The effects of estrogen deficiency and bisphosphonate treatment on tissue mineralisation and stiffness in an ovine model of osteoporosis

Brennan, O.<sup>1,2</sup>; Kennedy, O. D.<sup>1,2</sup>; Lee, T. C.<sup>1,2</sup>; Rackard, S. M.<sup>3</sup>; O’Brien, F. J.<sup>1,2</sup>; McNamara, L. M.<sup>4</sup>

Affiliations

¹Department of Anatomy, Royal College of Surgeons in Ireland, Dublin 2, Ireland

²Trinity Centre for Bioengineering, Trinity College Dublin, Dublin 2, Ireland

³School of Agriculture, Food Science and Veterinary Medicine, University College Dublin, Dublin 4, Ireland

⁴Department of Mechanical and Biomedical Engineering, National University of Ireland, Galway, Ireland

Abstract and keywords

While much research has been dedicated to understanding osteoporosis, the nature of mineral distribution and the mechanical property variation in diseased bone is poorly understood. The current study aimed to determine the effect of estrogen deficiency and bisphosphonate therapy on bone tissue properties using an ovine model of osteoporosis. Skeletally mature animals (4+ years) were divided into an ovariectomy group (ovx, n=20) and a non treatment control group (control, n=20). A zoledronic acid treated group was also included in which animals were estrogen deficient for 20 months prior to receiving treatment (Zol, n=4). Half of the control and ovx groups were euthanized 12 or 31 months post-operatively and all Zol animals were euthanised at 31 months. Individual trabeculae were removed from the proximal femur and were analysed at specific locations across the width of the trabeculae. The mineral content was measured using quantitative backscatter electron imaging and the modulus was measured using nanoindentation.

The spatial distribution of tissue modulus and mineral content in bone from ovariectomised animals was similar to control. However, ovariectomy significantly reduced the overall mineral content and tissue modulus relative to the control group after 12 months. Interestingly, significant differences were not maintained 31 months post-OVX. Treatment with zoledronic acid increased the mineral content and tissue modulus relative to both the ovariectomised and control groups. Zoledronic acid was also found to alter the mineral and modulus gradients normally associated with healthy bone tissue. The current study provides evidence that both estrogen deficiency and zoledronic acid therapy significantly alter mineral content and the mechanical properties of trabecular tissue.

Keywords: Bisphosphonate; Bone; Estrogen; Mineralisation; Ovariectomy; Stiffness

Links

DOI: 10.1016/j.jbiomech.2010.10.023

PubMed: 21093863

WoS: 000287551000004

History

Accepted: 2010-10-15

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2013	Burket JC, Brooks DJ, MacLeay JM, Baker SP, Boskey AL, van der Meulen MCH. Variations in nanomechanical properties and tissue composition within trabeculae from an ovine model of osteoporosis and treatment. Bone. January 2013;52(1):326-336.
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2012	Vaughan TJ, McCarthy CT, McNamara LM. A three-scale finite element investigation into the effects of tissue mineralisation and lamellar organisation in human cortical and trabecular bone. J Mech Behav Biomed Mater. August 2012;12:50-62.
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2017	Kreipke TC. Structural, Mechanical, and Biological Relationships of Trabecular Bone in Osteoporosis [PhD thesis]. Notre Dame, IN: University of Notre Dame; April 2017.
2013	Verbruggen SW. Mechanobiological Origins of Osteoporosis [PhD thesis]. National University of Ireland Galway; September 2013.
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2020	Simfia I. Estrogen Deficiency Alters the Mechanobiological Responses of Osteoblasts and Osteocytes [PhD thesis]. National University of Ireland Galway; April 2020.
2012	Acerbo AS. Local Chemical and Nanostructural Properties of Rat Cortical Bone Are Altered by Osteoporosis and Pharmaceutical Treatments [PhD thesis]. Stony Brook, NY: Stony Brook University; August 2012.
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2013	Wu Y. Compositional and Material Properties of Rat Bone After Drug Treatment [PhD thesis]. Edmonton, AB: University of Alberta; 2013.
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2020	Sullivan LK. Assessing Structural and Material Properties of Bone Following Radiation Therapy and Hemarthrosis [PhD thesis]. University of North Carolina at Chapel Hill; 2020.