Abstract
Although parathyroid hormone (PTH) expresses an anabolic effect on bone mass, the increased bone mass disappears once PTH treatment is withdrawn. Therefore, sequential treatment with anti-bone-resorptive agents is required to maintain bone mass after PTH treatment. We examined the effect of sequential treatment with ibandronate (IBN), a nitrogen-containing bisphosphonate, following PTH in ovariectomized (OVX) rats. Wistar-Imamichi rats (27 weeks old) were ovariectomized and treated with PTH (10 µg/kg, s.c.; 5 times/week; PTH group) for 8 weeks from 8 weeks after OVX. Thereafter, PTH was withdrawn and rats were administered IBN (10 µg/kg, s.c.; every 4 weeks; PTH-IBN group) or vehicle (PTH-Veh group) for another 8 weeks. PTH increased bone mineral density (BMD) measured by dual-energy X-ray absorptiometry and biomechanical strength in the lumbar spine and femur as compared to the disease control rats. BMD and biomechanical strength in the PTH-Veh group were lower than in the PTH group, whereas in the PTH-IBN group they were maintained at the level of the PTH group. Microstructure of the trabecular and cortical bone in the PTH-IBN group was not significantly different from that in the PTH group. In histomorphometric analysis of the lumbar vertebra, eroded surface and osteoclast surface in the PTH-Veh group were no different from those in the PTH group, whereas they were lower in the PTH-IBN group. Osteoid surface, osteoblast surface, and mineralize surface decreased in both PTH-IBN and PTH-Veh groups compared to the PTH group, and these parameters in the PTH-IBN group were lower than in the PTH-Veh group. These results indicated that intermittent IBN after PTH treatment suppressed bone turnover and maintained BMD, biomechanical strength, and microstructure in the lumbar spine and femur of OVX rats.
Highlights
Agents for the treatment of osteoporosis fall into two major classes: anti-bone-resorptive agents and anabolic agents
Osteoblast surface, and mineralize surface decreased in both parathyroid hormone (PTH)-IBN and PTH-Veh groups compared to the PTH group, and these parameters in the PTH-IBN group were lower than in the PTH-Veh group. These results indicated that intermittent IBN after PTH treatment suppressed bone turnover and maintained bone mineral density (BMD), biomechanical strength, and microstructure in the lumbar spine and femur of OVX rats
The increase in BMD induced by PTH is rapidly lost after withdrawal of PTH [8,9,10]
Summary
Agents for the treatment of osteoporosis fall into two major classes: anti-bone-resorptive agents and anabolic agents. There are several types of anti-resorptive treatment, such as bisphosphonates, receptor activator of nuclear factor kappaB ligand inhibitors, selective estrogen receptor modulators, and vitamin D analogues. In postmenopausal women with prevalent vertebral fractures, PTH is reported to increase. Bone mineral density (BMD) of the spine and reduce the risk of vertebral fractures [3]. Favorable effects of PTH on BMD and fracture risk are reported in men with osteoporosis [4]. Owing to its high potential to increase BMD and reduce fracture risk, PTH is used for the treatment of osteoporosis patients that have a high risk of fracture. Because carcinogenicity studies in rats have found that PTH induces osteosarcomas, the use of PTH is limited to no more than 2 years [7]
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