Bone histological heterogeneity in postmenopausal osteoporosis: a sequential histomorphometric study

PERICELLULAR PARTIAL OXYGEN PRESSURE (pO2) MEASUREMENT IN OSTEOPENIC BONE-DERIVED OSTEOBLAST CULTURES

In order to achieve further information on the in vitro behaviour of osteoblasts derived from osteopenic bone, in the present study comparative measurements of some parameters of cell proliferation, metabolism and differentiation and also of the pericellular partial oxygen pressure (pO2) were performed on normal and osteopenic bone derived osteoblasts from heathy and osteopenic rats. The respiration rate was increased in osteoblasts derived from osteopenic bone as compared to normal cells at 48 hours and 7 days, involving a significant decrease in pericellular pO2 in the culture medium. At 48 hours, in osteopenic bone-derived cells, a significant increase in MTT and a significant decrease of osteocalcin were observed. At 7 days, cell count highlighted a significant slowing down of the proliferation of osteopenic bone-derived osteoblasts. No significant differences were observed for alkaline phosphatase activity, nitric oxide and type I collagen production. The present preliminary results may be taken into consideration also in in vitro comparative biocompatibility or osteointegration studies of biomaterials in normal and osteopenic bone-derived cells because a decrease in pericellular pO2 in these tissue cultures could influence results on material behaviour.

Osteoblasts cultured from osteoporotic bone: a comparative investigation on human and animal-derived cells

In vitro studies on pathophysiology and innovative treatments of many orthopaedic diseases, based on the investigations of cells from pathologic skeletal tissues, greatly improve basic knowledge of osteoporosis. Primary osteoblast (OB) cultures derived from osteopenic bone from different species (human, rat, sheep) were compared to assess the differences that should be taken into account when performing in vitro biocompatibiliy tests or investigating pharmacological and physical treatments. Primary OB were isolated from osteopenic patients and animals by well-established methods and their metabolism was assessed with or without 1,25(OH)2D3. The greatest significant differences were observed between rat and human cells both under basal conditions and after 1,25(OH)2D3 stimulation. In addition, the response to 1,25(OH)2D3 stimulation of OBs from osteopenic rats was significantly different from that of human and sheep OB cultures, in terms of NO, OC, IL-6, and TGF-beta1. Cells derived from osteopenic sheep behaved much more similarly to those from humans, except for a significant difference in terms of TGF-beta1 observed both under basal conditions and after stimulation.

Human osteoblast cultures from osteoporotic and healthy bone: biochemical markers and cytokine expression in basal conditions and in response to 1,25(OH)2D3

The development of methods to culture bone cells has enhanced in vitro studies and allowed researchers to investigate bone cell metabolism in healthy tissue and in various different bone diseases. Greater knowledge of cultures of pathologic bone tissue-derived osteoblasts may be helpful in performing in vitro experiments that test biomaterials and therapies to be used in the orthopedic field, since this kind of approach better reflects the conditions of clinical relevance to many patients. In the present study primary cultures of human osteoblastic cells were isolated from donors with osteoporosis (HOB, Human Osteopenic Bone) and their respective controls (HNB, Human Normal Bone). They were then characterized in baseline conditions and after stimulation with 10(-9) M 1,25(OH2)D3. Specific biochemical markers of bone cells and cytokines involved in bone turnover were evaluated to assess cell metabolism and any possible differences between osteoblasts derived from healthy and osteopenic bone tissue. Under baseline conditions, HNB and HOB in vitro cultures showed some differences in proliferation (MTT test), PICP, OC and IL-6. The HNB response to 1,25-(OH2)D3 stimulation differed significantly from that of the HOB cultures but only with regard to the MTT test, and ALP and PICP levels; the other selected parameters showed a similar behavior for both cultures. The current findings should be taken into account when cultures derived from human bone are used for in vitro experiments.

Effect of L-lysine and L-arginine on primary osteoblast cultures from normal and osteopenic rats

A therapeutic role of amino acids L-lysine (Lys) and L-arginine (Arg) in osteoporosis and fracture healing was demonstrated previously by in vivo studies. In the present study, primary cultures of osteoblasts were used to investigate the effect of amino acids on gene expression (alkaline phosphatase activity, ALP; osteocalcin, OC; type I collagen), nitric oxide production (NO) and proliferation (MTT) of cells. Cells were isolated from the distal femurs of normal and osteopenic rats. Normal and osteopenic bone-derived cells were divided into four groups: control, Lys (0.587 mg/mL/d), Arg (0.625 mg/mL/d), and Lys + Arg (0.587 + 0.625 mg/mL/d). No evidence of differences between normal and osteopenic bone-derived cultures in basal conditions was observed. A significant (P = 0.002) increase of 10.4% in NO production was observed in normal bone-derived osteoblasts treated with Lys + Arg when compared to the control group at 7 days. At the same time, normal bone-derived osteoblasts treated with Arg and Lys + Arg showed significant increases in type I collagen synthesis of 25.3% and 28.4%, respectively, when compared to the control group. Osteopenic bone-derived osteoblasts showed significant (P = 0.002) increases of 27.6% in MTT and 28.7% in cell count at 48 hours when treated with Lys + Arg in comparison with the control group. At 7 days, NO production and type I collagen synthesis increased significantly (P< 0.005) both in osteopenic bone-derived osteoblasts treated with Arg (NO: 18.5%; type I collagen: 34.4%) and Lys + Arg (NO: 23.7%; type I collagen: 20.9%) compared to the control group. Finally, a significant (P = 0.025) decrease of 5.8% in OC level was observed in osteopenic bone-derived osteoblasts treated with Arg. Results suggest that the potential therapeutic effect of Lys and Arg on bone could be related, at least in part, to an improvement of NO production and type I collagen synthesis by osteoblasts both in normal and in osteopenic bone. In osteopenic bone-derived osteoblasts this synthetic phase is preceded by an initial increase of cell proliferation.

Viability of the acetabular bone bed at revision surgery following cemented primary arthroplasty

Loosening of total hip replacements is often associated with severe loss of periprosthetic bone. The notion exists that the remaining bone is sclerotic, avascular, and displays little osteogenic activity, and that it therefore potentially compromises the revitalization of bone grafts used to restore bony defects. To verify this opinion we studied the bone characteristics in acetabular bone biopsies taken at primary total hip arthroplasty (PTH) and revision total hip arthroplasty (RTH) for a cemented PTH. In 6 PTH patients and in 10 RTH patients, acetabular bone biopsies were taken from the roof, the center, and the lower rim of each acetabulum. Specimens were evaluated by light microscopy and histomorphometrically measured for specimen size, bone area, perimeter, active osteoid perimeter, number of vessels, and osteoclasts. The vascularity and vitality appeared to be comparable in the RTH and PTH bone biopsies. However, the trabecular organization of the RTH bone differed from that of the PTH biopsies. In the PTH biopsies, the trabeculae were running perpendicular to the subchondral bone layer, whereas in the RTH biopsies the layers of bone were oriented parallel to the implant surface. There was abundant remodeling activity in the RTH bone, with large quantities of active osteoid and osteoclasts. These histologic parameters differed, but not statistically significant, from the PTH biopsies. In conclusion, we found that at revision, the acetabular bone was viable with sufficient vascularity and remodeling activity to provide an acceptable recipient host bone bed for revision surgery combined with bone grafting.

Increase in bone mass of older postmenopausal women with low mineral bone density after one year of percutaneous oestradiol implants

OBJECTIVE

To evaluate the effect of 75 mg oestradiol implants on the bone mass of older postmenopausal women with osteoporosis.

DESIGN

One year prospective-controlled study.

SUBJECTS

Thirty-two postmenopausal women over 60 years of age and more than five years postmenopausal with low bone density were recruited. Thirty women completed treatment for one year with 75 mg oestradiol implants. The changes in bone density were compared with a control group of 14 women. The side effects with treatment were documented.

MAIN OUTCOME MEASURES

Dual energy X-ray absorptiometry of the lumbar spine and proximal femur using Hologic 1000 QDR before treatment and at one year. Plasma oestradiol assays were performed before and after one year.

RESULTS

The median percentage changes in the treated group after one year was 12.6% at the lumbar spine and 5.22% at the total hip. The increase in vertebral bone density was greatest in women with low initial bone density (r = -0.35, P < 0.05) and those with highest treatment plasma oestradiol levels (r = 0.47, P < 0.01). Side effects were common but most were transient and mild in nature.

CONCLUSION

75 mg oestradiol implants significantly increase the bone mineral density at the spine and hip of older postmenopausal women with established osteoporosis.

Temporal variations in iliac trabecular bone formation in vertebral osteoporosis

The histologic heterogeneity of osteoporosis relative to normal controls has attracted great interest. There has been controversy as to whether patients with high turnover osteoporosis may convert to a normal or low turnover form, and vice versa. We have studied 44 patients over 12 years by dynamic histomorphometry and 85Sr kinetics+calcium balance performed within 60 days in 20 patients (Group 1) and 75-808 days apart in the remainder (Group 2). In the first group, the histologic tissue level bone formation rate (BFR/BV or BFR/BS) was predictive of the 85Sr measurements of bone formation (r = 0.66 P < 0.01). There was no statistically significant correlation in Group 2 and the regression coefficients were significantly different (P = 0.01). Periodic regression was used to determine if seasonal changes were responsible for this loss of correlation; none was found that was of statistical significance. No systematic changes with time in bone formation were found in Group 2 during the period of observation; nor were consistent secular changes detected when the data for both groups were examined according to procedure date. In conclusion, bone formation may change with time in postmenopausal osteoporosis. Evidence that these changes are systematic was not found and this has implications for the design of treatment studies.

Iliac trabecular bone formation predicts radial trabecular bone density changes in type 1 osteoporosis

In 28 patients with idiopathic or postmenopausal type 1 (spinal crush fracture) osteoporosis, resorption indices and dynamic measurements of trabecular bone formation based on in vivo tetracycline labeling in 7.5 mm transiliac biopsies have been compared with trends in radial cortical and trabecular bone density measured with computed tomography. Positive correlations were observed between trabecular bone density trends in the radius and indices of bone formation in the ilium. These were improved when one of the two resorption indices was included with a formation index in bivariate regressions. Marked interindividual variations in radial bone density trends were also seen in cortical bone. These correlated poorly with trends in trabecular bone. Weak negative relationships between cortical bone trends and indices relating to bone formation and resorption were observed, but a positive association was seen with single-labeled surfaces on iliac trabeculae. If, as has been suggested, there are periodic variations in bone formation, the results suggest that axial and peripheral trabecular bone density trends are synchronized in osteoporosis, perhaps in response to systemic factors, such as circulating hormones.

The relationship between serum vitamin D concentrations and in vivo tetracycline labeling of osteoid in crush fracture osteoporosis

Twenty of 22 consecutive British patients with crush fracture osteoporosis had transiliac bone biopsies following double in vivo tetracycline labeling synchronized with the collection of serum for the measurement of vitamin D metabolites. A significant but direct (rather than inverse) relationship was found between 25-hydroxyvitamin D (calcidiol) levels and the fraction of cancellous surfaces covered with osteoid not taking either tetracycline label (r = 0.53, P less than 0.02). There was no correlation with 1,25-dihydroxyvitamin D levels. No patient had frankly thickened osteoid seams although 3 had reduced but measurable calcidiol levels. These results make it unlikely that the majority of patients with osteoporosis who have osteoid of normal thickness but reduced uptake of tetracycline have a mineralization defect secondary to vitamin D deficiency. The pathophysiological significance of unlabeled osteoid in osteoporosis requires further investigation.

A comparison of iliac bone histomorphometric data in post-menopausal osteoporotic and normal subjects

Transilial bone biopsies following in vivo fluorochrome labeling were obtained from 90 women with postmenopausal osteoporosis and 34 healthy post-menopausal women. Standard histomorphometric data were collected from undecalcified sections. The distribution of values for both structural and remodelling indices was the same for each group. Bone volume was 35% lower (P less than 0.001), wall thickness was 12% lower (P less than 0.001), and trabecular thickness was 11% lower (P less than 0.02) in osteoporotics. Trabecular separation was 34% greater (P less than 0.001) and trabecular number was 36% lower (P less than 0.001) in osteoporotics. Biopsy core width was 11% less (P less than 0.02) and cortical width was 35-50% less (P less than 0.001) in osteoporotics. Static indices of remodelling, mineralizing surfaces, and mineral apposition rate were similar in the two groups. The absolute values for bone histomorphometric variables for both groups are similar to most published data. Osteoporotics had poorer bone structure, marked by decreased trabecular connectivity and thin cortices. There were no major differences in dynamic indices of remodelling. Since the histomorphometric data were distributed the same in both groups, special subsets of osteoporotic subjects not in the normal population did not exist.

Bone remodelling in osteoporosis

Bone remodelling, a highly regulated succession of events, is the temporal sequence of osteoclastic bone resorption and osteoblastic bone formation. Bone loss with age and in osteoporotic patients is due to a disequilibrium between both processus. Bone histomorphometry was the method used to measure these events. Its shows clearly that, with age, the quantity of bone formed in one remodelling unit (so called mean wall thickness) decreases. In osteoporotic women, compared to control women of the same age the amount of bone formed is also decreased. Concordant data on this point have been obtained in different laboratories. By contrast, the cellular mechanism underlying this decreased amount of bone formed is largely controversial: a decreased osteoblast recruitment or life span or capacity to synthesize collagen have been suggested. Bone loss with age is associated with an increase in the amount of bone resorbed. This observation is the result of an indirect measurement founded on the distance between trabeculae. As the decreased bone formation, this processus is exaggerated in postmenopausal osteoporosis. The respective importance of decreased bone formation and increased bone resorption is however difficult to assess. Some osteoporotic patients have increased bone resorption surfaces compared to control women on their bone biopsy; however, it does not seem that these patients form a definite subgroup of osteoporotic patients as the extent of resorption surfaces changes with time in an untreated osteoporotic. In conclusion, the observed changes in bone remodelling in osteoporotic post-menopausal women are an exaggeration of those observed during ageing. These changes should be a basis for a coherent therapy of bone loss in osteoporotic patients.

Decreased bone formation in osteoporotic patients compared with age-matched controls

In order to study trabecular bone remodeling in postmenopausal osteoporosis we compared bone biopsies of 44 osteoporotic women aged 50-70 to those of 23 nonosteoporotic women, matched for age, who had a bone biopsy during anesthesia for knee arthritis. Trabecular bone volume, mean wall thickness, osteoblastic surfaces, labeled surfaces, and bone formation rate were decreased in osteoporotic women compared with control women. The osteoclast number and the osteoclastic surfaces were the same in the two groups. The normal distribution of the histomorphometric static parameters in osteoporotic patients did not allow the separation of subgroups. These data indicate that decreased bone formations is a major contributing factor leading to trabecular bone loss in postmenopausal osteoporosis.