Alterations in Bone Tissue Properties With Parathyroid Hormone Treatment

Osteoporosis, an age-related bone disease characterized by low bone mass, is a potential public health problem responsible for over 8.9 million fractures annually. From an engineering perspective to understanding the mechanism of increased fragility with osteoporosis, we applied engineering theory to study this complex composite material, bone. Amount of bone, bone distribution, and tissue material properties are determinants of whole bone strength. Parathyroid hormone (PTH, teriparatide, hPTH [1-34]) is a FDA-approved anabolic osteoporosis treatment. PTH has shown to reduce fracture risk by over 50% and increased bone volume fraction. However, the alterations in material properties and mechanical properties with PTH treatment, and the correlations to bone mechanical failure are unknown. The objectives of this research were to 1) examine alterations in microstructure and tissue properties of both cortical and cancellous bone with PTH treatment using an osteopenia sheep model, and 2) investigate the influence of microstructure and anisotropic material properties on crack propagation in a pre-notched cortical beam under bending.

To investigate the alterations in tissue properties across different length scales, a large, multi-level experiment was designed for both cortical and cancellous bone in an osteopenia sheep model. The first study focused on cortical bone and the effect of PTH treatment was greater at the micro- and nanoscale than at the whole bone level. There was no difference with whole-bone strength; however, fatigue life has shown to increase compared to other bisphosphonate-treated samples whereas fracture toughness was decreased in PTH-treated group and osteon density was higher. Furthermore, mineralization increased whereas indentation modulus decreased and hardness reduced with PTH treatment. Millimeter and nano-scale material properties were correlated with whole bone strength, but fatigue properties correlated little to bending strength or fracture toughness.

In the second study, cancellous bone was examined. There was no difference in monotonic compressive strength with PTH treatment; however, PTH-treated group preserved mechanical properties during cyclic loading compared to vehicle group. Additionally, PTH increased the volume fraction of rod-type trabeculae and decreased mineralization whereas nanoindentaion and hardness were not different. Correlating tissue composition, microstructure, and mechanical performance, energy dissipation was highly correlated with volume fraction of rods and mineralization. In the third study, fracture behavior in a single pre-notched cortical bone tissue was examined with finite element based simulation software (FRANC2D). The role of anisotropy of fracture toughness and of altered microstructure in crack trajectory and the force needed to propagate a crack was investigated. Cortical bone with more osteons located further away from the applied loads to maximize intact material would withstand more load before propagating cracks and fracturing.

Year	Entry
1989	Schaffler MB, Radin EL, Burr DB. Mechanical and morphological effects of strain rate on fatigue of compact bone. Bone. 1989;10(3):207-214.
1970	Merz WA, Schenk RK. A quantitative histological study on bone formation in human cancellous bone. Acta Anat. 1970;76(1):1-15.
2010	Gourion-Arsiquaud S, Allen MR, Burr DB, Vashishth D, Tang SY, Boskey AL. Bisphosphonate treatment modifies canine bone mineral and matrix properties and their heterogeneity. Bone. March 2010;46(3):666-672.
1997	Keaveny TM, Pinilla TP, Crawford RP, Kopperdahl DL, Lou A. Systematic and random errors in compression testing of trabecular bone [published correction appears in J Orthop Res. 1995;17(1):151]. J Orthop Res. 1997;15(1):101-110.
1977	Wright TM, Hayes WC. Fracture mechanics parameters for compact bone: effects of density and specimen thickness. J Biomech. 1977;10(7):419-430.
2002	Fan Z, Swadener JG, Rho JY, Roy ME, Pharr GM. Anisotropic properties of human tibial cortical bone as measured by nanoindentation. J Orthop Res. July 2002;20(4):806-810.
1998	Guo XE, Liang LC, Goldstein SA. Micromechanics of osteonal cortical bone fracture. J Biomech Eng. February 1998;120(1):112-117.
2006	Ural A, Vashishth D. Cohesive finite element modeling of age-related toughness loss in human cortical bone. J Biomech. 2006;39(16):2974-2982.
1995	Newman E, Turner AS, Wark JD. The potential of sheep for the study of osteopenia: current status and comparison with other animal models. Bone. April 1, 1995;16(4)(suppl):S277-S284.
2000	Mashiba T, Hirano T, Turner CH, Forwood MR, Johnston CC, Burr DB. Suppressed bone turnover by bisphosphonates increases microdamage accumulation and reduces some biomechanical properties in dog rib. J Bone Miner Res. April 2000;15(4):613-620.
1994	Schaffler MB, Pitchford WC, Choi K, Riddle JM. Examination of compact bone microdamage using back-scattered electron microscopy. Bone. September–October 1994;15(5):483-488.
2016	Miller PD, Hattersley G, Riis BJ, Williams GC, Lau E, Russo LA, Alexandersen P, Zerbini CAF, Hu M-y, Harris AG, Fitzpatrick LA, Cosman F, Christiansen C; ACTIVE Study Investigators. Effect of abaloparatide vs placebo on new vertebral fractures in postmenopausal women with osteoporosis: a randomized clinical trial. JAMA. August 16, 2016;316(7):722-733.
2008	Yerramshetty JS, Akkus O. The associations between mineral crystallinity and the mechanical properties of human cortical bone. Bone. March 2008;42(3):476-482.
2013	Tsai JN, Uihlein AV, Lee H, Kumbhani R, Siwila-Sackman E, McKay EA, Burnett-Bowie S-AM, Neer RM, Leder BZ. Teriparatide and denosumab, alone or combined, in women with postmenopausal osteoporosis: the DATA study randomised trial. Lancet. July 6, 2013;382(9886):50-56.
2014	Bajaj D, Geissler JR, Allen MR, Burr DB, Fritton JC. The resistance of cortical bone tissue to failure under cyclic loading is reduced with alendronate. Bone. July 2014;64:57-64.
1989	Martin RB, Burr DB. Structure, Function, and Adaptation of Compact Bone. New York, NY: Raven Press; 1989.
2001	Neer RM, Arnaud CD, Zanchetta JR, Prince R, Gaich GA, Reginster J-Y, Hodsman AB, Eriksen EF, Ish-Shalom S, Genant HK, Wang O, Mellström D, Oefjord ES, Marcinowska-Suchowierska E, Salmi J, Mulder H, Halse J, Sawicki AZ, Mitlak BH. Effect of parathyroid hormone (1-34) on fractures and bone mineral density in postmenopausal women with osteoporosis. NEJM. May 10, 2001;344(19):1434-1441.
1998	Zioupos P, Currey JD. Changes in the stiffness, strength, and toughness of human cortical bone with age. Bone. January 1998;22(1):57-66.
1970	McElhaney JH, Fogle JL, Melvin JW, Haynes RR, Roberts VL, Alem NM. Mechanical properties of cranial bone. J Biomech. 1970;3(5):495-511.
1995	Lane NE, Thompson JM, Strewler GJ, Kinney JH. Intermittent treatment with human parathyroid hormone (hPTH[1‐34]) increased trabecular bone volume but not connectivity in osteopenic rats. J Bone Miner Res. October 1995;10(10):1470-1477.
2009	Gourion‐Arsiquaud S, Burket JC, Havill LM, DiCarlo E, Doty SB, Mendelsohn R, van der Meulen MCH, Boskey AL. Spatial variation in osteonal bone properties relative to tissue and animal age. J Bone Miner Res. July 2009;24(7):1271-1281.
2016	Boskey AL, Donnelly E, Boskey E, Spevak L, Ma Y, Zhang W, Lappe J, Recker RR. Examining the relationships between bone tissue composition, compositional heterogeneity, and fragility fracture: a matched case-controlled FTIRI study. J Bone Miner Res. May 2016;31(5):1070-1081.
2013	Boskey AL. Bone composition: relationship to bone fragility and antiosteoporotic drug effects. BoneKEy Rep. December 2013;2:447.
2010	Boskey AL, Coleman R. Aging and bone. J Dent Res. December 2010;89(2):1333-1348.
1997	Yeni YN, Brown CU, Wang Z, Norman TL. The influence of bone morphology on fracture toughness of the human femur and tibia. Bone. November 1997;21(4):453-459.
2003	Jiang Y, Zhao JJ, Mitlak BH, Wang O, Genant HK, Eriksen EF. Recombinant human parathyroid hormone (1–34) [teriparatide] improves both cortical and cancellous bone structure. J Bone Miner Res. November 2003;18(11):1932-1941.
2007	Allen MR, Burr DB. Mineralization, microdamage, and matrix: how bisphosphonates influence material properties of bone. BoneKEy Osteovision. February 2007;4(2):49-60.
2012	Donnelly E, Meredith DS, Nguyen JT, Gladnick BP, Rebolledo BJ, Shaffer AD, Lorich DG, Lane JM, Boskey AL. Reduced cortical bone compositional heterogeneity with bisphosphonate treatment in postmenopausal women with intertrochanteric and subtrochanteric fractures. J Bone Miner Res. March 2012;27(3):672-678.
2005	Nyman JS, Reyes M, Wang X. Effect of ultrastructural changes on the toughness of bone. Micron. October–December 2005;36(7-8):566-582.
2001	Lindsay R, Silverman SL, Cooper C, Hanley DA, Barton I, Broy SB, Licata A, Benhamou L, Geusens P, Flowers K, Stracke H, Seeman E. Risk of new vertebral fracture in the year following a fracture. JAMA. January 17, 2001;285(6):320-323.
1999	Burger EH, Klein-Nulend J. Mechanotransduction in bone: role of the lacunocanalicular network. FASEB J. May 1999;12(9001):S101-S112.
2002	Rho JY, Zioupos P, Currey JD, Pharr GM. Microstructural elasticity and regional heterogeneity in human femoral bone of various ages examined by nano-indentation. J Biomech. February 2002;35(2):189-198.
2005	Boskey AL, Mendelsohn R. Infrared analysis of bone in health and disease. J Biomed Opt. May–June 2005;10(3):031102.
2008	Wu Z-x, Lei W, Hu Y-y, Wang H-q, Wan S-y, Ma Z-s, Sang H-x, Fu S-c, Han Y-s. Effect of ovariectomy on BMD, micro-architecture and biomechanics of cortical and cancellous bones in a sheep model. Med Eng Phys. 2008;30(9):1112-1118.
1964	Frost HM. The Laws of Bone Structure. Springfield, IL: Charles C. Thomas; 1964.
1988	Rice JC, Cowin SC, Bowman JA. On the dependence of the elasticity and strength of cancellous bone on apparent density. J Biomech. 1988;21(2):155-168.
2017	Hernandez CJ, van der Meulen MCH. Understanding bone strength is not enough. J Bone Miner Res. June 2017;32(6):1157-1162.
2013	Gourion-Arsiquaud S, Lukashova L, Power J, Loveridge N, Reeve J, Boskey AL. Fourier transform infrared imaging of femoral neck bone: reduced heterogeneity of mineral-to-matrix and carbonate-to-phosphate and more variable crystallinity in treatment-naive fracture cases compared with fracture-free controls. J Bone Miner Res. January 2013;28(1):150-161.
2008	Liu XS, Sajda P, Saha PK, Wehrli FW, Bevill G, Keaveny TM, Guo XE. Complete volumetric decomposition of individual trabecular plates and rods and its morphological correlations with anisotropic elastic moduli in human trabecular bone. J Bone Miner Res. February 2008;23(2):223-235.
1981	Carter DR, Caler WE, Spengler DM, Frankel VH. Fatigue behavior of adult cortical bone: the influence of mean strain and strain range. Acta Orthop Scand. 1981;52(5):481-490.
2014	Shane E, Burr D, Abrahamsen B, Adler RA, Brown TD, Cheung AM, Cosman F, Curtis JR, Dell R, Dempster DW, Ebeling PR, Einhorn TA, Genant HK, Geusens P, Klaushofer K, Lane JM, McKiernan F, McKinney R, Ng A, Nieves J, O’Keefe R, Papapoulos S, Howe TS, van der Meulen MCH, Weinstein RS, Whyte MP. Atypical subtrochanteric and diaphyseal femoral fractures: second report of a task force of the American Society for Bone and Mineral Research. J Bone Miner Res. January 2014;29(1):1-23.
2010	Shane E, Burr D, Ebeling PR, Abrahamsen B, Adler RA, Brown TD, Cheung AM, Cosman F, Curtis JR, Dell R, Dempster D, Einhorn TA, Genant HK, Geusens P, Klaushofer K, Koval K, Lane JM, McKiernan F, McKinney R, Ng A, Nieves J, O'Keefe R, Papapoulos S, Sen HT, van der Meulen MCH, Weinstein RS, Whyte M. Atypical subtrochanteric and diaphyseal femoral fractures: report of a task force of the American Society for Bone and Mineral Research. J Bone Miner Res. November 2010;25(11):2267-2294.
1997	McCalden RW, McGeough JA, Court-Brown CM. Age-related changes in the compressive strength of cancellous bone: the relative importance of changes in density and trabecular architecture. J Bone Joint Surg. March 1997;79A(3):421-427.
1993	McCalden RW, McGeough JA, Barker MB, Court-Brown CM. Age-related changes in the tensile properties of cortical bone: the relative importance of changes in porosity, mineralization, and microstructure. J Bone Joint Surg. 1993;75A(8):1193-1205.
2003	Paschalis EP, Burr DB, Mendelsohn R, Hock JM, Boskey AL. Bone mineral and collagen quality in humeri of ovariectomized cynomolgus monkeys given rhPTH(1–34) for 18 months. J Bone Miner Res. April 2003;18(4):769-775.
2007	Ural A, Vashishth D. Anisotropy of age-related toughness loss in human cortical bone: a finite element study. J Biomech. 2007;40(7):1606-1614.
2001	Hernandez CJ, Beaupré GS, Keller TS, Carter DR. The influence of bone volume fraction and ash fraction on bone strength and modulus. Bone. July 2001;29(1):74-78.
2011	Mischinski S, Ural A. Finite element modeling of microcrack growth in cortical bone. J Appl Mech. July 2011;78(4):041016.
2010	Donnelly E, Boskey AL, Baker SP, van der Meulen MCH. Effects of tissue age on bone tissue material compositionand nanomechanical properties in the rat cortex. J Biomed Mater Res. March 1, 2010;A92(3):1048-1056.
2011	Donnelly E. Methods for assessing bone quality: a review. Clin Orthop Relat Res. August 2011;469:2128-2138.
2011	Cole JH, van der Meulen MCH. Whole bone mechanics and bone quality. Clin Orthop Relat Res. August 2011;469(8):2139-2149.
2000	Gadeleta SJ, Boskey AL, Paschalis E, Carlson C, Menschik F, Baldini T, Peterson M, Rimnac CM. A physical, chemical, and mechanical study of lumbar vertebrae from normal, ovariectomized, and nandrolone decanoate-treated cynomolgus monkeys (macaca fascicularis). Bone. October 2000;27(4):541-550.
2005	O'Brien FJ, Taylor D, Lee TC. The effect of bone microstructure on the initiation and growth of microcracks. J Orthop Res. March 2005;23(2):475-480.
2001	Dempster DW, Cosman F, Kurland ES, Zhou H, Nieves J, Woelfert L, Shane E, Plavetić K, Müller R, Bilezikian J, Lindsay R. Effects of daily treatment with parathyroid hormone on bone microarchitecture and turnover in patients with osteoporosis: a paired biopsy study. J Bone Miner Res. October 2001;16(10):1846-1853.
1996	Garnero P, Sornay‐Rendu E, Chapuy M, Delmas PD. Increased bone turnover in late postmenopausal women is a major determinant of osteoporosis. J Bone Miner Res. 1996;11(3):337-349.
2000	Phelps JB, Hubbard GB, Wang X, Agrawal CM. Microstructural heterogeneity and the fracture toughness of bone. J Biomed Mater Res. September 15, 2000;51(4):735-741.
2007	Taylor D, Hazenberg JG, Lee TC. Living with cracks: damage and repair in human bone. Nat Mater. April 2007;6(4):263-268.
2017	Lloyd AA, Gludovatz B, Riedel C, Luengo EA, Saiyed R, Marty E, Lorich DG, Lane JM, Ritchie RO, Busse B, Donnelly E. Atypical fracture with long-term bisphosphonate therapy is associated with altered cortical composition and reduced fracture resistance. Proc Natl Acad Sci USA. August 15, 2017;114(33):8722-8727.
2007	Tai K, Dao M, Suresh S, Palazoglu A, Ortiz C. Nanoscale heterogeneity promotes energy dissipation in bone. Nat Mater. June 2007;6(6):454-462.
2006	Black DM, Schwartz AV, Ensrud KE, Cauley JA, Levis S, Quandt SA, Satterfield S, Wallace RB, Bauer DC, Palermo L, Wehren LE, Lombardi A, Santora AC, Cummings SR; FLEX Research Group. Effects of continuing or stopping alendronate after 5 years of treatment: the fracture intervention trial long-term extension (FLEX): a randomized trial. JAMA. December 27, 2006;296(24):2927-2938.
2010	Keaveny TM. Biomechanical computed tomography: noninvasive bone strength analysis using clinical computed tomography scans. Annals NY Acad Sci. 2010;1192(1):57-65.
2005	Kanis JA, Borgstrom F, De Laet C, Johansson H, Johnell O, Jonsson B, Oden A, Zethraeus N, Pfleger B, Khaltaev N. Assessment of fracture risk. Osteoporos Int. June 2005;16(6):581-589.
1999	Jilka RL, Weinstein RS, Bellido T, Roberson P, Parfitt AM, Manolagas SC. Increased bone formation by prevention of osteoblast apoptosis with parathyroid hormone. J Clin Invest. August 1999;104(4):439-446.
2006	Donnelly E, Baker SP, Boskey AL, van der Meulen MC. Effects of surface roughness and maximum load on the mechanical properties of cancellous bone measured by nanoindentation. J Biomed Mater Res. May 2006;A77(2):426-435.
1997	Rho J-Y, Tsui TY, Pharr GM. Elastic properties of human cortical and trabecular lamellar bone measured by nanoindentation. Biomaterials. 1997;18(20):1325-1330.
1987	Bonfield W. Advances in the fracture mechanics of cortical bone. J Biomech. 1987;20(11-12):1071-1081.
2004	Vashishth D. Rising crack-growth-resistance behavior in cortical bone: implications for toughness measurements. J Biomech. June 2004;37(6):943-946.
2001	van der Meulen MCH, Jepsen KJ, Mikić B. Understanding bone strength: size isn’t everything. Bone. July 2001;29(1):101-104.
1998	Rho J-Y, Kuhn-Spearing L, Zioupos P. Mechanical properties and the hierarchical structure of bone. Med Eng Phys. 1998;20(2):92-102.
2007	Khosla S, Burr D, Cauley J, Dempster DW, Ebeling PR, Felsenberg D, Gagel RF, Gilsanz V, Guise T, Koka S, McCauley LK, McGowan J, McKee MD, Mohla S, Pendrys DG, Raisz LG, Ruggiero SL, Shafer DM, Shum L, Silverman SL, Van Poznak CH, Watts N, Woo S-B, Shane E. Bisphosphonate-associated osteonecrosis of the jaw: report of a task force of the American Society for Bone and Mineral Research. J Bone Miner Res. October 2007;22(10):1479-1491.
2005	Black DM, Bilezikian JP, Ensrud KE, Greenspan SL, Palermo L, Hue T, Lang TF, McGowan JA, Rosen CJ; PaTH Study Investigators. One year of alendronate after one year of parathyroid hormone (1-84) for osteoporosis. NEJM. August 11, 2005;353(6):555-565.
2015	Goff MG, Lambers FM, Nguyen TM, Sung J, Rimnac CM, Hernandez CJ. Fatigue-induced microdamage in cancellous bone occurs distant from resorption cavities and trabecular surfaces. Bone. October 2015;79:8-14.
2011	Burket J, Gourion-Arsiquaud S, Havill LM, Baker SP, Boskey AL, van der Meulen MCH. Microstructure and nanomechanical properties in osteons relate to tissue and animal age. J Biomech. January 11, 2011;44(2):277-284.
1999	Hirano T, Burr DB, Turner CH, Sato M, Cain RL, Hock JM. Anabolic effects of human biosynthetic parathyroid hormone fragment (1–34), LY333334, on remodeling and mechanical properties of cortical bone in rabbits. J Bone Miner Res. April 1999;14(4):536-545.
2004	Wang X, Puram S. The toughness of cortical bone and its relationship with age. Ann Biomed Eng. January 2004;32(1):123-135.
2000	Yeni YN, Norman TL. Calculation of porosity and osteonal cement line effects on the effective fracture toughness of cortical bone in longitudinal crack growth. J Biomed Mater Res. September 5, 2000;51(3):504-509.
1995	Dobnig H, Turner RT. Evidence that intermittent treatment with parathyroid hormone increases bone formation in adult rats by activation of bone lining cells. Endocrinology. August 1995;136(8):3632-3638.
2004	Nalla RK, Kruzic JJ, Kinney JH, Ritchie RO. Effect of aging on the toughness of human cortical bone: evaluation by R-curves. Bone. December 2004;35(6):1240-1246.
2003	Misof BM, Roschger P, Cosman F, Kurland ES, Tesch W, Messmer P, Dempster DW, Nieves J, Shane E, Fratzl P, Klaushofer K, Bilezikian J, Lindsay R. Effects of intermittent parathyroid hormone administration on bone mineralization density in iliac crest biopsies from patients with osteoporosis: a paired study before and after treatment. J Clin Endocrinol Metab. January 2003;88(3):1150-1156.
2014	McClung MR, Grauer A, Boonen S, Bolognese MA, Brown JP, Diez-Perez A, Langdahl BL, Reginster J-Y, Zanchetta JR, Wasserman SM, Katz L, Maddox J, Yang Y-C, Libanati C, Bone HG. Romosozumab in postmenopausal women with low bone mineral density. NEJM. January 30, 2014;370(5):412-420.
1993	Turner CH, Burr DB. Basic biomechanical measurements of bone: a tutorial. Bone. 1993;14(4):595-608.
1976	Evans FG. Mechanical properties and histology of cortical bone from younger and older men. Anat Rec. 1976;185(1):1-12.
2002	Cummings SR, Karpf DB, Harris F, Genant HK, Ensrud K, LaCroix AZ, Black DM. Improvement in spine bone density and reduction in risk of vertebral fractures during treatment with antiresorptive drugs. Am J Med. March 2002;112(4):281-289.
1975	Reilly DT, Burstein AH. The elastic and ultimate properties of compact bone tissue. J Biomech. 1975;8(6):393-405.
2016	Torres AM, Matheny JB, Keaveny TM, Taylor D, Rimnac CM, Hernandez CJ. Material heterogeneity in cancellous bone promotes deformation recovery after mechanical failure. Proc Natl Acad Sci USA. March 15, 2016;113(11):2892-2897.
1964	Currey JD. Some effects of ageing in human haversian systems. J Anat. January 1964;98(1):69-75.
1996	Paschalis EP, DiCarlo E, Betts F, Sherman P, Mendelsohn R, Boskey AL. FTIR microspectroscopic analysis of human osteonal bone. Calcif Tiss Int. December 1996;59(6):480-487.
2009	Liu XS, Bevill G, Keaveny TM, Sajda P, Guo XE. Micromechanical analyses of vertebral trabecular bone based on individual trabeculae segmentation of plates and rods. J Biomech. February 9, 2009;42(3):249-256.
2006	McCreadie BR, Morris MD, Chen T-c, Rao DS, Finney WF, Widjaja E, Goldstein SA. Bone tissue compositional differences in women with and without osteoporotic fracture. Bone. December 2006;39(6):1190-1195.
2013	Ettinger B, Burr DB, Ritchie RO. Proposed pathogenesis for atypical femoral fractures: lessons from materials research. Bone. August 2013;55(2):495-500.
1995	Norman TL, Vashishth D, Burr DB. Fracture toughness of human bone under tension. J Biomech. March 1995;28(3):309-320.
2011	Larrue A, Rattner A, Peter Z-A, Olivier C, Laroche N, Vico L, Peyrin F. Synchrotron radiation micro-CT at the micrometer scale for the analysis of the three-dimensional morphology of microcracks in human trabecular bone. PLoS One. 2011;6(7):e21297.
2008	Koester KJ, Ager JW III, Ritchie RO. The true toughness of human cortical bone measured with realistically short cracks. Nat Mater. August 2008;7(8):672-677.
2006	Viguet-Carrin S, Garnero P, Delmas PD. The role of collagen in bone strength. Osteoporos Int. March 2006;17(3):319-336.
2003	Morgan EF, Bayraktar HH, Keaveny TM. Trabecular bone modulus–density relationships depend on anatomic site. J Biomech. July 2003;36(7):897-904.
2004	Bourne BC, van der Meulen MCH. Finite element models predict cancellous apparent modulus when tissue modulus is scaled from specimen CT-attenuation. J Biomech. May 2004;37(5):613-621.
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.

Year

Entry

1989

Schaffler MB, Radin EL, Burr DB. Mechanical and morphological effects of strain rate on fatigue of compact bone. Bone. 1989;10(3):207-214.

1970

Merz WA, Schenk RK. A quantitative histological study on bone formation in human cancellous bone. Acta Anat. 1970;76(1):1-15.

2010

Gourion-Arsiquaud S, Allen MR, Burr DB, Vashishth D, Tang SY, Boskey AL. Bisphosphonate treatment modifies canine bone mineral and matrix properties and their heterogeneity. Bone. March 2010;46(3):666-672.

1997

Keaveny TM, Pinilla TP, Crawford RP, Kopperdahl DL, Lou A. Systematic and random errors in compression testing of trabecular bone [published correction appears in J Orthop Res. 1995;17(1):151]. J Orthop Res. 1997;15(1):101-110.

1977

Wright TM, Hayes WC. Fracture mechanics parameters for compact bone: effects of density and specimen thickness. J Biomech. 1977;10(7):419-430.