Large compressive preloads decrease lumbar motion segment flexibility

wbldb

Janevic, J.¹; Ashton-Miller, J. A.¹; Schultz, A. B.¹

Large compressive preloads decrease lumbar motion segment flexibility

J Orthop Res. March 1991;9(2):228-236

©1991 Orthopaedic Research Society

Affiliations

¹Department of Mechanical Engineering and Applied Mechanics, University of Michigan, Ann Arbor, Michigan, U.S.A.
Abstract and keywords

The bending, shear, and torsion flexibilities of 13 intact adult lumbar motion segments (from 11 men, two women, 48–83 years of age) were compared under three different compressive preloads, 0, 2,200, and 4,400 N. Test forces and moments up to 160 N and 16 Nm were applied at the center of the upper end plate of the intact disc. A compressive preload of 2,200 N resulted in a significant decrease in motion segment flexibilities in all seven test directions (p < 0.06) when compared with results obtained with no preload; the preload decreased flexibility 2.6, 4.5, and 6.1 times in bending, axial torsion, and shear, respectively. These results suggest that studies of internal trunk load-sharing between active and passive tissues during strenuous tasks, which engender large spine compressive loads, should take these changes in spine passive resistance into consideration.

Keywords: Lumbar motion segment; Flexibilities; Compressive preload; Bending; Shear; Torsion
Links

DOI: 10.1002/jor.1100090211

PubMed: 1992073

WoS: A1991EW65600010
History

Received: 1989-08-08

Accepted: 1990-08-22

Cited Works (14)

Year	Entry
1987	Hansson TH, Keller TS, Spengler DM. Mechanical behavior of the human lumbar spine, II: fatigue strength during dynamic compressive loading. J Orthop Res. 1987;5(4):479-487.
1979	Berkson MH, Nachemson A, Schultz AB. Mechanical properties of human lumbar spine motion segments, II: responses in compression and shear; influence of gross morphology. J Biomech Eng. February 1979;101(1):53-57.
1983	Adams MA, Hutton WC. The effect of posture on the fluid content of lumbar intervertebral discs. Spine. September 1983;8(8):665-671.
1979	Schultz AB, Warwick DN, Berkson MH, Nachemson AL. Mechanical properties of human lumbar spine motion segments, I: responses in flexion, extension, lateral bending, and torsion. J Biomech Eng. February 1979;101(1):46-52.
1982	Schultz AB, Andersson GBJ, Haderspeck K, Örtengren R, Nordin M, Björk R. Analysis and measurement of lumbar trunk loads in tasks involving bends and twists. J Biomech. 1982;15(9):669-675.
1983	Schultz A, Haderspeck K, Warwick D, Portillo D. Use of lumbar trunk muscles in isometric performance of mechanically complex standing tasks. J Orthop Res. 1983;1(1):77-91.
1986	Panjabi MM, Summers DJ, Pelker RR, Videman T, Friedlaender GE, Southwick WO. Three-dimensional load-displacement curves due to forces on the cervical spine. J Orthop Res. 1986;4(2):152-161.
1960	Nachemson A. Lumbar intradiscal pressure: experimental studies on post-mortem material. Acta Orthop Scand. 1960;31(suppl 43):1-104.
1987	Keller TS, Spengler DM, Hansson TH. Mechanical behavior of the human lumbar spine, I: creep analysis during static compressive loading. J Orthop Res. 1987;5(4):467-478.
1980	Skogland LB, Miller JAA. On the Importance of Growth in Idiopathic Scoliosis: A Biochemical, Radiological and Biomechanical Study [PhD thesis]. Oslo, Norway: University of Oslo; 1980.
1984	Yang KH, King AI. Mechanism of facet load transmission as a hypothesis for low-back pain. Spine. September 1984;9(6):557-565.
1984	Dunlop RB, Adams MA, Hutton WC. Disc space narrowing and the lumbar facet joints. J Bone Joint Surg. 1984;66B(5):706-710.
1985	McBroom RJ, Hayes WC, Edwards WT, Goldberg RP, White AA III. Prediction of vertebral body compressive fracture using quantitative computed tomography. J Bone Joint Surg. 1985;67A(8):1206-1214.
1988	Brinckmann P, Biggemann M, Hilweg D. Fatigue fracture of human lumbar vertebrae. Clin Biomech (Bristol, Avon). 1988;3(suppl 1):S1-S23.

Cited By (29)

Year	Entry
2008	Belwadi A, Yang KH. Cadaveric lumbar spine responses to flexion with and without anterior shear displacement. In: Proceedings of the 2008 International IRCOBI Conference on the Biomechanics of Impact. September 17-19, 2008; Bern, Switzerland.397-410.
1994	Begeman PC, Visarius H, Nolte L-P, Prasad P. Visocelastic shear responses of the cadaver and Hybrid III lumbar spine. In: Proceedings of the 38th Stapp Car Crash Conference. October 31–November 2, 1994; Fort Lauderdale, FL. Warrendale, PA: Society of Automotive Engineers:1-14. SAE 942205.
1996	Cholewicki J, McGill SM. Mechanical stability of the in vivo lumbar spine: implications for injury and chronic low back pain. Clin Biomech (Bristol, Avon). January 1996;11(1):1-15.
1998	Panjabi MM, Cholewicki J, Nibu K, Grauer J, Babat LB, Dvorak J. Critical load of the human cervical spine: an in vitro experimental study. Clin Biomech (Bristol, Avon). January 1998;13(1):11-17.
1992	McGill SM. A myoelectrically based dynamic three-dimensional model to predict loads on lumbar spine tissues during lateral bending. J Biomech. April 1992;25(4):395-414.
2000	Cripton PA, Bruehlmann SB, Orr TE, Oxland TR, Nolte L-P. In vitro axial preload application during spine flexibility testing: towards reduced apparatus-related artefacts. J Biomech. December 2000;33(12):1559-1568.
1995	Callaghan JP, McGill SM. Frozen storage increases the ultimate compressive load of porcine vertebrae. J Orthop Res. September 1995;13(5):809-812.
1994	McGill S, Seguin J, Bennett G. Passive stiffness of the lumber torso in flexion, extension, lateral bending, and axial roatation: effect of belt wearing and breath holding. Spine. March 15, 1994;19(6):696-704.
1999	Patwardhan AG, Havey RM, Meade KP, Lee B, Dunlap B. A follower load increases the load-carrying capacity of the lumbar spine in compression. Spine. May 15, 1999;24(10):1003-1009.
2004	Elliott DM, Sarver JJ. Young investigator award winner: validation of the mouse and rat disc as mechanical models of the human lumbar disc. Spine. April 1, 2004;29(7):713-722.
2011	Arora N. Effect of Whole Body Vibration Exposure on the Spinal Muscle Reactions and Kinematic Responses in Sitting Posture [Master's thesis]. Sudbury, ON: Laurentian University; 2011.
2022	Cotter TR. Development of a Real-Time Physics-Based Spinal Fusion Training Simulator for Lumbar Discectomy [PhD thesis]. McGill University; April 2022.
2003	Alderink GJ. Three-Dimensional Kinematic Analysis of the Thorax in Standing and Sitting [PhD thesis]. East Lansing, MI: Michigan State University; 2003.
2013	Bell KM. Development of a Physiologic in-Vitro Testing Methodology for Assessment of Cervical Spine Kinematics [PhD thesis]. University of Pittsburgh; 2013.
2003	Cloutier L. Étude biomécanique de paramètres d'instrumentation chirurgicale antérieure du rachis scoliotique [Master's thesis]. École polytechnique de Montréal; December 2003.
2006	Arjmand N. Computational Biomechanics of the Human Spine in Static Lifting Tasks [PhD thesis]. École polytechnique de Montréal; October 2006.
2007	Bazrgari B. Biodynamic of the Human Spine [PhD thesis]. École polytechnique de Montréal; February 2007.
2015	Shahvarpour A. Biomechanical Response of Trunk Under Perturbations and in Challenged Seated Balance [PhD thesis]. École polytechnique de Montréal; November 2015.
1999	Cripton PA. Load-Sharing in the Human Cervical Spine [PhD thesis]. Queen's University; November 1999.
1996	de Jager MKJ. Mathematical Head-Neck Models for Acceleration Impacts [PhD thesis]. Eindhoven University of Technology; 1996.
2013	Laws CJ. Mechanisms of Disc Herniation in Astronauts Following Spaceflight [PhD thesis]. San Francisco, University of California; 2013.
1992	Thelen DG. A System Identification Approach to Quantifying Lumbar Trunk Loads [PhD thesis]. University of Michigan; 1992.
2002	Walker MRJ. Development of a General 6-DOF Parallel Robotic System: Load-Control Methodology for Spine Biomechanics Testing [Master's thesis]. University of Guelph; December 2002.
1993	Cholewicki J. Mechanical Stability of the in Vivo Lumbar Spine [PhD thesis]. University of Waterloo; 1993.
1997	Yingling VR. Shear Loading of the Lumbar Spine: Modulators of Motion Segment Tolerance and the Resulting Injuries [PhD thesis]. University of Waterloo; 1997.
2002	Grenier SG. Stabilization Strategies of the Lumbar Spine in Vivo [PhD thesis]. University of Waterloo; 2002.
2008	Brown SHM. Examining the Neuromuscular and Mechanical Characteristics of the Abdominal Musculature and Connective Tissues: Implications for Stiffening the Lumbar Spine [PhD thesis]. University of Waterloo; 2008.
2011	Howarth SJ. Mechanical Response of the Porcine Cervical Spine to Acute and Repetitive Anterior-Posterior Shear [PhD thesis]. University of Waterloo; 2011.
2014	Gallagher KM. The Relationships of Prolonged Standing Induced Low Back Pain Development With Lumbopelvic Posture and Movement Patterns [PhD thesis]. University of Waterloo; 2014.