Recombinant human parathyroid hormone (1–34) [teriparatide] improves both cortical and cancellous bone structure

wbldb

Jiang, Yebin¹; Zhao, Jenny J.¹; Mitlak, Bruce H.²; Wang, Ouhong²; Genant, Harry K.¹; Eriksen, Erik F.²

Recombinant human parathyroid hormone (1–34) [teriparatide] improves both cortical and cancellous bone structure

J Bone Miner Res. November 2003;18(11):1932-1941

Affiliations

¹Osteoporosis and Arthritis Research Group, Department of Radiology, University of California, San Francisco, California, USA

²Lilly Research Laboratories, Eli Lilly and Company, Indianapolis, Indiana, USA
Abstract and keywords

Histomorphometry and μCT of 51 paired iliac crest biopsy specimens from women treated with teriparatide revealed significant increases in cancellous bone volume, cancellous bone connectivity density, cancellous bone plate-like structure, and cortical thickness, and a reduction in marrow star volume.

Introduction: We studied the ability of teriparatide (rDNA origin) injection [rhPTH(1–34), TPTD] to improve both cancellous and cortical bone in a subset of women enrolled in the Fracture Prevention Trial of postmenopausal women with osteoporosis after a mean treatment time of 19 months. This is the first report of a biopsy study after treatment with teriparatide having a sufficient number of paired biopsy samples to provide quantitative structural data.

Methods: Fifty-one paired iliac crest bone biopsy specimens (placebo [n = 19], 20 μg teriparatide [n = 18], and 40 μg teriparatide [n = 14]) were analyzed using both two-dimensional (2D) histomorphometry and three-dimensional (3D) microcomputed tomography (μCT). Data for both teriparatide treatment groups were pooled for analysis.

Results and Conclusions: By 2D histomorphometric analyses, teriparatide significantly increased cancellous bone volume (median percent change: teriparatide, 14%; placebo, −24%; p = 0.001) and reduced marrow star volume (teriparatide, −16%; placebo, 112%; p = 0.004). Teriparatide administration was not associated with osteomalacia or woven bone, and there were no significant changes in mineral appositional rate or wall thickness. By 3D cancellous and cortical bone structural analyses, teriparatide significantly decreased the cancellous structure model index (teriparatide, −12%; placebo, 7%; p = 0.025), increased cancellous connectivity density (teriparatide, 19%; placebo, −14%; p = 0.034), and increased cortical thickness (teriparatide, 22%; placebo, 3%; p = 0.012). These data show that teriparatide treatment of postmenopausal women with osteoporosis significantly increased cancellous bone volume and connectivity, improved trabecular morphology with a shift toward a more plate-like structure, and increased cortical bone thickness. These changes in cancellous and cortical bone morphology should improve biomechanical competence and are consistent with the substantially reduced incidences of vertebral and nonvertebral fractures during administration of teriparatide.

Keywords: iliac crest; biopsy specimens; histomorphometry; teriparatide; microstructure
Links

DOI: 10.1359/jbmr.2003.18.11.1932

PubMed: 14606504

WoS: 000186059500002
History

Received: 2003-01-16

Revised: 2003-05-02

Accepted: 2003-07-08

Online: 2003-11-01

Cited Works (19)

Year	Entry
1998	Jiang Y, Zhao J, Augat P, Ouyang X, Lu Y, Majumdar S, Genant HK. Trabecular bone mineral and calculated structure of human bone specimens scanned by peripheral quantitative computed tomography: relation to biomechanical properties. J Bone Miner Res. November 1998;13(11):1783-1790.
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.
2000	Borah B, Dufresne TE, Cockman MD, Gross GJ, Sod EW, Myers WR, Combs KS, Higgins RE, Pierce SA, Stevens ML. Evaluation of changes in trabecular bone architecture and mechanical properties of minipig vertebrae by three‐dimensional magnetic resonance microimaging and finite element modeling. J Bone Miner Res. September 2000;15(9):1786-1797.
1994	Goulet RW, Goldstein SA, Ciarelli MJ, Kuhn JL, Brown MB, Feldkamp LA. The relationship between the structural and orthogonal compressive properties of trabecular bone. J Biomech. April 1994;27(4):375-389.
2002	Turner CH. Biomechanics of bone: determinants of skeletal fragility and bone quality. Osteoporos Int. February 2002;13(2):97-104.
1994	Müller R, Hildebrand T, Rüegsegger P. Non-invasive bone biopsy: a new method to analyse and display the three-dimensional structure of trabecular bone. Phys Med Biol. January 1994;39(1):145-164.
1991	Faulkner KG, Cann CE, Hasegawa BH. Effect of bone distribution on vertebral strength: assessment with patient-specific nonlinear finite element analysis. Radiology. June 1991;179(3):669-674.
1997	Lindsay R, Nieves J, Formica C, Henneman E, Woelfert L, Shen V, Dempster D, Cosman F. Randomised controlled study of effect of parathyroid hormone on vertebral-bone mass and fracture incidence among postmenopausal women on oestrogen with osteoporosis. Lancet. August 23, 1997;350(9077):P550-P555.
1995	Boyce RW, Ebert DC, Youngs TA, Paddock CL, Mosekilde L, Stevens ML, Gundersen HJG. Unbiased estimation of vertebral trabecular connectivity in calcium-restricted ovariectomized minipigs. Bone. June 1995;16(6):637-642.
1988	Parisien MV, McMahon D, Pushparaj N, Dempster DW. Trabecular architecture in iliac crest bone biopsies: infra-individual variability in structural parameters and changes with age. Bone. 1988;9(5):289-295.
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.
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.
1987	Parfitt AM, Drezner MK, Glorieux FH, Kanis JA, Malluche H, Meunier PJ, Ott SM, Recker RR. Bone histomorphometry: standardization of nomenclature, symbols, and units: report of the ASBMR histomorphometry nomenclature committee. J Bone Miner Res. December 1987;2(6):595-610.
1995	Boyce RW, Wronski TJ, Ebert DC, Stevens ML, Paddock CL, Youngs TA, Gundersen HJG. Direct stereological estimation of three-dimensional connectivity in rat vertebrae: effect of estrogen, etidronate and risedronate following ovariectomy. Bone. February 1995;16(2):209-213.
1984	Parfitt AM. Age-related structural changes in trabecular and cortical bone: cellular mechanisms and biomechanical consequences. Calcif Tiss Int. 1984;36(suppl 1):S123-S128.
1986	Eriksen EF. Normal and pathological remodeling of human trabecular bone: three dimensional reconstruction of the remodeling sequence in normals and in metabolic bone disease. Endocr Rev. November 1986;7(4):379-408.
1992	Bradbeer JN, Arlott ME, Meunier PJ, Reeve J. Treatment of osteoporosis with parathyroid peptide (hPTH 1-34) and oestrogen: increase in volumetric density of iliac cancellous bone may depend on reduced trabecular spacing as well as increased thickness of packets of newly formed bone. Clin Endocrinol. September 1992;37(3):282-289.
1969	Rockoff SD, Sweet E, Bleustein J. The relative contribution of trabecular and cortical bone to the strength of human lumbar vertebrae. Calcif Tiss Res. December 1969;3(1):163-175.
2001	Burr DB, Hirano T, Turner CH, Hotchkiss C, Brommage R, Hock JM. Intermittently administered human parathyroid hormone(1–34) treatment increases intracortical bone turnover and porosity without reducing bone strength in the humerus of ovariectomized cynomolgus monkeys. J Bone Miner Res. January 2001;16(1):157-165.

Cited By (45)

Year	Entry
2005	Lai YM, Qin L, Yeung HY, Lee KKH, Chan KM. Regional differences in trabecular BMD and micro-architecture of weight-bearing bone under habitual gait loading: a pQCT and microCT study in human cadavers. Bone. 2005;37(2):274-282.
2007	Akhter MP, Lappe JM, Davies KM, Recker RR. Transmenopausal changes in the trabecular bone structure. Bone. July 2007;41(1):111-116.
2008	Chappard C, Marchadier A, Benhamou CL. Side-to-side and within-side variability of 3D bone microarchitecture by conventional micro-computed tomography of paired iliac crest biopsies. Bone. July 2008;43(1):203-208.
2009	Fajardo RJ, Cory E, Patel ND, Nazarian A, Laib A, Manoharan RK, Schmitz JE, DeSilva JM, MacLatchy LM, Snyder BD, Bouxsein ML. Specimen size and porosity can introduce error into μCT-based tissue mineral density measurements. Bone. 2009;44(1):176-184.
2020	Ascenzi M-G. Theoretical mathematics, polarized light microscopy and computational models in healthy and pathological bone. Bone. May 2020;134:115295.
2022	Paschalis EP, Gamsjaeger S, Klaushofer K, Shane E, Cohen A, Stepan J, Pavo I, Eriksen EF, Taylor KA, Dempster DW. Treatment of postmenopausal osteoporosis patients with teriparatide for 24 months reverts forming bone quality indices to premenopausal healthy control values. Bone. September 2022;162:116478.
2023	Ganapathy A, Nieves JW, Keaveny TM, Cosman F. Effects of four-year cyclic versus two-year daily teriparatide treatment on volumetric bone density and bone strength in postmenopausal women with osteoporosis. Bone. February 2023;167:116618.
2011	Burghardt AJ, Link TM, Majumdar S. High-resolution computed tomography for clinical imaging of bone microarchitecture. Clin Orthop Relat Res. August 2011;469:2179-2193.
2022	Loundagin LL, Cooper DML. Towards novel measurements of remodelling activity in cortical bone: implications for osteoporosis and related pharmaceutical treatments. Eur Cell Mater. 2022;43:202-227.
2015	Salmon PL, Ohlsson C, Shefelbine SJ, Doube M. Structure model index does not measure rods and plates in trabecular bone. Front Endocrinol (Lausanne). 2015;6:162.
2019	Dillon S, Staines KA, Millán JL, Farquharson C. How to build a bone: PHOSPHO1, biomineralization, and beyond. JMBR Plus. July 2019;3(7):e10202.
2008	Chappard C, Marchadier A, Benhamou L. Interindividual and intraspecimen variability of 3-D bone microarchitectural parameters in iliac crest biopsies imaged by conventional micro-computed tomography. J Bone Min Metab. 2008;26(5):506-513.
2005	Riggs BL, Parfitt AM. Drugs used to treat osteoporosis: the critical need for a uniform nomenclature based on their action on bone remodeling. J Bone Miner Res. February 2005;20(2):177-184.
2005	Prince R, Sipos A, Hossain A, Syversen U, Ish-Shalom S, Marcinowska E, Halse J, Lindsay R, Dalsky GP, Mitlak BH. Sustained nonvertebral fragility fracture risk reduction after discontinuation of teriparatide treatment. J Bone Miner Res. September 2005;20(9):1507-1513.
2006	Lindsay R, Cosman F, Zhou H, Bostrom MP, Shen VW, Cruz JD, Nieves JW, Dempster DW. A novel tetracycline labeling schedule for longitudinal evaluation of the short-term effects of anabolic therapy with a single iliac crest bone biopsy: early actions of teriparatide. J Bone Miner Res. March 2006;21(3):366-373.
2006	Ma YL, Zeng Q, Donley DW, Ste‐Marie L, Gallagher JC, Dalsky GP, Marcus R, Eriksen EF. Teriparatide increases bone formation in modeling and remodeling osteons and enhances IGF‐II immunoreactivity in postmenopausal women with osteoporosis. J Bone Miner Res. June 2006;21(6):855-864.
2007	Lindsay R, Zhou H, Cosman F, Nieves J, Dempster DW, Hodsman AB. Effects of a one-month treatment with PTH(1–34) on bone formation on cancellous, endocortical, and periosteal surfaces of the human ilium. J Bone Miner Res. April 2007;22(4):495-502.
2008	Keaveny TM, Hoffmann PF, Singh M, Palermo L, Bilezikian JP, Greenspan SL, Black DM. Femoral bone strength and its relation to cortical and trabecular changes after treatment with PTH, alendronate, and their combination as assessed by finite element analysis of quantitative CT scans. J Bone Miner Res. December 2008;23(12):1974-1982.
2013	Hansen S, Hauge EM, Jensen J-EB, Brixen K. Differing effects of PTH 1–34, PTH 1–84, and zoledronic acid on bone microarchitecture and estimated strength in postmenopausal women with osteoporosis: an 18-month open-labeled observational study using HR-pQCT. J Bone Miner Res. April 2013;28(4):736-745.
2018	Dempster DW, Zhou H, Recker RR, Brown JP, Recknor CP, Lewiecki EM, Miller PD, Rao SD, Kendler DL, Lindsay R, Krege JH, Alam J, Taylor KA, Melby TE, Ruff VA. Remodeling- and modeling-based bone formation with teriparatide versus denosumab: a longitudinal analysis from baseline to 3 months in the AVA study. J Bone Miner Res. 2018;33(2):298-306.
2020	Harrison KD, Hiebert BD, Panahifar A, Andronowski JM, Ashique AM, King GA, Arnason T, Swekla KJ, Pivonka P, Cooper DML. Cortical bone porosity in rabbit models of osteoporosis. J Bone Miner Res. November 2020;35(11):2211-2228.
2021	Ramchand SK, David NL, Lee H, Bruce M, Bouxsein ML, Leder BZ, Tsai JN. Effects of combination denosumab and high‐dose teriparatide administration on bone microarchitecture and estimated strength: the DATA‐HD HR‐pQCT study. J Bone Miner Res. January 2021;36(1):41-51.
2021	Dempster DW, Zhou H, Rao SD, Recknor C, Miller PD, Leder BZ, Annett M, Ominsky MS, Mitlak BH. Early effects of abaloparatide on bone formation and resorption indices in postmenopausal women with osteoporosis. J Bone Miner Res. April 2021;36(4):644-653.
2011	Silva BC, Costa AG, Cusano NE, Kousteni S, Bilezikian JP. Catabolic and anabolic actions of parathyroid hormone on the skeleton. J Endocrinol Invest. November 2011;34(10):801-810.
2007	Jee WSS, Tian XY, Setterberg RB. Cancellous bone minimodeling-based formation: a Frost, Takahashi legacy. J Musculoskel Neuron Interact. July–September 2007;7(3):232-239.
2009	KDIGO clinical practice guideline for the diagnosis, evaluation, prevention, and treatment of chronic kidney disease–mineral and bone disorder (CKD–MBD). Kidney Int. August 2009;76(suppl 113):S1-S130.
2006	Seeman E, Delmas PD. Bone quality: the material and structural basis of bone strength and fragility. NEJM. May 25, 2006;354(21):2250-2261.
2012	Rizzoli R, Chapurlat RD, Laroche J-M, Krieg MA, Thomas T, Frieling I, Boutroy S, Laib A, Bock O, Felsenberg D. Effects of strontium ranelate and alendronate on bone microstructure in women with osteoporosis. Osteoporos Int. January 2012;23(1):305-315.
2020	McClung MR, Bolognese MA, Brown JP, Reginster J-Y, Langdahl BL, Maddox J, Shi Y, Rojeski M, Meisner PD, Grauer A. A single dose of zoledronate preserves bone mineral density for up to 2 years after a second course of romosozumab. Osteoporos Int. November 2020;31(11):2231-2241.
2021	Winzenrieth R, Ominsky MS, Wang Y, Humbert L, Weiss RJ. Differential effects of abaloparatide and teriparatide on hip cortical volumetric BMD by DXA-based 3D modeling. Osteoporos Int. March 2021;32(3):575-583.
2006	Gong H, Zhang M, Qin L, Lee KKH, Guo X, Shi S-Q. Regional variations in microstructural properties of vertebral trabeculae with structural groups. Spine. January 2006;31(1):24-32.
2007	Yuan Y. The Differential Effects of Two Critical Osteoclastogenesis Stimulating Factors on Bone Biomechanics [PhD thesis]. Clemson, SC: Clemson University; May 2007.
2008	Willey JS. Radiation-Induced Osteoporosis: Bone Quantity, Architecture, and Increased Resorption Following Exposure to Ionizing Radiation [PhD thesis]. Clemson, SC: Clemson University; May 2008.
2017	Walk RE. Bone Phenotype of Toll-Like Receptor 5 Deficient (TLR5KO) Mice and PTH Treated Osteopenic Sheep [Master's thesis]. Ithaca, NY: Cornell University; August 2017.
2018	Chen JTH. Alterations in Bone Tissue Properties With Parathyroid Hormone Treatment [PhD thesis]. Ithaca, NY: Cornell University; May 2018.
2005	Stauber M. Volumetric Spatial Decomposition of Porous Microstructures: A Framework for Element Based Analysis of Trabecular Bone [PhD thesis]. Swiss Federal Institute of Technology Zürich; 2005.
2012	Christen DB. Nonlinear Failure Prediction in Human Bone: A Clinical Approach Based on High Resolution Imaging [PhD thesis]. Swiss Federal Institute of Technology Zürich; 2012.
2019	Bakr M. Parathyroid Hormone Effect on Facilitating Stress Fracture Repair [PhD thesis]. Brisbane, Australia: Griffith University; July 2019.
2013	Wong AKO. A Tri-Modality Comparison of Volumetric Bone Measure Quantification Using 1.0 Tesla Peripheral Magnetic Resonance Imaging, Peripheral Quantitative Computed Tomography and Highresolution-Peripheral Quantitative Computed Tomography Images [PhD thesis]. Hamilton, ON: McMaster University; October 2013.
2022	van Dijk Christiansen P. The Relevance of Reversal Cells and Intermittent Parathyroid Hormone on the Duration of the Reversal-Resorption Phase in Intracortical Bone Remodeling Events [PhD thesis]. University of Southern Denmark (SDU); November 2022.
2012	Brennan MA. Close to the Bone: Investigations Into Bone Tissue Mineralisation and Mechanobiology of Osteoporosis [PhD thesis]. University of Southampton; January 2012.
2010	Trinward A. Osteoporosis Drugs Prevent Bone Loss, Normalize Metabolic Parameters and Negatively Correlate Bone and Fat [Master's thesis]. Stony Brook, NY: Stony Brook University; 2010.
2020	Hiebert B. The Development of a Cortical Bone Turnover Model: Parathyroid Hormone Effects in the Rabbit [Master's thesis]. University of Saskatchewan; July 2020.
2021	Harrison KD. A Novel in Vivo Synchrotron Radiation Micro-CT Imaging Platform for the Direct Tracking of Remodeling Events in Cortical Bone [PhD thesis]. University of Saskatchewan; December 2021.
2022	Sales EdS. The Spatio-Temporal Behavior of Basic Multicellular Units in a PTH-Induced Cortical Bone Remodeling Rabbit Model [Master's thesis]. University of Saskatchewan; August 2022.