Biomechanical Testing of Hip Protectors and Energy-Absorbing Floors for the Prevention of Fall-Related Hip Fractures

The general objective of my thesis research was to characterize the stiffness and force distribution characteristics of the hip region during the impact phase of sideways falls, and to advance our understanding of the potential for external engineering interventions (e.g. hip protectors and compliant floors) to reduce hip fracture risk by reducing the force applied to the proximal femur during such falls. This thesis is comprised of five studies. In the first I characterized the degree of non-linearity in pelvic stiffness, and examined the influence of stiffness characterization methods on the accuracy of mathematical models in predicting impact dynamics during falls on the hip. In the second study I employed a pelvis release paradigm (a method of inducing low severity but clinically relevant falls) to examine whether soft shell hip protectors alter the distribution of force throughout the hip region during impact. The third study entailed a sensitivity analysis to determine the influence of mechanical test system properties on the force attenuation provided by hip protectors. In the fourth study I used pelvis release experiments to determine how the force applied to the pelvis is affected by body impact configuration and floor stiffness; I also examined the ability of a mass-spring model to predict these relationships. The final study used a mechanical fall simulator to assess the attenuation in femoral neck force provided by four low stiffness floors compared to a standard rigid floor, and assessed the influence of these floors on fall risk through a range of static and dynamic balance tests with fifteen elderly women. Overall, this thesis demonstrates that compliant floors and soft shell hip protectors substantially reduce the force applied to the proximal femur during the impact stage of sideways falls. Of equal importance, this work demonstrates the need for international standards for the biomechanical testing and market approval of these devices. These are essential steps for increasing the quality of hip protectors and compliant floors available in the marketplace, and consequently, for enhancing their ability to reduce hip fracture risk in vulnerable populations.

Keywords: injury biomechanics; injury prevention; hip fractures; hip protectors; compliant floors; accidental falls; ageing

Year	Entry
1993	Lauritzen JB, Petersen MM, Lund B. Effect of external hip protectors on hip fractures. Lancet. January 2, 1993;341(8836):11-13.
1998	Hsiao ET, Robinovitch SN. Common protective movements govern unexpected falls from standing height. J Biomech. January 1998;31(1):1-9.
2006	Manske SL, Liu-Ambrose T, de Bakker PM, Liu D, Kontulainen S, Guy P, Oxland TR, McKay HA. Femoral neck cortical geometry measured with magnetic resonance imaging is associated with proximal femur strength. Osteoporos Int. October 2006;17(10):1539-1545.
1995	Liberman UA, Weiss SR, Bröll J, Minne HW, Quan H, Bell NH, Rodriguez-Portales J, Downs RW Jr, Dequeker J, Favus M, Seeman E, Recker RR, Capizzi T, Santora AC, Lombardi A, Shah RV, Hirsch LJ, Karpf DB; Group, Alendronate Phase III Osteoporosis Treatment Study. Effect of oral alendronate on bone mineral density and the incidence of fractures in postmenopausal osteoporosis. NEJM. November 30, 1995;333(22):1437-1443.
1996	Kannus P, Parkkari J, Sievänen H, Heinonen A, Vuori I, Järvinen M. Epidemiology of hip fractures. Bone. January 1996;18(1)(suppl):57S-63S.
1996	van den Kroonenberg AJ, Hayes WC, McMahon TA. Hip impact velocities and body configurations for voluntary falls from standing height. J Biomech. June 1996;29(6):807-811.
2004	Siris ES, Chen Y-T, Abbott TA, Barrett-Connor E, Miller PD, Wehren LE, Berger ML. Bone mineral density thresholds for pharmacological intervention to prevent fractures. Arch Intern Med. May 24, 2004;164(10):1108-1112.
1997	Cheng XG, Lowet G, Boonen S, Nicholson PHF, Brys P, Nijs J, Dequeker J. Assessment of the strength of proximal femur in vitro: relationship to femoral bone mineral density and femoral geometry. Bone. March 1997;20(3):213-218.
2002	Cummings SR, Melton LJ III. Epidemiology and outcomes of osteoporotic fractures. Lancet. May 18, 2002;359(9319):1761-1767.
2004	Eckstein F, Wunderer C, Boehm H, Kuhn V, Priemel M, Link TM, Lochmüller E-M. Reproducibility and side differences of mechanical tests for determining the structural strength of the proximal femur. J Bone Miner Res. March 2004;19(3):379-385.
1990	Lotz JC, Hayes WC. The use of quantitative computed tomography to estimate risk of fracture of the hip from falls. J Bone Joint Surg. June 1990;72A(5):689-700.
1993	Nevitt MC, Cummings SR; Study of Osteoporofic Fractures Research Group. Type of fall and risk of hip and wrist fractures: the study of osteoporotic fractures. J Am Geriatr Soc. November 1993;41(11):1226-1234.
1996	Hayes WC, Myers ER, Robinovitch SN, Van Den Kroonenberg A, Courtney AC, McMahon TA. Etiology and prevention of age-related hip fractures. Bone. January 1996;18(1)(suppl):77S-86S.
1995	Cummings SR, Nevitt MC, Browner WS, Stone K, Fox KM, Ensrud KE, Cauley J, Black D, Vogt TM; Study of Osteoporotic Fractures Research Group. Risk factors for hip fracture in white women. NEJM. March 23, 1995;332(12):767-773.
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1995	Robinovitch SN, Hayes WC, McMahon TA. Energy-shunting hip padding system attenuates femoral impact force in a simulated fall. J Biomech Eng. November 1995;117(4):409-413.
1991	Podsiadlo D, Richardson S. The timed “Up & Go”: a test of basic functional mobility for frail elderly persons. J Am Geriatr Soc. February 1991;39(2):142-148.
1994	Greenspan SL, Myers ER, Maitland LA, Resnick NM, Hayes WC. Fall severity and bone mineral density as risk factors for hip fracture in ambulatory elderly. JAMA. January 12, 1994;271(2):128-133.
1994	Courtney AC, Wachtel EF, Myers ER, Hayes WC. Effects of loading rate on strength of the proximal femur. Calcif Tiss Int. 1994;55(1):53-58.
1995	Courtney AC, Wachtel EF, Myers ER, Hayes WC. Age-related reductions in the strength of the femur tested in a fall-loading configuration. J Bone Joint Surg. March 1995;77A(3):387-395.
1989	Viano DC, Lau IV, Asbury C, King AI, Begeman P. Biomechanics of the human chest, abdomen, and pelvis in lateral impact. Accid Anal Prev. 1989;21(6):553-574.
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2007	Bouxsein ML, Szulc P, Munoz F, Thrall E, Sornay‐Rendu E, Delmas PD. Contribution of trochanteric soft tissues to fall force estimates, the factor of risk, and prediction of hip fracture risk. J Bone Miner Res*. June 2007;22(6):825-831.
1991	Robinovitch SN, Hayes WC, McMahon TA. Prediction of femoral impact forces in falls on the hip. J Biomech Eng. November 1991;113(4):366-374.

Year

Entry

1993

Lauritzen JB, Petersen MM, Lund B. Effect of external hip protectors on hip fractures. Lancet. January 2, 1993;341(8836):11-13.

1998

Hsiao ET, Robinovitch SN. Common protective movements govern unexpected falls from standing height. J Biomech. January 1998;31(1):1-9.

2006

Manske SL, Liu-Ambrose T, de Bakker PM, Liu D, Kontulainen S, Guy P, Oxland TR, McKay HA. Femoral neck cortical geometry measured with magnetic resonance imaging is associated with proximal femur strength. Osteoporos Int. October 2006;17(10):1539-1545.

1995

Liberman UA, Weiss SR, Bröll J, Minne HW, Quan H, Bell NH, Rodriguez-Portales J, Downs RW Jr, Dequeker J, Favus M, Seeman E, Recker RR, Capizzi T, Santora AC, Lombardi A, Shah RV, Hirsch LJ, Karpf DB; Group, Alendronate Phase III Osteoporosis Treatment Study. Effect of oral alendronate on bone mineral density and the incidence of fractures in postmenopausal osteoporosis. NEJM. November 30, 1995;333(22):1437-1443.

1996

Kannus P, Parkkari J, Sievänen H, Heinonen A, Vuori I, Järvinen M. Epidemiology of hip fractures. Bone. January 1996;18(1)(suppl):57S-63S.