W J Visser

Bone and Mineral Metabolism in BB Rats With Long-Term Diabetes: Decreased Bone Turnover and Osteoporosis

The effect of long-term diabetes mellitus on bone and mineral metabolism was studied in BB rats. Diabetic rats were treated with 1 U of long-acting insulin every other day for 12 wk and compared with nondiabetic littermates. Urinary calcium excretion was increased > 10-fold, but serum total and diffusible calcium remained normal. Serum concentrations of both 1α,25-dihydroxyvitamin D3 and vitamin D–binding protein were significantly decreased in diabetic rats. The intestinal calbindin-D 9K concentration was decreased by nearly 50%, and active duodenal calcium absorption was totally abolished. Trabecular bone volume measured in the tibial metaphysis was decreased by 44%, and the osteoblast and osteoid surfaces were <10% of values observed in control rats, whereas the osteoclast surface was unchanged by diabetes. The daily bone formation (bone mineral apposition rate) measured by labeling twice with calcein was decreased by 86% in diabetic rats. The serum concentration of osteocalcin, a biochemical marker of osteoblast function, was similarly decreased (mean ± SE 23 ± 3 and 62 ± 4 μg/L in diabetic [n = 15] and nondiabetic [n = 15] rats, respectively). Serum osteocalcin was significantly correlated with the serum concentration of insulinlike growth factor I (r = 0.89, P < 0.001). Bone strength measured as the energy needed to fracture the femur was markedly decreased (5.3 ±1.4 and 8.4 ± 1.3 N · m · degree in diabetic and nondiabetic rats, respectively; P < 0.01). These histological, chemical, and biomechanical data clearly indicate that long-standing diabetes in BB rats results in severe low-turnover osteoporosis probably related to decreased osteoblast recruitment and/or function.

Androgen resistance and deficiency have different effects on the growing skeleton of the rat

Mature male, female, and androgen-resistant testicular feminized (Tfm) male rats of the same strain were sacrificed at the age of 120 days. Young male and Tfm rats were orchidectomized (orch) at 1 month of age and sacrificed at 120 days. The right femora were dissected, cleaned, defatted, and scanned with the Hologic QDR-1000. Orch and Tfm rats had similar body weights that were intermediate between body weights of their normal male and female littermates. Serum IGF-I concentrations were lowest in Tfm rats; IGF-1 concentrations in orch rats were not lower than in males. Dual-energy X-ray absorptiometry yielded the following results: Total femoral mass and area were lower in female, Tfm rats and in both orch groups compared with intact male rats. Femoral bone density was, however, only decreased in orch rats. Bone density measured in an area containing only cortical bone was not different between groups. However, the density was lower in orch rats in an area containing both cancellous and cortical bone. This finding is consistent with a ±50% decrease of cancellous bone volume in orch rats compared with all other groups at the proximal tibial metaphysis (an area containing mainly cancellous bone). These data show that Tfm rats, despite having lower IGF-I levels in serum, low body weight, and decreased femoral areas, manage—in contrast with orchidectomized rats—to maintain similar trabecular bone densities and volumes during growth. We conclude that trabecular bone densities can be preserved in androgen-resistant male rats independent of bone or body growth velocity or IGF-I secretion. We postulate that the modest increase of estrogen concentration in this animals and/or in situ aromatization may be responsible for the maintenance of the cancellous bone.

Osteoporosis and Diabetes: Lessons from the Diabetic BB Rat

The spontaneously diabetic BB rat was used to study the effect of diabetes on bone. Short-term diabetes (3-4 weeks) resulted in a state of low bone turnover, characterized by a severe decrease in osteoblast/osteoid surface and bone mineral apposition rate on histology, and in serum osteocalcin concentrations. If diabetes was long-term (12 weeks), the parameters of low bone formation were associated with histological evidence of osteoporosis and a decreased bone strength; the relative bone calcium concentration remained normal in diabetes. We conclude that long-standing diabetes results in a low-turnover osteoporosis.

A comparative investigation on autologous mandibular and iliac crest bone grafts an experimental study in sheep

Nine Friesian sheep (age 1.5-2 years) were used to evaluate the quality of bone repair in artificial cleft-like maxillary defects repaired with autologous bone grafts of embryologically different origin. After bilateral extraction of the upper first deciduous molar the tooth socket was enlarged resulting in an open connection between the oral and nasal cavities. In the same session a graft, obtained from the iliac crest, was implanted in one of the two bilateral maxillary defects and on the opposite side a graft, obtained from the mandible, was inserted. During the experiment, serial radiographs were taken. After six months the sheep were sacrificed and the bone of the grafted areas was submitted to histological and histomorphometric investigation. Comparing both areas, it appeared that the quality of bone remodelling and alveolar reconstruction was independent of the origin of the grafts.