Comparative Effects of Teriparatide and Strontium Ranelate on Bone Biopsies and Biochemical Markers of Bone Turnover in Postmenopausal Women With Osteoporosis

We assessed the effects on bone remodeling and histomorphometry after daily subcutaneous injections of teriparatide (n = 39, 20 μg/d) or oral strontium ranelate (SrR, n = 40, 2 g/d) in postmenopausal women with osteoporosis. Evaluable biopsies were obtained from 29 patients in the teriparatide group and 22 in the SrR group after 6 mo of treatment. The mean ± SD mineralization surfaces as a percent of bone surfaces (MS/BS, %) at the trabecular level were 7.73 ± 1.48% for teriparatide and 5.25 ± 1.15% for SrR (p = 0.219) and at the endocortical level were 17.22 ± 3.06% and 9.70 ± 2.07%, respectively (p = 0.052). Cortical porosity was 5.40 ± 0.41% in the teriparatide and 4.14 ± 0.40% in the SrR group (p = 0.037). Teriparatide induced significant increases from baseline in bone formation and resorption markers, reaching statistical significance for amino‐terminal propeptide of type I collagen (PINP) after 1 mo (+57%, p < 0.001). SrR induced small, but statistically significant, reductions from baseline in PINP at 3 (?14%, p = 0.005) and 6 mo (?19%, p < 0.001) and in serum β‐C‐terminal telopeptide of type I collagen (β‐CTX) at 1 and 3 mo (?11%, for both, p < 0.05). There were more patients with adverse events after SrR (70%) than teriparatide (41%) treatment (p = 0.013). In conclusion, the changes in biochemical markers of bone formation confirmed bone‐forming activity of teriparatide but not of SrR treatment. The effects of SrR on bone remodeling and cell activity were modest, indicating that its effects on fracture reduction may be predominantly mediated through a different mechanism than that observed with anabolic or more potent antiresorptive agents.     

Teriparatide Reduces Bone Microdamage Accumulation in Postmenopausal Women Previously Treated With Alendronate

Suppression of bone turnover by bisphosphonates is associated with increased bone microdamage accumulation in animal models. Our objective was to study the effects of teriparatide treatment on changes in microdamage accumulation at the iliac crest in previously treatment‐naïve patients or in those switched from alendronate to teriparatide. Sixty‐six postmenopausal women with osteoporosis (mean age, 68.0 yr; and mean BMD T‐score of ?2.8 at lumbar spine and ?1.7 at total hip; 62% with prevalent fractures) entered this prospective, nonrandomized study and started with 24‐mo 20 μg/d subcutaneous teriparatide treatment in monotherapy: 38 patients stopped previous alendronate treatment (10 mg/d or 70 mg/wk for a mean duration of 63.6 mo) and switched to teriparatide, whereas 28 were previously treatment naïve. Thirty‐one paired biopsies with two intact cortices were collected and analyzed for microstructure and microdamage accumulation at baseline and after 24 mo of teriparatide administration. After 24 mo of teriparatide treatment, crack density (Cr.Dn), crack surface density (Cr.S.Dn), and crack length (Cr.Le) were decreased in previously alendronate‐treated patients, whereas only Cr.Le was reduced in former treatment‐naïve patients. Patients with lower initial femoral neck BMD also showed a higher reduction of microdamage accumulation. Better bone microarchitecture correlated positively, whereas bone turnover markers and age did not correlate with reduced microdamage accumulation on teriparatide. In conclusion, teriparatide reduces microdamage accumulation in the iliac crest of patients previously treated with alendronate. There is insufficient evidence to suggest that age or bone turnover would be associated with this change.     

Vertebral Fracture Risk Is Reduced in Women Who Lose Femoral Neck BMD With Teriparatide Treatment

Response to osteoporosis therapy is often assessed by serial BMD testing. Patients who lose BMD without secondary causes of bone loss may be considered to be “nonresponders” to treatment. We examined vertebral fracture (VF) risk, change in lumbar spine (LS) BMD, and change in amino‐terminal extension peptide of procollagen type I (PINP) in postmenopausal women whose femoral neck (FN) BMD decreased, increased, or was unchanged after receiving teriparatide (TPTD) or placebo (PL) in the Fracture Prevention Trial. FN and LS BMD were measured at baseline and 12 mo. VFs were assessed by lateral spine radiographs at baseline and study endpoint. A BMD change from baseline of >4% was considered to be clinically significant. Decreases of >4% FN BMD were less common in women receiving TPTD (10%) versus PL (16%, p < 0.05), yet women on TPTD who lost FN BMD still had significant reductions in VF risk compared with PL (RR = 0.11; 95% CI = 0.03–0.45). VF risk reduction with TPTD compared with PL was similar across categories of FN BMD change from baseline at 12 mo (loss >4%, loss 0–4%, gain 0–4%, or gain >4%; interaction p = 0.40). Irrespective of FN BMD loss or gain, TPTD‐treated women had statistically significant increases in LS BMD and PINP compared with PL. In both groups, losses or gains in FN BMD at 12 mo corresponded to losses or gains in BMC rather than changes in bone area. In conclusion, loss of FN BMD at 12 mo in postmenopausal women with osteoporosis treated with TPTD is nevertheless consistent with a good treatment response in terms of VF risk reduction.     

Five Years of Treatment with Risedronate and its Effects on Bone Safety in Women with Postmenopausal Osteoporosis

We have recently reported that risedronate preserves normal bone formation and decreases bone remodeling in women with postmenopausal osteoporosis after 3 years of treatment. We report now the results of a 2-year extension study. The primary objective of this study was to determine the effect of 5 years of risedronate treatment (5 mg daily) on bone quality and bone remodeling based on paired transiliac bone biopsies. There were additional measurements that included bone turnover markers and bone mineral density (BMD). Histologic evaluation of biopsy sections (placebo, n = 21; risedronate, n = 27) yielded no pathologic findings after 5 years in either treatment group. Histomorphometric assessment of paired biopsy specimens after 5 years (placebo, n =12; risedronate, n = 13) found no statistically significant differences between treatment groups in structural or resorption parameters. There was a significant reduction in osteoid (–27%) and mineralizing surfaces (–49%) from baseline values in the risedronate group that were also significantly different from placebo at 5 years. Similarly, activation frequency decreased significantly (–77%) in the risedronate group, although it was not significantly different from placebo at 5 years (0.09 vs. 0.21, respectively). Double tetracycline labels were identified in all biopsy specimens indicating continuous bone turnover. After 5 years of risedronate treatment, serum bone-specific alkaline phosphatase (bone ALP) and N-telopeptide (NTX) decreased significantly from baseline by 33.3% and 47.5%, respectively. In the placebo group, bone ALP decreased by 3.9% (P = NS), whereas NTX decreased by 27.0% (P < 0.005). Lumbar spine BMD increased significantly in the risedronate group (9.2%), whereas no significant change was seen in the placebo group (–0.26%). Risedronate was overall well tolerated; during the 2-year study extension nonvertebral fractures occurred in 7 patients in placebo and 2 patients in risedronate groups. The findings from this study are consistent with the antiremodeling effect of risedronate and support long-term bone safety and antifracture efficacy of risedronate treatment.This work was supported by grants from Procter & Gamble Pharmaceuticals, Inc., Mason, Ohio, and Aventis Pharmaceuticals, Bridgewater, New Jersey.     

Vitamin D Status,Parathyroid Function,Bone Turnover,and BMD in Postmenopausal Women With Osteoporosis: Global Perspective

Poor vitamin D status is common in the elderly and is associated with bone loss and fractures. The aim was to assess worldwide vitamin D status in postmenopausal women with osteoporosis according to latitude and economic status, in relation to parathyroid function, bone turnover markers, and BMD. The study was performed in 7441 postmenopausal women from 29 countries participating in a clinical trial on bazedoxifene (selective estrogen receptor modulator), with BMD T‐score at the femoral neck or lumbar spine ≤ ?2.5 or one to five mild or moderate vertebral fractures. Serum 25(OH)D, PTH, alkaline phosphatase (ALP), bone turnover markers osteocalcin (OC) and C‐terminal cross‐linked telopeptides of type I collagen (CTX), and BMD of the lumbar spine, total hip, femoral neck, and trochanter were measured. The mean serum 25(OH)D level was 61.2 ± 22.4 nM. The prevalence of 25(OH)D <25, 25–50, 50–75, and >75 nM was 5.9%, 29.4%, 43.5%, and 21.2%, respectively, in winter and 3.0%, 22.2%, 47.2%, and 27.5% in summer. Worldwide, a negative correlation between 25(OH)D and latitude was observed. With increasing 25(OH)D categories of <25, 25–50, 50–75, and >75 nM, mean PTH, OC, and CTX were decreasing (p < 0.001), whereas BMD of all sites was increasing (p < 0.001). A threshold in the positive relationship between 25(OH)D and different BMD parameters was visible at a 25(OH)D level of 50 nM. Our study showed a high prevalence of low 25(OH)D in postmenopausal women with osteoporosis worldwide. Along with latitude, affluence seems to be an important factor for serum 25(OH)D level, especially in Europe, where it is strongly correlated with latitude.     

Differential Bone Metabolism Between Postmenopausal Women With Osteoarthritis and Osteoporosis

A comparative study of bone metabolism between postmenopausal women with osteoarthritis and osteoporosis showed that differential levels of bone remodeling markers, leptin, free leptin index, and osteoprotegerin might partly contribute to the proposed inverse relationship in bone mass between postmenopausal women with osteoarthritis and osteoporosis. Introduction : Osteoarthritis (OA) and osteoporosis (OP) are two common disorders affecting the quality of life in the elderly. The association between OA and OP has always been debated. The objective of this study was to compare bone metabolism between postmenopausal women with OA and OP. Materials and Methods : A total of 120 postmenopausal women with OA and OP (n = 60, respectively) were included in this comparative study. Anthropometric parameters and BMD at the spine and the proximal femur were measured. Serum leptin, soluble leptin receptor (sLR), osteoprotegerin (OPG), and bone remodeling markers, including bone‐specific alkaline phosphatase (BALP), osteocalcin (OC), deoxypyridinoline cross‐links (DPD), and cross‐linked N‐telopeptides of type I collagen (NTX), were quantified with commercial ELISA or EIA kits. Free leptin index (FLI) was also calculated by the ratio between serum leptin and sLR levels. Results : Postmenopausal women with OA had higher body weight, body mass index, fat mass, and percentage of fat than those suffered from OP. Compared with the patients in OP group, the patients in OA group had significantly higher BMD values at all sites measured. Higher serum leptin and FLI and lower OPG levels were shown in the OA group (leptin: 31.22 ± 6.4 versus 26.50 ± 9.27 ng/ml, p < 0.001; FLI: 3.20 ± 1.02 versus 2.50 ± 0.95, p < 0.05; OPG: 4.75 ± 1.97 versus 6.96 ± 2.75 pM, p < 0.001), whereas lower serum OC and higher urine DPD were noted in the OP group (OC: 16.45 ± 8.45 versus 13.06 ± 6.25 ng/ml, p < 0.05; DPD: 10.83 ± 7.12 versus 15.29 ± 6.65 nM BCE/mM Cr, p < 0.001). Serum OPG levels negatively correlated with BMD at all sites assessed. However, no correlation was found between leptin and BMD. Only in the OA group di positive correlations exist between FLI and Z‐score at the femoral neck and Ward's triangle region. After stepwise regression analysis, it was found that differential factors were able to predict the variance of BMD at different sites to a certain extent. Conclusions : Our study suggests that there are significant differences in bone metabolism between postmenopausal women with OA and OP and provides evidence for the inverse relationship between OA and OP. Differential levels of bone remodeling markers, leptin, FLI, and OPG may partly contribute to the proposed inverse relationship. Roles of leptin and its soluble receptor in bone metabolism regulation should be explored further.     

Seven Years of Treatment with Risedronate in Women with Postmenopausal Osteoporosis

The effects of 7 years of risedronate treatment were evaluated in a second 2-year extension of a 3-year vertebral fracture study in women with osteoporosis. For the first 5 years of the study, women received risedronate 5 mg/day or placebo according to the original randomization, with maintenance of blinding. All the women who entered into the 6–7 years extension study received risedronate 5 mg/day. Endpoints included vertebral and nonvertebral fracture assessments, changes in biochemical markers of bone turnover, and bone mineral density (BMD) measurements. A total of 164 women (placebo/risedronate group, 81; risedronate group, 83) entered the 6–7 years extension study and 136 (83%) completed the study. Annualized incidence of new vertebral fractures during the 6–7 years was similar between the 2 treatment groups (3.8%). The incidence of vertebral fractures did not change in the 7-year risedronate group during the 6–7 years as compared to 4–5 years, while a significant reduction was observed in the placebo group that switched to risedronate treatment during years 6–7. The incidence of nonvertebral fractures was 7.4% and 6.0% in the placebo/risedronate and risedronate groups, respectively, during years 6–7. Urinary N-telopeptide decreased from baseline by 54% and 63% at 3 months and 7 years, respectively, in the risedronate group. The increases in BMD from baseline after 5 years of risedronate treatment were maintained or increased further during years 6–7; lumbar spine BMD after 5 and 7 years of risedronate treatment increased from baseline by 8.8% and 11.5%, respectively, for this extension study population. Risedronate was well tolerated and the occurrence of upper gastrointestinal adverse events was low. After 7 years of continuous risedronate treatment there were significant increases in BMD and decreases in bone turnover to within premenopausal levels and there was no indication of any loss of anti-fracture efficacy.     

Comparison of the Effect of Denosumab and Alendronate on BMD and Biochemical Markers of Bone Turnover in Postmenopausal Women With Low Bone Mass: A Randomized,Blinded, Phase 3 Trial

Denosumab is a fully human monoclonal antibody that inhibits bone resorption by neutralizing RANKL, a key mediator of osteoclast formation, function, and survival. This phase 3, multicenter, double‐blind study compared the efficacy and safety of denosumab with alendronate in postmenopausal women with low bone mass. One thousand one hundred eighty‐nine postmenopausal women with a T‐score ≤ ?2.0 at the lumbar spine or total hip were randomized 1:1 to receive subcutaneous denosumab injections (60 mg every 6 mo [Q6M]) plus oral placebo weekly (n = 594) or oral alendronate weekly (70 mg) plus subcutaneous placebo injections Q6M (n = 595). Changes in BMD were assessed at the total hip, femoral neck, trochanter, lumbar spine, and one‐third radius at 6 and 12 mo and in bone turnover markers at months 1, 3, 6, 9, and 12. Safety was evaluated by monitoring adverse events and laboratory values. At the total hip, denosumab significantly increased BMD compared with alendronate at month 12 (3.5% versus 2.6%; p < 0.0001). Furthermore, significantly greater increases in BMD were observed with denosumab treatment at all measured skeletal sites (12‐mo treatment difference: 0.6%, femoral neck; 1.0%, trochanter; 1.1%, lumbar spine; 0.6%, one‐third radius; p ≤ 0.0002 all sites). Denosumab treatment led to significantly greater reduction of bone turnover markers compared with alendronate therapy. Adverse events and laboratory values were similar for denosumab‐ and alendronate‐treated subjects. Denosumab showed significantly larger gains in BMD and greater reduction in bone turnover markers compared with alendronate. The overall safety profile was similar for both treatments.     

Mechanisms of the Anabolic Effects of Teriparatide on Bone: Insight From the Treatment of a Patient With Pycnodysostosis

Pycnodysostosis is an extremely rare genetic osteosclerosis caused by cathepsin K deficiency. We hypothesized that teriparatide, a potent anabolic agent used in the treatment of osteoporosis, might reduce skeletal fragility by activating bone turnover. We studied a typical case of pycnodysostosis in a 37‐yr‐old woman who exhibited short stature, skull and thorax deformities, and a history of severe fragility fractures. Cathepsin K gene sequencing was performed. Before and after 6 mo of 20 μg/d teriparatide, biochemical markers of bone turnover were measured, and 3D bone structure and microarchitecture was assessed in vivo by HR‐pQCT. Qualitative and quantitative analysis of transiliac bone biopsies were performed, and the degree of mineralization was evaluated by quantitative microradiography. In vitro assessment of bone resorption was performed after separation and differentiation of CD14⁺ monocytes from peripheral blood. Bone structure assessed by HR‐pQCT on the radius and tibia showed augmentation of cortical and trabecular density. Transiliac bone biopsy showed highly increased bone mass (+63% versus age‐ and sex‐matched controls), a decrease in bone remodeling without evidence of active osteoblasts, and a severe decrease in the dynamic parameters of bone formation (mineralizing surfaces, ?90% and bone formation rate, ?93% versus age‐ and sex‐matched controls). This depressed bone turnover probably explained the increased degree of mineralization. The presence of a novel missense mutation leading to an A141V amino acid substitution confirmed a genetic defect of cathepsin K as the cause of the disease. The deficiency of active osteoclasts was confirmed by an in vitro study that showed a decreased concentration of CD14⁺ monocytes (the precursor of osteoclasts) in blood. These osteoclasts had low resorptive activity when incubated on bone slices. After 6 mo of teriparatide, the structure, microarchitecture, and turnover of bone—assessed by HR‐pQCT, histology, and bone turnover markers—remained unchanged. Our data strongly suggest that some features of the osteoclastic phenotype—that are absent in pycnodysostosis—are a prerequisite for the anabolic effect of PTH on osteoblasts.     

Effects of Yearly Zoledronic Acid 5 mg on Bone Turnover Markers and Relation of PINP With Fracture Reduction in Postmenopausal Women With Osteoporosis

In patients with osteoporosis treated with antiresorptive agents, reduction in bone turnover explains much of the observed fracture risk reduction. Lower levels of bone turnover markers (BTMs) appear to be associated with a lower risk of fracture in bisphosphonate‐treated patients. BTMs were measured in a subset of subjects in the HORIZON Pivotal Fracture Trial. Annual infusions of zoledronic acid 5 mg significantly reduced BTMs: median decrease of 50% for β‐C‐terminal telopeptides of type 1 collagen (β‐CTX), 30% for bone alkaline phosphatase (ALP), and 56% for procollagen type 1 amino‐terminal propeptide (PINP). The mean level of BTMs decreased in treated patients but remained within the premenopausal range before the next injection. The percentage of zoledronic acid–treated patients with values below the premenopausal reference range at all time points was 1.7%, 17.8%, and 19% for bone ALP, CTX, and PINP, respectively. The third injection of zoledronic acid resulted in 60% reduction of β‐CTX within 9–11 days, followed by a gradual increase, indicating the persistence of osteoclastic bone resorption. The association between changes in BTMs and fracture incidence was assessed in 1132 patients who had PINP measurements at baseline and 1 yr. There was no association between low PINP levels at 1 yr and increased fracture incidence. In summary, (1) annual injections of zoledronic acid reduced BTMs in the premenopausal range, with a significant response persisting after the third infusion; and (2) low levels of PINP were not associated with increased fracture risk.     

Retreatment With Teriparatide One Year After the First Teriparatide Course in Patients on Continued Long‐Term Alendronate

Patients treated with teriparatide after prior and ongoing alendronate therapy experience spine BMD increases; however, some continue to be at high risk for fracture, based on persistently low BMD and/or fracture history. The objective of this study was to determine whether a second discrete retreatment course with teriparatide could produce similar biochemical and BMD changes as seen during the first teriparatide course. In the original treatment study, 126 women on alendronate for ≥1 yr were randomized to continue alendronate and receive daily teriparatide, cyclic teriparatide (3‐mo cycles), or alendronate alone for 15 mo. Of the 72 patients who completed either original teriparatide regimen, 49 completed a 12‐mo follow‐up on continued alendronate alone. At that time, 32 patients, who remained at high risk of future fracture, were recruited into the retreatment protocol and 27 completed another course of teriparatide administered daily for 15 mo (including 15 from the original daily treatment group and 12 from the original cyclic treatment group). Bone formation indices (propeptide of type I procollagen and osteocalcin) increased during both teriparatide courses with median 3‐mo increments of 120% and 72% above baseline during the original course and 60% and 40% above baseline during retreatment, respectively. Mean spine BMD increments were 6.2% after the first daily course and 4.7% after retreatment and 4.1% after the first course of cyclic teriparatide and 4.9% after retreatment. We conclude that retreatment with teriparatide stimulates bone formation and increases spine BMD to a similar extent as seen during the original teriparatide course. Retreatment with teriparatide may be a viable option for some patients with severe osteoporosis who have received prior teriparatide therapy.     

Effects of Intravenous Zoledronate on Bone Turnover and BMD Persist for at Least 24 Months

The duration of the antiresorptive effects of the intravenous bisphosphonate, zoledronate, is not known. Recently, we reported that two annual 4‐mg doses of zoledronate suppressed bone turnover and increased BMD in HIV‐infected men over 24 mo. We set out to determine the persistence of these effects after two doses of zoledronate. Thirty‐three HIV‐infected men who completed a randomized trial of 4 mg annual zoledronate (n = 17) or placebo (n = 16) were studied for a further 12 mo, during which time no skeletal therapy was administered. Participants received calcium (400 mg/d) and vitamin D supplements (50,000 IU/mo) for the first 24 mo of the study only. Biochemical markers of bone turnover and BMD were measured every 6 mo. Bone turnover markers were stably suppressed at 24 and 36 mo (12 and 24 mo after the second annual dose of zoledronate, respectively). There were no significant within‐group changes in urine N‐telopeptide, serum C‐telopeptide, and osteocalcin between 24 and 36 mo (p > 0.07), and at each time point, each of the turnover markers was significantly lower in the zoledronate group. There were also no significant between‐group differences in the changes in BMD at each site between 24 and 36 mo (p > 0.5), and at each time point, BMD at each site was significantly higher in the zoledronate group. These results suggest that the antiresorptive effects of zoledronate last >12 mo and raise the possibility that zoledronate could be administered less frequently than annually. Randomized trials that address this issue should be performed.     

Effects of PTH and Alendronate on Type I Collagen Isomerization in Postmenopausal Women With Osteoporosis: The PaTH Study

Fracture efficacy of PTH and alendronate (ALN) is only partly explained by changes in BMD, and bone collagen properties have been suggested to play a role. We analyzed the effects of PTH(1–84) and ALN on urinary αα/ββ CTX ratio, a marker of type I collagen isomerization and maturation in postmenopausal women with osteoporosis. In the first year of the previously published PaTH study, postmenopausal women with osteoporosis were assigned to PTH(1–84) (100 μg/d; n = 119), ALN (10 mg/d; n = 60), or PTH and ALN together (n = 59). We analyzed patients on ALN alone (n = 60) and a similar number of patients assigned to PTH alone (n = 63). During the second year, women on PTH in the first year were reallocated to placebo (n = 31) or ALN (n = 32) and women with ALN continued on ALN. During the first year, there was no significant change in αα/ββ CTX ratio with PTH or ALN. At 24 mo, there was a marked increase of the αα/ββ CTX ratio in women who had received PTH during the first year, followed by a second year of placebo (median: +45.5, p < 0.001) or ALN (+55.2%, p < 0.001). Conversely, the αα/ββ CTX ratio only slightly increased (+16%, p < 0.05) after 2 yr of continued ALN. In conclusion, treatment with PTH(1–84) for 1 yr followed by 1 yr of placebo or ALN may be associated with decreased type I collagen isomerization. The influence of these biochemical changes of type I collagen on bone fracture resistance remains to be studied.     

Improvements in Vertebral Body Strength Under Teriparatide Treatment Assessed In Vivo by Finite Element Analysis: Results From the EUROFORS Study

Monitoring of osteoporosis therapy based solely on DXA is insufficient to assess antifracture efficacy. Estimating bone strength as a variable closely linked to fracture risk is therefore of importance. Finite element (FE) analysis–based strength measures were used to monitor a teriparatide therapy and the associated effects on whole bone and local fracture risk. In 44 postmenopausal women with established osteoporosis participating in the EUROFORS study, FE models based on high‐resolution CT (HRCT) of T₁₂ were evaluated after 0, 6, 12, and 24 mo of teriparatide treatment (20 μg/d). FE‐based strength and stiffness calculations for three different load cases (compression, bending, and combined compression and bending) were compared with volumetric BMD (vBMD) and apparent bone volume fraction (app. BV/TV), as well as DXA‐based areal BMD of the lumbar spine. Local damage of the bone tissue was also modeled. Highly significant improvements in all analyzed variables as early as 6 mo after starting teriparatide were found. After 24 mo, bone strength in compression was increased by 28.1 ± 4.7% (SE), in bending by 28.3 ± 4.9%, whereas app. BV/TV was increased by 54.7 ± 8.8%, vBMD by 19.1 ± 4.0%, and areal BMD of L₁–L₄ by 10.2 ± 1.2%. When comparing standardized increases, FE changes were significantly larger than those of densitometry and not significantly different from app. BV/TV. The size of regions at high risk for local failure was significantly reduced under teriparatide treatment. Treatment with teriparatide leads to bone strength increases for different loading conditions of close to 30%. FE is a suitable tool for monitoring bone anabolic treatment in groups or individual patients and offers additional information about local failure modes. FE variables showed a higher standardized response to changes than BMD measurements, but further studies are needed to show that the higher response represents a more accurate estimate of treatment‐induced fracture risk reduction.     

Bone-Forming and Antiresorptive Effects of Romosozumab in Postmenopausal Women With Osteoporosis: Bone Histomorphometry and Microcomputed Tomography Analysis After 2 and 12 Months of Treatment

Sclerostin, a protein produced by osteocytes, inhibits bone formation. Administration of sclerostin antibody results in increased bone formation in multiple animal models. Romosozumab, a humanized sclerostin antibody, has a dual effect on bone, transiently increasing serum biochemical markers of bone formation and decreasing serum markers of bone resorption, leading to increased BMD and reduction in fracture risk in humans. We aimed to evaluate the effects of romosozumab on bone tissue. In a subset of 107 postmenopausal women with osteoporosis in the multicenter, international, randomized, double-blind, placebo-controlled Fracture Study in Postmenopausal Women with Osteoporosis (FRAME), transiliac bone biopsies were performed either after 2 (n = 34) or 12 (n = 73) months of treatment with 210 mg once monthly of romosozumab or placebo to evaluate histomorphometry and microcomputed tomography-based microarchitectural endpoints. After 2 months, compared with either baseline values assessed after a quadruple fluorochrome labeling or placebo, significant increases (P < 0.05 to P < 0.001) in dynamic parameters of formation (median MS/BS: romosozumab 1.51% and 5.64%; placebo 1.60% and 2.31% at baseline and month 2, respectively) were associated with a significant decrease compared with placebo in parameters of resorption in cancellous (median ES/BS: placebo 3.4%, romosozumab 1.8%; P = 0.022) and endocortical (median ES/BS: placebo 6.3%, romosozumab 1.6%; P = 0.003) bone. At 12 months, cancellous bone formation was significantly lower (P < 0.05 to P < 0.001) in romosozumab versus placebo and the lower values for resorption endpoints seen at month 2 persisted (P < 0.001), signaling a decrease in bone turnover (P = 0.006). No significant change was observed in periosteal and endocortical bone. This resulted in an increase in bone mass and trabecular thickness with improved trabecular connectivity, without significant modification of cortical porosity at month 12. In conclusion, romosozumab produced an early and transient increase in bone formation, but a persistent decrease in bone resorption. Antiresorptive action eventually resulted in decreased bone turnover. This effect resulted in significant increases in bone mass and improved microarchitecture.© 2019 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research (ASBMR).     

Identification of a Linkage Disequilibrium Block in Chromosome 1q Associated With BMD in Premenopausal White Women

Osteoporosis is a complex disease with both genetic and environmental risk factors. A major determinant of osteoporotic fractures is peak BMD obtained during young adulthood. We previously reported linkage of chromosome 1q (LOD = 4.3) with variation in spinal areal BMD in healthy premenopausal white women. In this study, we used a two‐stage genotyping approach to identify genes in the linked region that contributed to the variation of femoral neck and lumbar spine areal BMD. In the first stage, 654 SNPs across the linked region were genotyped in a sample of 1309 premenopausal white women. The most significant evidence of association for lumbar spine (p = 1.3 × 10^?6) was found with rs1127091 in the GATAD2B gene. In the second stage, 52 SNPs around this candidate gene were genotyped in an expanded sample of 1692 white women. Significant evidence of association with spinal BMD (p < 10^?5), and to a lesser extent with femoral neck BMD, was observed with eight SNPs within a single 230‐kb linkage disequilibrium (LD) block. The most significant SNP (p = 3.4 × 10^?7) accounted for >2.5% of the variation in spinal BMD in these women. The 230‐kb LD block contains 11 genes, but because of the extensive LD, the specific gene(s) contributing to the variation in BMD could not be determined. In conclusion, the significant association between spinal BMD and SNPs in the 230‐kb LD block in chromosome 1q indicates that genetic factor(s) in this block plays an important role in peak spinal BMD in healthy premenopausal white women.     

Effects of Growth Hormone Administration on Bone Mineral Metabolism,PTH Sensitivity and PTH Secretory Rhythm in Postmenopausal Women With Established Osteoporosis

Introduction : Growth hormone (GH) replacement improves target organ sensitivity to PTH, PTH circadian rhythm, calcium and phosphate metabolism, bone turnover, and BMD in adult GH‐deficient (AGHD) patients. In postmenopausal women with established osteoporosis, GH and insulin like growth factor‐1 (IGF‐1) concentrations are low, and administration of GH has been shown to increase bone turnover and BMD, but the mechanisms remain unclear. We studied the effects of GH administration on PTH sensitivity, PTH circadian rhythm, and bone mineral metabolism in postmenopausal women with established osteoporosis. Materials and Methods : Fourteen postmenopausal women with osteoporosis were compared with 14 healthy premenopausal controls at baseline that then received GH for a period of 12 mo. Patients were hospitalized for 24 h before and 1, 3, 6, and 12 mo after GH administration and half‐hourly blood and 3‐h urine samples were collected. PTH, calcium (Ca), phosphate (PO₄), nephrogenous cyclic AMP (NcAMP), β C‐telopeptide of type 1 collagen (βCTX), procollagen type I amino‐terminal propeptide (PINP), and 1,25‐dihydroxyvitamin D [1,25(OH)₂D] were measured. Circadian rhythm analysis was performed using Chronolab 3.0 and Student's t‐test and general linear model ANOVAs for repeated measures were used where appropriate. Results : IGF‐1 concentration was significantly lower in the women with established osteoporosis compared with controls (101.5 ± 8.9 versus 140.9 ± 10.8 μg/liter; p < 0.05) and increased significantly after 1, 3, 6, and 12 mo of GH administration (p < 0.001). Twenty‐four‐hour mean PTH concentration was higher in the osteoporotic women (5.4 ± 0.1 pM) than in healthy controls (4.4 ± 0.1 pM, p < 0.001) and decreased after 1 (5.2 ± 0.1 pM, p < 0.001), 3 (5.0 ± 0.1 pM, p < 0.001), 6 (4.7 ± 0.1 pM, p < 0.001), and 12 mo (4.9 ± 0.1 pM, p < 0.05) of GH administration compared with baseline. NcAMP was significantly lower in osteoporotic women (17.2 ± 1.2 nM glomerular filtration rate [GFR]) compared with controls (21.4 ± 1.4 nM GFR, p < 0.05) and increased after 1 (24.2 ± 2.5 nM GFR, p < 0.05), 3 (27.3 ± 1.5 nM GFR, p < 0.001), and 6 mo (32.4 ± 2.5 nM GFR, p < 0.001) compared with baseline. PTH secretion was characterized by two peaks in premenopausal women and was altered in postmenopausal women with a sustained increase in PTH concentration. GH administration also restored a normal PTH secretory pattern in the osteoporotic women. The 24‐h mean adjusted serum calcium (ACa) concentration increased at 1 and 3 mo (p < 0.001) and PO₄ at 1, 3, 6, and 12 mo (p < 0.001). 1,25(OH)₂D concentration increased after 3, 6, and 12 mo of GH (p < 0.05). An increase in urine Ca excretion was observed at 3 and 6 mo (p < 0.05), and the renal threshold for maximum tubular phosphate reabsorption rate (TmPO4/GFR) increased after 1, 3, 6, and 12 mo (p < 0.05). βCTX concentration increased progressively from 0.74 ± 0.07 μg/liter at baseline to 0.83 ± 0.07 μg/liter (p < 0.05) at 1 mo and 1.07 ± 0.09 μg/liter (p < 0.01) at 3 mo, with no further increase at 6 or 12 mo. PINP concentration increased progressively from baseline (60 ± 5 μg/liter) to 6 mo (126 ± 11 μg/liter, p < 0.001), with no further increase at 12 mo. The percentage increase in PINP concentration was significantly higher than βCTX (p < 0.05). Conclusions : Our study shows that GH has a regulatory role in bone mineral metabolism. GH administration to postmenopausal osteoporotic women improves target organ sensitivity to PTH and bone mineral metabolism and alters PTH secretory pattern with greater increases in bone formation than resorption. These changes, resulting in a net positive bone balance, may partly explain the mechanism causing the increase in BMD after long‐term administration of GH in postmenopausal women with osteoporosis shown in previous studies and proposes a further component in the development of age‐related postmenopausal osteoporosis.     

Serum Biomarker Profile Associated With High Bone Turnover and BMD in Postmenopausal Women

Early diagnosis of the onset of osteoporosis is key to the delivery of effective therapy. Biochemical markers of bone turnover provide a means of evaluating skeletal dynamics that complements static measurements of BMD by DXA. Conventional clinical measurements of bone turnover, primarily the estimation of collagen and its breakdown products in the blood or urine, lack both sensitivity and specificity as a reliable diagnostic tool. As a result, improved tests are needed to augment the use of BMD measurements as the principle diagnostic modality. In this study, the serum proteome of 58 postmenopausal women with high or low/normal bone turnover (training set) was analyzed by surface enhanced laser‐desorption/ionization time‐of‐flight mass spectrometry, and a diagnostic fingerprint was identified using a variety of statistical and machine learning tools. The diagnostic fingerprint was validated in a separate distinct test set, consisting of serum samples from an additional 59 postmenopausal women obtained from the same Mayo cohort, with a gap of 2 yr. Specific protein peaks that discriminate between postmenopausal patients with high or low/normal bone turnover were identified and validated. Multiple supervised learning approaches were able to classify the level of bone turnover in the training set with 80% sensitivity and 100% specificity. In addition, the individual protein peaks were also significantly correlated with BMD measurements in these patients. Four of the major discriminatory peaks in the diagnostic profile were identified as fragments of interalpha‐trypsin‐inhibitor heavy chain H4 precursor (ITIH4), a plasma kallikrein‐sensitive glycoprotein that is a component of the host response system. These data suggest that these serum protein fragments are the serum‐borne reflection of the increased osteoclast activity, leading to the increased bone turnover that is associated with decreasing BMD and presumably an increased risk of fracture. In conjunction with the identification of the individual proteins, this protein fingerprint may provide a novel approach to evaluate high bone turnover states.