Osteoid Perimeter Research Articles

Mycophenolate mofetil: a promising new immunosuppressant that does not cause bone loss in the rat.

Posttransplantation bone disease is a well-described phenomenon; among its etiology is immunosuppressant-induced bone disease. Mycophenolate mofetil (MMF) has emerged as a promising new immunosuppressant. Our study was designed to investigate the effect of MMF on in vivo bone mineral metabolism. Twenty-four 6-month-old male Sprague-Dawley rats were randomized into two groups to receive either MMF vehicle daily for 28 days or 30 mg/kg MMF daily for 28 days. The serum was assayed for osteocalcin and 1,25-dihydroxy vitamin D3. Subsequent to double-labeling, the right tibiae were removed on day 28 for histomorphometry. MMF suppressed bone gla protein (osteocalcin) levels on days 14 and 28 (P < 0.05). Except for percentage osteoid perimeter, there was no difference in bone histomorphometry between the two groups. In this relatively short-term study, MMF did not cause osteopenia in the rat model, but the suppressed bone gla protein merits further study.

Supraphysiologic levels of testosterone affect cancellous and cortical bone in the young female cynomolgus monkey.

The goal of this study was to evaluate the effects of chronically-elevated male levels of the potent androgen testosterone on the quality and quantity of both cancellous and cortical bone in a young (mean age 8.0 years), nonhuman female primate model (M. fascicularis). Thirteen intact female monkeys received continuous testosterone supplementation via subcutaneous implants over a 24-month period. A group of 16 untreated, intact, age-matched female monkeys served as controls. At sacrifice, the lumbar vertebrae and femora were recovered in order to analyze the bone mineral quality and quantity of cancellous and cortical bone, respectively, and compared to the control group. Mineralization profiles of the vertebrae and femora were obtained using the density fractionation technique. Chemical analysis of the three largest fractions retrieved by density fractionation was performed to evaluate differences in %Ca, %P, Ca/P ratio, and mineral content (%Ca + %PO4) between the control and experimental groups. In addition, unfractionated bone powder was examined by X-ray diffraction to identify any changes in crystal size. Coronal sections of vertebrae were analyzed for structural parameters using histomorphometry and image analysis. Cross sections taken at the midshaft diaphyseal femora were analyzed for structural macroscopic and intracortical parameters. A nonsignificant shift in the mineralization profile of the vertebrae was observed whereas there was a significant shift in the mineralization profile towards more dense bone in the treated femora as compared with controls (P < 0.05). There was no difference in terms of size/strain of the cortical or cancellous bone crystal as detected by X-ray diffraction. There was a trend towards an increase in cancellous bone area (B.Ar.) in the testosterone-treated vertebrae (P = 0.08) as compared with controls. The architecture of the cancellous bone remained nonsignificantly different between the treatment and control groups as evaluated by image analysis. There was a decrease in osteoid perimeter (P = 0.05) in the experimental group as compared with controls. There was a significant decrease in eroded perimeter measurements in the experimental group as compared with controls (P < 0.03). Although there was a trend towards an increase in cancellous bone area, mineralization was not significantly different in the vertebrae of testosterone-treated female monkeys, indicating that the newly-formed bone tissue became relatively normally mineralized over the two-year period. An increase in bone area, with indices of an overall decreased remodelling pattern as compared with controls, suggests that cancellous bone in the young, nonhuman female primate had been receptive to supraphysiologic levels of testosterone supplementation over the two-year period. There was a trend for an increase in cortical bone area and width with an increased periosteal perimeter in the testosterone-treated group as compare with controls. There was an increase in intracortical remodelling activity with a significant increase in percent porosity (P < 0.05), osteonal bone (P < 0.05), and mean wall width (P < 0.05) in the testosterone-treated group. In conclusion, the cancellous bone from female monkeys appeared to respond to the antiresorptive stimulus of male levels of testosterone with significantly diminished turnover parameters in this compartment. In contrast, the cortical bone compartment responded by displaying significant intracortical remodelling over a two-year period.

Short-term systemic insulin-like growth factor-1 is unable to prevent cyclosporin A-induced osteopenia in the rat.

Immunosuppression with cyclosporin A (CsA) is effective in a number of immune-mediated diseases and in preventing rejection following organ transplantation. We have repeatedly demonstrated that CsA in the rat model produces accelerated bone remodelling with net bone loss, best characterized in trabecular bone. IGF-I holds promise as a treatment for various osteopenic conditions. Although currently a subject of much controversy, various studies have suggested that in vivo it is anabolic to cortical as well as trabecular bone. The purpose of this study was, in part, to further characterize the effects of CsA and IGF-I on trabecular and cortical bone, and to see whether systemic IGF-I is able to modulate CsA's deleterious skeletal effects. Sixty 10 week-old, male, Sprague-Dawley rats were randomized to receive the following daily for 3 weeks: (1) CsA vehicle (veh) per os (po) + recombinant human (rh) IGF-1 veh subcutaneously (sc); (2) CsA 15 mg/kg po + rhIGF-I-veh; (3) CsA-veh + rhIGF-I 200 microg/kg sc; (4) CsA-veh + rhIGF-I 600 microg/kg sc; (5) CsA 15 mg/kg + rhIGF-I 200 microg/kg, and (6) CsA 15 mg/kg + rhIGF-I 600 microg/kg. Rats were weighed and venous blood was sampled serially for determination of glucose, ionized calcium (Ca2+), PTH, vitamin D, and osteocalcin. Following sacrifice on day 20, histomorphometry was performed on double calcein-labeled tibial metaphysis and diaphysis. All rats receiving CsA had elevated levels of blood glucose and osteocalcin by day 9 and vitamin D at day 20. PTH was similar in all groups, and Ca2+ was only raised in the CsA and CsA + IGF-I 200 microg/kg groups. Rats receiving IGF-I 200 microg/kg and IGF-I 600 microg/kg gained more weight than either vehicle- or CsA-treated animals, attesting to IGF-1's anabolic properties. CsA caused severe trabecular bone loss, not prevented by IGF-I; it even further increased the eroded surface. CsA and IGF-I had little effect on cortical bone volume or marrow area. IGF-I increased endocortical matrix synthesis, as evidenced by the increases in the percent endocortical osteoid perimeter, an effect negated by the addition of CsA. This experiment demonstrates that trabecular bone is more susceptible than cortical bone to the deleterious effects of CsA and indicates little role for IGF-1 in the pathophysiology or treatment of CsA-induced bone disease at the given doses and duration of treatment.

Effect of capacitive coupled electrical stimulation on regenerate bone

An in vivo study was carried out to determine if capacitive coupled electrical stimulation increased the rate of recovery of strength of regenerate bone produced as a result of lengthening by the Ilizarov technique. Thirty-four adult male beagles underwent a right tibial mid-diaphyseal corticotomy, followed by a 5-day delay, and then 21 days of lengthening (1 mm/day). At the start of the post-distraction period (day 27), stimulation (3-6.3 V peak to peak, 5-10 mA root-mean-square at 60 kHz) was applied for 28 days to one group. The nonstimulated group (n = 17) underwent a 28-day period with no stimulation. From each group, four tibiae were prepared for histology; both ends of the remaining bones were embedded in polymethylmethacrylate and tested in torsion (internal rotation at 4.7 degrees/sec) until failure. Statistically significant changes included a 37% lower maximum torque capacity and a 40% decrease in strain energy to failure in the stimulated group compared with the nonstimulated group. The findings are supported by measured trends to a lower modulus of rigidity (37% decrease) and a smaller percentage of active osteoid perimeter (20% decrease) for the stimulated group. The experimental data suggest that when this dose of capacitive coupled electrical stimulation is applied to the regenerating bone created during distraction osteogenesis, it delays the recovery of bone strength compared with an untreated control.

Evidence that intermittent treatment with parathyroid hormone increases bone formation in adult rats by activation of bone lining cells

Previous studies demonstrated that intermittent treatment with PTH increases osteoblast number and bone formation in growing and adult rats. The cellular mechanism for this increase in osteoblast number was investigated in 16-month-old female rats. Continuous [3H]thymidine infusion over a 1-week intermittent PTH [human PTH-(1-34)] treatment period was performed to determine the percentage of newly formed osteoblasts that originate from progenitor cells. To verify increases in bone formation, we performed histomorphometry and Northern blot analysis of selected bone matrix proteins. PTH treatment resulted in dramatic increases in fluorochrome-labeled perimeter (727%), osteoid perimeter (735%), osteoblast number (626%), and steady state mRNA levels of osteocalcin (946%) and type 1 collagen (> 1000%). Autoradiographic analysis of metaphyseal sections revealed no difference in the percentage of [3H]thymidine-labeled osteoblasts between PTH- and vehicle-treated groups (4.3 +/- 1.3% vs. 5.7 +/- 2.7%, respectively). Similar changes were observed in PTH-treated ovariectomized rats. As the PTH-induced increase in osteoblast number did not require proliferation of progenitor cells we carried out an additional experiment in adult ovariectomized rats to determine the onset of PTH action. Incorporation of [3H]proline in the distal femoral epiphysis of PTH-treated adult ovariectomized rats was increased within 24 h. We conclude that the rapid PTH-induced rise in bone formation did not require cell proliferation and was most likely due to activation of preexisting bone lining cells to osteoblasts.

Effect of long-term tamoxifen therapy on cancellous bone remodeling and structure in women with breast cancer.

The effects of long-term tamoxifen therapy on bone remodeling were studied in 41 women with breast cancer, 22 treated with tamoxifen for a minimum of 15 months (mean 33) and 19 untreated. Transiliac crest bone biopsies were obtained and a comprehensive histomorphometric analysis performed using a semiautomatic image analysis system. There were no statistically significant differences between the two groups in bone area, osteoid perimeter and area, or osteoid width. Mineral appositional rate, adjusted appositional rate, and mineralization lag time were also similar in the two groups; however, tissue-based bone formation rate was significantly lower in the tamoxifen-treated women (p = 0.05) and the remodeling period significantly longer (p < 0.05). Mean and maximum resorption cavity depth and cavity area were significantly reduced in the tamoxifen-treated patients compared to the untreated patients (p < 0.01, p < 0.01, and p < 0.03, respectively). Calculated and directly measured indices of cancellous bone structure were similar in the two groups, although the data indicated a trend toward greater connectedness in the tamoxifen-treated group. These data indicate that tamoxifen does not exert an antiestrogenic effect on bone remodeling in the human and are consistent with a weak estrogenic effect.

Combined inter-observer and inter-method variation in bone histomorphometry

Manual methods for the measurement of bone biopsies have largely been superseded by semi-automatic computerised techniques. Histomorphometrists often use control data obtained by other observers using different methods, thus combining inter-observer and inter-method variation. We have examined the combined effect of inter-method and inter-observer variation on measurements of bone area, osteoid perimeter, and osteoid width in iliac crest biopsies from healthy subjects, one observer using the manual grid system and the other using a semi-automated technique. Inter-observer and inter-method variation were independently determined, and the proportion of each expressed as a percentage of combined error. Our results indicate that the combination of biter-method and inter-observer variation causes significant differences in the values obtained for osteoid perimeter, whereas inter-method variation is mainly responsible for differences in osteoid width values; differences in bone area are largely due to inherent sampling variation. These variations indicate that caution is required when comparison is made with control data from other sources, especially if different techniques are employed.

Serum osteocalcin is increased in patients with osteomalacia: correlations with biochemical and histomorphometric findings.

The synthesis of osteocalcin or bone gla protein by osteoblasts is markedly stimulated by 1,25-(OH)2D, a key hormone in the regulation of bone mineralization. The circulating levels of osteocalcin have been shown to reflect both the osteoid matrix production and the formation rate of mineralized bone in several metabolic bone diseases (osteoporosis, thyrotoxicosis, primary hyperparathyroidism) in which both mechanisms are tightly coupled because of the absence of mineralization defect. In this study, we measured in 12 patients (7 women, 5 men, 56 +/- 15 yr old) with untreated osteomalacia serum osteocalcin and vitamin D metabolites (25OHD and 1,25-(OH)2D). The results were correlated with biochemical and histomorphometric assessment of bone remodeling. Osteomalacia was due to vitamin D deficiency (5 cases), to vitamin D malabsorption (6 cases), and to hypophosphataemia in 1 case. When compared to control values, serum osteocalcin was increased in patients with osteomalacia (7.4 +/- 4 vs. 3.7 +/- 1.3 ng/mL; P less than 0.001) and was positively correlated with serum alkaline phosphatase (r = 0.65; P = 0.03) and negatively with 25 OHD (r = -0.61; P = 0.04). Serum osteocalcin was not correlated with 1,25-(OH)2D [r = -0.45; not significant (NS)] even after exclusion of the patient with hypophosphataemia. Serum osteocalcin was positively correlated with the osteoid volume and osteoid perimeter (r = 0.71 and 0.69 respectively; P less than 0.01) but not with any of the tetracycline-based parameter of bone mineralization at the tissue level (r ranging from -0.41 to +0.42, NS). Serum 25 OHD, but not 1,25-(OH)2D, was positively correlated with the mineralization rate (r = 0.59; P less than 0.05 and r = 0.54; NS). We conclude that in patients with osteomalacia, a condition which is characterized by an increased osteoid accumulation due to a decreased mineralization rate, the increased level of serum osteocalcin reflects the increased osteoid synthesis but not the mineralization defect. In this disease, serum osteocalcin is inversely correlated to the severity of vitamin D deficiency reflected by serum 25 OHD, but not to the serum levels of 1,25-(OH)2D.

Dose effects on ewe bone remodeling of short-term sodium fluoride administration — A histomorphometric and biochemical study

The early effects of two doses of sodium fluoride (NaF) on bone remodeling was studied in 14 ewes divided into two groups. Group I received orally 1 mg NaF/kg/day and group II received a five-fold greater dose. No calcium supplement was given. Transiliac bone biopsies and blood samples were taken before treatment (T 0) and after 45 (T 45) days of treatment. Bone fluoride content significantly increased in group II. In both groups, a significant decrease of serum calcium and phosphorus, and a slight but nonsignificant augmentation in serum parathyroid hormone were noted. Osteoid perimeter and area were significantly increased. The osteoid width significantly increased in both groups, but was twice higher in group II than I. At T 45, the osteoblast perimeter increased in both groups. Osteoid perimeter was significantly correlated with serum osteocalcin values ( r = 0.74; p < 0.001) and bone fluoride content ( r = 0.64; p < 0.01). The bone formation rate at tissue level tended to increase in both groups. Concerning the apposition rate, a decrease was noted which was 1.5-fold higher in group II than in I. The increased formation period resulted from a prolonged inactive period in group II. These results point out a stimulatory effect of fluoride on the birth rate of osteoblasts. However, fluoride prolonged the lifespan of osteoblasts that had reduced activity.

Fluoride-induced bone changes in lambs during and after exposure to sodium fluoride

The evolution of bone changes induced by fluoride after the end of exposure was investigated in lambs. Sodium fluoride (NaF) was given orally at a dose of 3.5 mg/kg per day to 14 animals for 120 days. A group of 7 control and 7 treated lambs was slaughtered at the end of NaF administration (T120) and another group 120 days after the end of NaF exposure (T240). At T120, the bone fluoride content (BFC) was very significantly increased in treated animals. The histomorphometric analysis confirmed that fluoride induces an increase in bone formation (the osteoid perimeter and area were 3-fold and 4.5-fold higher respectively in treated than in control animals). The number of osteoblasts was significantly augmented. Serum osteocalcin level was twice as high in treated animals compared with controls. The bone formation rate at the tissue level (BFR) doubled after treatment, but the apposition rate (Aj.AR) was half that in the control group. The mineralization lag time (Mlt) was 120 days in treated animals compared with 42 days in controls. At T240, BFC had decreased by 50% compared with the level at T120, but it was still significantly higher than in controls. The osteoid and osteoblastic parameters were 2 and 1.3 times higher than in control animals. BFR remained significantly increased in treated animals, but Aj.AR and Mlt were similar in control and treated animals. In conclusion, after 4 months of NaF exposure fluoride induced an increase in osteoblast natality and bone formation at the tissue level, associated with a toxic effect at the individual cell level.(ABSTRACT TRUNCATED AT 250 WORDS)

Trabecular and endocortical bone remodeling in postmenopausal osteoporosis: Comparison with normal postmenopausal women

To assess the bone turnover abnormalities which characterize postmenopausal osteoporosis with vertebral fractures (PMOp), a transiliac bone biopsy was performed after double labeling of the mineralizing front with tetracycline in 50 untreated PMOp patients who were compared with 13 healthy age-matched volunteer females. The analysis of bone remodeling and structure parameters demonstrated that PMOp is a disease affecting both the cancellous and the endocortical envelopes and characterized by increased resorption and by a marked decrease in the osteoblastic apposition rate due to a reduced duration of bone formation. This induces a decrease in the width of both individual osteons and trabeculae. In PMOp, the wide spectrum of bone turnover as compared with the controls, associated with the typical bimodal distribution of cancellous osteoid perimeter, allowed us to identify two subsets, one with normal turnover (NT) and one with high turnover (HT) representing 30% of the cases. When compared to NT, HT was characterized by increased osteoclast number, lower bone volume, thinner osteons, increased formation at the tissue-level and markedly decreased duration of formation. In HT the marked decrease in the duration of activity of osteoblasts and the markedly increased number of osteoclasts induced a greater decrease in bone volume, despite the increase of bone formation at the tissue level. These subsets could not be distinguished by any clinical or biochemical parameter except for serum bone gla protein (osteocalcin) which was significantly higher (as a group) in HT than in NT. The underlying cause for these two subsets is unknown.(ABSTRACT TRUNCATED AT 250 WORDS)

Journal of Bone and Mineral Research

Histomorphometric analysis of undecalcified sections was performed in transiliac biopsy cores taken from 29 patients (16 men, 13 women, aged 51 +/- 17 years) suffering from skeletal fluorosis due to chronic exposure to fluoride. The origin of the exposure, known in 20 patients, was either by water (endemic or sporadic), or industrial, or in a few cases iatrogenic. Measured on calcified bone using a specific ion electrode, bone fluoride content was significantly high in each specimen (mean +/- SD: 0.79 +/- 0.36% of bone ash) as compared to control values (less than 0.10%). The radiologically evident osteosclerosis observed in each patient was confirmed by the significant increase of cancellous bone volume (40.1 +/- 11.2 vs. 19.0 +/- 2.8% in controls, p less than 0.0001). There were significant increases in cortical width (1292 +/- 395 vs. 934 +/- 173 microns, p less than 0.0001) and porosity (14.4 +/- 6.4 vs. 6.5 +/- 1.7%, p less than 0.002), but without reduction of cortical bone mass. Osteoid parameters were significantly increased in fluorotic patients. The increase in cancellous osteoid perimeter was almost threefold greater than that noted in cancellous eroded perimeter. The fluorotic group had a greater number of osteoblasts than controls, with a very high proportion of flat osteoblasts. In 15 patients doubly labeled with tetracycline, the mineral apposition rate was significantly decreased, while mineralization lag time significantly increased. Bone formation rate and adjusted apposition rate were significantly decreased in skeletal fluorosis. Cancellous wall width was normal in fluorosis but the formation period and active formation period were significantly increased.(ABSTRACT TRUNCATED AT 250 WORDS)

Equivalency of various methods for estimating osteoid seam width.

We compared the true osteoid seam width (TOSW) as measured by a modification of the orthogonal intercept lengths with various methods of estimating seam widths, including (1) the commonly used length measurements at four equidistant points (O.Wi/4PT), (2) osteoid area divided by the osteoid perimeter (O.Ar/O/Pm) or the bone/osteoid interface (O.Ar/B.Bd), and (3) a novel method for estimating seam width defined as the osteoid area divided by the major axis of the seam (O.Ar/Axis). All methods for approximating osteoid seam width significantly exaggerated the true osteoid seam dimension by an amount that ranged from 16 to 23%. However, the relative accuracy of all methods of estimating osteoid seam width are equivalent as evidenced by the similar mean difference from the TOSW (3.4, 4.1, 5.1, and 3.8) demonstrated by O.Wi/5PT, O.Ar/Axis, O.Ar/O.Pm, O.Ar/B.Bd, respectively. Regression analysis of the various estimates of seam width on TOSW also demonstrated the equivalency of these methods. Moreover, all estimates could be employed to discriminate seams of normal dimensions from abnormally wide seams in bone specimens derived from patients with osteomalacia. Differences between the methods, however, were observed that may have practical importance. In this regard, the direct procedure of determining distance demonstrated less variance than the indirect estimate of width. As a result, the direct measurement required fewer samples (n = 13) to detect a significant difference to normal and could discriminate smaller deviations in seam width (1.7 microns) at a given sample size compared with O.Ar/Axis (n = 28; 2.9 microns), O.Ar/O.Pm (n = 42; 3.4 microns), and O.Ar/B.Bd (n = 42; n = 3.2).(ABSTRACT TRUNCATED AT 250 WORDS)

Skeletal fluorosis: Histomorphometric analysis of bone changes and bone fluoride content in 29 patients

Bone fluoride content (BFC) was measured and histomorphometric analysis of undecalcified sections was performed in transiliac biopsy cores from 29 patients (16 men, 13 women, aged 51 ± 17 years) suffering from skeletal fluorosis due to chronic exposure to fluoride. The origin of the exposure, known in 20 patients, was either hydric (endemic or sporadic) or industrial, or in a few cases iatrogenic. Measured on calcined bone using a specific ion electrode, BFC was significantly high in each specimen ( mean ± SD; 0.79 ± 0.36% on bone ash). The radiologically evident osteosclerosis observed in each patient was confirmed by a significant increase in cancellous bone volume (40.1 ± 11.2% vs. 19.0 ± 2.8% in controls, p < 0.0001). There were significant increases in cortical width (1292 ± 395 mem vs. 934 ± 173 mcm, p < 0.0001) and porosity (14.4 ± 6.4% vs. 6.5 ± 1.7%, p < 0.002), but without reduction of cortical bone mass. Cancellous osteoid volume and perimeter, as well as width of osteoid seams, were significantly increased in fluorotic patients. The increase in cancellous osteoid perimeter was almost three-fold greater than that noted in cancellous eroded perimeter. In 15 patients doubly labeled with tetracycline, the mineral apposition rate was significantly decreased, mineralization lag time was significantly increased. The fluorotic group had a greater number of osteoblasts than controls with a very high proportion of flat osteoblasts. The ultrastructural characteristics reflecting the activity of the bone cells were clearly visible on electron microscopy. Bone formation rate and adjusted apposition rate were significantly decreased in skeletal fluorosis. On stained sections and microradiographs, bone tissue showed typical modifications for skeletal fluorosis (linear formation defects, mottled bone). The volume of cancellous interstitial mineralization defects and the proportion of mottled periosteocytic lacunae were markedly increased in skeletal fluorosis. These two parameters were significantly correlated together but neither of these was significantly correlated with BFC. Renal function did not significantly influence the changes in BFC and histomorphometry of fluorotic patients. Skeletal fluorosis is thus characterized by an unbalanced coupling in favor of bone formation, and a great number of osteoblasts with a high proportion of flat osteoblasts. This may explain the mineralization impairment proven by thick osteoid seams and reduced mineral apposition rate, and supports the view that fluoride may have a dual effect on osteoblasts: a probable increased birthrate at the tissue-level due to a mitogenic effect of fluoride on precursors of osteoblasts, and a toxic effect at the individual cell-level. The addition of these two effects represents, however, a marked increase of bone formation at the organ level.

Effects of infusion of human parathyroid hormone-related protein-(1-40) in nude mice: histomorphometric and biochemical investigations.

Female nude mice were infused with 5.0, 3.0, or 1.0 micrograms/day of synthetic human parathyroid hormone-related protein (PTHrP) or control diluent with subcutaneous Alzet miniosmotic pumps for 7 days. Serum calcium was increased (p less than 0.01) on days 3 (13.9 mg/dl), 5 (13.6 mg/dl), and 7 (12.9 mg/dl) in mice infused with PTHrP at 5.0 micrograms/day compared with control nude mice (8.8 mg/dl). Serum calcium was significantly increased to a lesser degree in mice infused with 1.0 micrograms/day PTHrP (day 3) or 3.0 micrograms/day (days 3 and 7). Serum phosphorus was decreased (p less than 0.01) in all three groups of mice infused with PTHrP (4.6 mg/dl, 5.0 micrograms/day; 6.7 mg/dl, 3.0 micrograms/day; and 6.4 mg/dl, 1.0 micrograms/day) compared with controls (8.5 mg/dl). Serum 1,25-dihydroxycholecalciferol was increased (2.4-fold) in mice infused with PTHrP (5.0 and 3.0 micrograms/day). The urinary calcium-creatinine ratio (0.74 compared with 0.034 in controls) was increased (p less than 0.03) in mice infused with PTHrP (5.0 micrograms/day), but the urinary phosphorus-creatinine ratio was not different from that in controls. The urinary cAMP-creatinine ratio was increased (1.6-fold) in mice infused with PTHrP (5.0 micrograms/day). Static bone histomorphometry revealed increased (p less than 0.01) trabecular bone area, osteoblast perimeter, osteoid perimeter, osteoid width, wall width, osteoclast area, number of osteoclasts, and osteoclast perimeter in trabecular bone of lumbar vertebrae from mice infused with PTHrP. Dynamic bone histomorphometry demonstrated increased (p less than 0.01) double-labeled perimeter, mineralizing perimeter, and bone formation rate. The results of this study indicated that PTHrP increased serum calcium and 1,25-dihydroxycholecalciferol, decreased serum phosphorus, increased urinary excretion of calcium, phosphorus, and cAMP, and increased both bone resorption and formation in nude mice. PTHrP mimics the action of native PTH in vivo and is likely to be an important protein in the pathogenesis of humoral hypercalcemia of malignancy.

Biotin Deficiency May Alter Tibiotarsal Bone Growth and Modeling in Broiler Chicks

Forty-eight, day-old male broiler chicks (Hubbard × Hubbard strain) were fed purified diets with two levels of biotin (0 and 400 μg/kg) and two levels of linoleate (26.5 and 1.5 g/kg) in a factorially designed experiment to determine the effects of these nutrients on tibiotarsal bone growth and modeling. Chicks fed biotin-deficient diets (0 μg/kg diet) exhibited varus deformities, footpad dermatitis, shortened tibiotarsi, and significantly higher bone densities and percentage bone ash. Anatomically there were two different bone modeling patterns. The mid-diaphyseal cortex was thickest laterally in chicks fed adequate biotin and thickest medially in biotin-deficient chicks. Periosteal bone appositional and bone formation rates, osteoid perimeter, and osteoid area of perimeter were reduced in tibiotarsi of chicks fed diets deficient in biotin compared with effects in chicks fed adequate biotin. Altered bone modeling patterns and quantitative differences in bone histomorphometry suggest a relationship between the effects of biotin on bone growth and the development of varus limb deformities.