Intervertebral disc degeneration can lead to "stress-shielding" of the anterior vertebral body: a cause of osteoporotic vertebral fracture?

wbldb

Pollintine, Phill¹; Dolan, Patricia¹; Tobias, Jon H.²; Adams, Michael A.¹

Intervertebral disc degeneration can lead to "stress-shielding" of the anterior vertebral body: a cause of osteoporotic vertebral fracture?

Spine. April 1, 2004;29(7):774-782

©2004 Lippincott Williams & Wilkins, Inc

Affiliations

¹Department of Anatomy, University of Bristol, Bristol, U.K.

²Department of Rheumatology Unit, University of Bristol, Bristol, U.K.
Abstract and keywords

Study Design: Mechanical testing of cadaveric lumbar motion segments.

Objectives: To test the hypothesis that degenerative changes in the intervertebral discs can influence loading of the anterior vertebral body in a manner that makes it vulnerable to fracture.

Summary of Background Data: Measurements of systemic bone loss do not fully explain the patterns of osteoporotic vertebral fractures.

Methods: Thirty-three cadaveric lumbar motion segments (aged 19-82 years) were subjected to 2 kN of compressive loading while positioned to simulate habitual erect standing postures and forwards bending. Intradiscal stresses were measured in each posture by pulling a miniature pressure transducer along the midsagittal diameter of the disc. "Stress profiles" were then integrated over area to calculate the force acting on the anterior and posterior halves of the vertebral body. These forces were subtracted from the applied 2 kN to determine the compressive force on the neural arch.

Results: In motion segments with nondegenerated discs, <5% of the compressive force was resisted by the neural arch, and forces on the vertebral body were always distributed evenly, irrespective of posture. However, with severely degenerated discs, neural arch load-bearing increased to 40% in the erect posture, and the compressive force on the vertebral body was concentrated anteriorly in forwards bending, and posteriorly in erect posture.

Conclusions: Severe disc degeneration causes the anterior vertebral body to be stress-shielded during the usual erect posture, and yet severely loaded whenever the spine is flexed. This could help to explain why this region is frequently the site of osteoporotic fracture, and why forward bending movements often precipitate the injury.

Keywords: intervertebral disc; degeneration; vertebral fracture; osteoporosis
Links

DOI: 10.1097/01.BRS.0000119401.23006.D2

PubMed: 15087801

WoS: 000220693600011
History

Received: 2002-09-18

Revised: 2002-12-10

Accepted: 2003-06-26

Cited Works (22)

Year	Entry
1988	Adams MA, Dolan P, Hutton WC. The lumbar spine in backward bending. Spine. September 1988;13(9):1019-1026.
1997	Myers ER, Wilson SE. Biomechanics of osteoporosis and vertebral fracture. Spine. December 15, 1997;22(24)(suppl):25S-31S.
1979	Goodship AE, Lanyon LE, McFie H. Functional adaptation of bone to increased stress: an experimental study. J Bone Joint Surg. June 1979;61A(4):539-546.
2001	Dhillon N, Bass EC, Lotz JC. Effect of frozen storage on the creep behavior of human intervertebral discs. Spine. April 15, 2001;26(8):883-888.
1998	Bassey EJ, Rothwell MC, Littlewood JJ, Pye DW. Pre- and postmenopausal women have different bone mineral density responses to the same high-impact exercise. J Bone Miner Res. December 1998;13(12):1805-1813.
1999	Wilke H-J, Neef P, Caimi M, Hoogland T, Claes LE. New in vivo measurements of pressures in the intervertebral disc in daily life. Spine. April 15, 1999;24(8):755-762.
2001	Simpson EK, Parkinson IH, Manthey B, Fazzalari NL. Intervertebral disc disorganization is related to trabecular bone architecture in the lumbar spine. J Bone Miner Res. April 2001;16(4):681-687.
1987	Frost HM. Bone "mass" and the "mechanostat": a proposal. Anat Rec. September 1987;219(1):1-9.
1981	Nachemson AL. Disc pressure measurements. Spine. January–February 1981;6(1):93-97.
1984	Lanyon LE, Rubin CT. Static vs dynamic loads as an influence on bone remodelling. J Biomech. 1984;17(12):897-905.
1996	Adams MA, McNally DS, Dolan P. "Stress" distributions inside intervertebral discs: the effects of age and degeneration. J Bone Joint Surg. November 1996;78B(6):965-972.
1963	Nachemson A. The influence of spinal movements on the lumbar intradiscal pressure and on the tensile stresses in the annulus fibrosus. Acta Orthop Scand. 1963;33(1-4):183-207.
1984	Rubin CT, Lanyon LE. Regulation of bone formation by applied dynamic loads. J Bone Joint Surg. March 1984;66A(3):397-402.
2004	Pollintine P, Przybyla AS, Dolan P, Adams MA. Neural arch load-bearing in old and degenerated spines. J Biomech. February 2004;37(2):197-204.
2000	Adams MA, Freeman BJC, Morrison HP, Nelson IW, Dolan P. Mechanical initiation of intervertebral disc degeneration. Spine. July 1, 2000;25(13):1625-1636.
1995	McCubbrey DA, Cody DD, Peterson EL, Kuhn JL, Flynn MJ, Goldstein SA. Static and fatigue failure properties of thoracic and lumbar vertebral bodies and their relation to regional density. J Biomech. August 1995;28(8):891-899.
1980	Adams MA, Hutton WC. The effect of posture on the role of the apophysial joints in resisting intervertebral compressive forces. J Bone Joint Surg. August 1980;62B(3):358-362.
1983	Denis F. The three column spine and its significance in the classification of acute thoracolumbar spinal injuries. Spine. November–December 1983;8(8):817-831.
1992	McNally DS, Adams MA. Internal intervertebral disc mechanics as revealed by stress profilometry. Spine. January 1992;17(1):66-73.
1999	Yeh OC, Keaveny TM. Biomechanical effects of intraspecimen variations in trabecular architecture: a three-dimensional finite element study. Bone. August 1999;25(2):223-228.
1984	Dunlop RB, Adams MA, Hutton WC. Disc space narrowing and the lumbar facet joints. J Bone Joint Surg. 1984;66B(5):706-710.
1989	Keller TS, Hansson TH, Abram AC, Spengler DM, Panjabi MM. Regional variations in the compressive properties of lumbar vertebral trabeculae: effects of disc degeneration. Spine. September 1989;14(9):1012-1019.

Cited By (25)

Year	Entry
2010	Harrison NM, McHugh PE. Comparison of trabecular bone behavior in core and whole bone samples using high-resolution modeling of a vertebral body. Biomech Model Mechanobiol. 2010;9(4):469-480.
2007	Hulme PA, Boyd SK, Ferguson SJ. Regional variation in vertebral bone morphology and its contribution to vertebral fracture strength. Bone. December 2007;41(6):946-957.
2007	Eswaran SK, Gupta A, Keaveny TM. Locations of bone tissue at high risk of initial failure during compressive loading of the human vertebral body. Bone. October 2007;41(4):733-739.
2019	vom Scheidt A, Hemmatian H, Püschel K, Krause M, Amling M, Busse B. Bisphosphonate treatment changes regional distribution of trabecular microstructure in human lumbar vertebrae. Bone. October 2019;127:482-487.
2020	Auger JD, Frings N, Wu Y, Marty AG, Morgan EF. Trabecular architecture and mechanical heterogeneity effects on vertebral body strength. Curr Osteoporos Rep. December 2020;18(6):716-726.
2010	Fields AJ, Lee GL, Keaveny TM. Mechanisms of initial endplate failure in the human vertebral body. J Biomech. 2010;43(16):3126-3131.
2006	Adams MA, Pollintine P, Tobias JH, Wakley GK, Dolan P. Intervertebral disc degeneration can predispose to anterior vertebral fractures in the thoracolumbar spine. J Bone Miner Res. September 2006;21(9):1409-1416.
2020	Kaiser J, Allaire B, Fein PM, Lu D, Adams A, Kiel DP, Jarraya M, Guermazi A, Demissie S, Samelson EJ, Bouxsein ML, Morgan EF. Heterogeneity and spatial distribution of intravertebral trabecular bone mineral density in the lumbar spine is associated with prevalent vertebral fracture. J Bone Miner Res. April 2020;35(4):641-648.
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.
2013	Hussein Ali AI. 3-D Visualization and Prediction of Spine Fractures Under Axial Loading [PhD thesis]. Boston University; 2013.
2015	Jackman TM. Prediction of Vertebral Fractures Under Axial Compression and Anterior Flexion [PhD thesis]. Boston University; 2015.
2016	DelMonaco AM. Quantifying the Spatial Distribution of Intradiscal Pressure and Its Assessment Via Non-Invasive Estimates of Intervertebral Disc Degeneration [Master's thesis]. Boston University; 2016.
2016	Fein P. Associations Between the Spatial Distribution of Bone Density in the Vertebra and Intervertebral Disc Health [Master's thesis]. Boston University; 2016.
2013	Jamison D IV. Mechanical Characterization of the Human Lumbar Intervertebral Disc Subjected to Impact Loading Conditions [PhD thesis]. Drexel University; August 2013.
2007	Boyd LM. Effects of a Genetic Mutation in Type IX Collagen on Morphology and Metabolism in a Murine Model of Intervertebral Disc Degeneration [PhD thesis]. Duke University; 2007.
2016	Oei L. Epidemiological, Radiological and Genetic Aspects of Endocrine Bone Diseases [PhD thesis]. Erasmus University Rotterdam; December 14, 2016.
2015	Bruno AG. Investigation of Spine Loading to Understand Vertebral Fractures [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; June 2015.
2011	Wagnac É. Expérimentation et modélisation détaillée de la colonne vertébrale pour étudier le rôle de facteurs anatomiques et biomécaniques sur les traumatismes rachidiens [PhD thesis]. École polytechnique de Montréal; November 2011.
2016	Naserkhaki S. On the Lumbosacral Spine Geometry Variation and Spinal Load-Sharing: Personalized Finite Element Modelling [PhD thesis]. Edmonton, AB: University of Alberta; 2016.
2021	Malakoutian M. Biomechanical Properties of Paraspinal Muscles and Their Influence on Spinal Loading: An Experimental and Computational Investigation [PhD thesis]. Vancouver, BC: University of British Columbia; May 2021.
2010	Fields AJ. Trabecular Microarchitecture, Endplate Failure, and the Biomechanics of Human Vertebral Fractures [PhD thesis]. Berkeley, CA: Berkeley, University of California; 2010.
2017	Berg-Johansen B. Characterization of the Spinal Disc-Vertebra Interface and Its Relation to Injury and Back Pain [PhD thesis]. San Francisco, University of California; 2017.
2007	Scannell JP. In Vitro and in Vivo Biomechanical Investigation of the Clinical Practice of Disc Prolapse Prevention and Rehabilitation [PhD thesis]. University of Waterloo; 2007.
2016	Balkovec C. Intervertebral Disc Height Loss and Restoration: Outcomes and Implications [PhD thesis]. University of Waterloo; 2016.
2021	Tibert N. Non-Pharmacological Management of Osteoporotic Vertebral Fractures: A Qualitative Analysis of Patient and Health-Care Professional Perspectives and Experiences [Master's thesis]. University of Waterloo; 2021.