Sustained Modeling‐Based Bone Formation During Adulthood in Cynomolgus Monkeys May Contribute to Continuous BMD Gains With Denosumab

ABSTRACT Denosumab (DMAb) administration to postmenopausal women with osteoporosis is associated with continued bone mineral density (BMD) increases and low fracture incidence through 8 years, despite persistently reduced bone turnover markers and limited fluorochrome labeling in iliac crest bone bi...

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Veröffentlicht in:	Journal of bone and mineral research 2015-07, Vol.30 (7), p.1280-1289
Hauptverfasser:	Ominsky, Michael S, Libanati, Cesar, Niu, Qing‐Tian, Boyce, Rogely W, Kostenuik, Paul J, Wagman, Rachel B, Baron, Roland, Dempster, David W
Format:	Artikel
Sprache:	eng
Schlagworte:	Aging - physiology Animals ANTIRESORPTIVES Bone Density - drug effects BONE HISTOMORPHOMETRY BONE MODELING AND REMODELING Bone Remodeling - drug effects Denosumab - pharmacology Female Femur Neck - drug effects Femur Neck - physiology Fluorescent Dyes - metabolism Macaca fascicularis Osteogenesis - drug effects OSTEOPOROSIS Ovariectomy PRECLINICAL STUDIES Staining and Labeling
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container_title	Journal of bone and mineral research
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creator	Ominsky, Michael S Libanati, Cesar Niu, Qing‐Tian Boyce, Rogely W Kostenuik, Paul J Wagman, Rachel B Baron, Roland Dempster, David W
description	ABSTRACT Denosumab (DMAb) administration to postmenopausal women with osteoporosis is associated with continued bone mineral density (BMD) increases and low fracture incidence through 8 years, despite persistently reduced bone turnover markers and limited fluorochrome labeling in iliac crest bone biopsies. BMD increases were hypothesized to result from additional accrual of bone matrix via modeling‐based bone formation—a hypothesis that was tested by examining fluorochrome labeling patterns in sections from ovariectomized (OVX) cynomolgus monkeys (cynos) treated with DMAb for 16 months. Mature OVX or Sham cynos were treated monthly with vehicle for 16 months, whereas other OVX cynos received monthly 25 or 50 mg/kg DMAb. DMAb groups exhibited very low serum bone resorption and formation biomarkers and near‐absent fluorochrome labeling in proximal femur cancellous bone. Despite these reductions, femoral neck dual‐energy X‐ray absorptiometry (DXA) BMD continued to rise in DMAb‐treated cynos, from a 4.6% increase at month 6 to 9.8% above baseline at month 16. Further examination of cortical bone in the proximal femur demonstrated consistent and prominent labeling on the superior endocortex and the inferior periosteal surface, typically containing multiple superimposed labels from month 6 to 16 over smooth cement lines, consistent with continuous modeling‐based bone formation. These findings were evident in all groups. Quantitative analysis at another modeling site, the ninth rib, demonstrated that DMAb did not alter the surface extent of modeling‐based labels, or the cortical area bound by them, relative to OVX controls, while significantly reducing remodeling‐based bone formation and eroded surface. This conservation of modeling‐based formation occurred concomitantly with increased femoral neck strength and, when coupled with a reduction in remodeling‐based bone loss, is likely to contribute to increases in bone mass with DMAb treatment. Thus, this study provides preclinical evidence for a potential mechanism that could contribute to the clinical observations of continued BMD increases and low fracture rates with long‐term DMAb administration. © 2015 American Society for Bone and Mineral Research.
doi_str_mv	10.1002/jbmr.2480
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BMD increases were hypothesized to result from additional accrual of bone matrix via modeling‐based bone formation—a hypothesis that was tested by examining fluorochrome labeling patterns in sections from ovariectomized (OVX) cynomolgus monkeys (cynos) treated with DMAb for 16 months. Mature OVX or Sham cynos were treated monthly with vehicle for 16 months, whereas other OVX cynos received monthly 25 or 50 mg/kg DMAb. DMAb groups exhibited very low serum bone resorption and formation biomarkers and near‐absent fluorochrome labeling in proximal femur cancellous bone. Despite these reductions, femoral neck dual‐energy X‐ray absorptiometry (DXA) BMD continued to rise in DMAb‐treated cynos, from a 4.6% increase at month 6 to 9.8% above baseline at month 16. Further examination of cortical bone in the proximal femur demonstrated consistent and prominent labeling on the superior endocortex and the inferior periosteal surface, typically containing multiple superimposed labels from month 6 to 16 over smooth cement lines, consistent with continuous modeling‐based bone formation. These findings were evident in all groups. Quantitative analysis at another modeling site, the ninth rib, demonstrated that DMAb did not alter the surface extent of modeling‐based labels, or the cortical area bound by them, relative to OVX controls, while significantly reducing remodeling‐based bone formation and eroded surface. This conservation of modeling‐based formation occurred concomitantly with increased femoral neck strength and, when coupled with a reduction in remodeling‐based bone loss, is likely to contribute to increases in bone mass with DMAb treatment. 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Further examination of cortical bone in the proximal femur demonstrated consistent and prominent labeling on the superior endocortex and the inferior periosteal surface, typically containing multiple superimposed labels from month 6 to 16 over smooth cement lines, consistent with continuous modeling‐based bone formation. These findings were evident in all groups. Quantitative analysis at another modeling site, the ninth rib, demonstrated that DMAb did not alter the surface extent of modeling‐based labels, or the cortical area bound by them, relative to OVX controls, while significantly reducing remodeling‐based bone formation and eroded surface. This conservation of modeling‐based formation occurred concomitantly with increased femoral neck strength and, when coupled with a reduction in remodeling‐based bone loss, is likely to contribute to increases in bone mass with DMAb treatment. 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Further examination of cortical bone in the proximal femur demonstrated consistent and prominent labeling on the superior endocortex and the inferior periosteal surface, typically containing multiple superimposed labels from month 6 to 16 over smooth cement lines, consistent with continuous modeling‐based bone formation. These findings were evident in all groups. Quantitative analysis at another modeling site, the ninth rib, demonstrated that DMAb did not alter the surface extent of modeling‐based labels, or the cortical area bound by them, relative to OVX controls, while significantly reducing remodeling‐based bone formation and eroded surface. This conservation of modeling‐based formation occurred concomitantly with increased femoral neck strength and, when coupled with a reduction in remodeling‐based bone loss, is likely to contribute to increases in bone mass with DMAb treatment. Thus, this study provides preclinical evidence for a potential mechanism that could contribute to the clinical observations of continued BMD increases and low fracture rates with long‐term DMAb administration. © 2015 American Society for Bone and Mineral Research.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>25684625</pmid><doi>10.1002/jbmr.2480</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aging - physiology Animals ANTIRESORPTIVES Bone Density - drug effects BONE HISTOMORPHOMETRY BONE MODELING AND REMODELING Bone Remodeling - drug effects Denosumab - pharmacology Female Femur Neck - drug effects Femur Neck - physiology Fluorescent Dyes - metabolism Macaca fascicularis Osteogenesis - drug effects OSTEOPOROSIS Ovariectomy PRECLINICAL STUDIES Staining and Labeling
title	Sustained Modeling‐Based Bone Formation During Adulthood in Cynomolgus Monkeys May Contribute to Continuous BMD Gains With Denosumab
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