management of PHPT. Therefore, we examined the skeletal effects of continuous administration of PTH, with or without estrogen, in the estrogen-deficient rat with established osteopenia. Forty 7-month-old SD rats were divided into four ovariectomy (OVX) groups and one sham-operated group. Eight weeks post-OVX, three groups received subcutaneous implants of Alzet mini pumps loaded with PTH(1-34) (30 μg/kg per day), 17β-estradiol (10 μg/kg per day) pellet, or both PTH and 17β-estradiol separately for 4 weeks. OVX and sham control groups were given the mini pumps loaded with vehicle. Two doses of calcein (10 mg/kg) were given subcutaneously to all rats 2 days and 8 days before death. Histomorphometry was performed on cancellous and cortical bone of the fourth lumbar vertebra. At 3 months, post-OVX rats displayed bone loss with high bone turnover. Estrogen reversed OVX-mediated high turnover without restoring cancellous bone volume (BV/TV). PTH infusion further increased bone turnover and partially restored BV/TV. However, PTH infusion increased cortical porosity. Estrogen inhibited PTH-mediated cancellous bone resorption and substantially increased BV/TV above sham control. The combined treatment was associated with a significant increase in peritrabecular fibrosis and woven bone formation. The combined treatment of PTH infusion and estrogen replacement enhanced cortical width but estrogen did not prevent the PTH-induced cortical tunneling. We conclude that continuous administration of PTH and estrogen increases cortical porosity but has substantial beneficial effects on vertebral cancellous bone volume and cortical width in OVX rats.