Effects of hip posture on the frontal impact tolerance of the human hip joint

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Rupp, Jonathan D.¹; Reed, Matthew P.¹; Jeffreys, Thomas A.¹; Schneider, Lawrence W.¹

Effects of hip posture on the frontal impact tolerance of the human hip joint

Stapp Car Crash J. 2003;47:21-33

Affiliations

¹University of Michigan Transportation Research Institute
Abstract and keywords

The pattern of left- and right-side hip injuries to front-seat occupants involved in offset and angled frontal crashes suggests that hip posture (i.e., the orientation of the femur relative to the pelvis) affects the fracture/dislocation tolerance of the hip joint to forces transmitted along the femur during knee-to-knee-bolster loading in frontal impacts. To investigate this hypothesis, dynamic hip tolerance tests were conducted on the left and right hips of 22 unembalmed cadavers. In these tests, the knee was dynamically loaded in the direction of the long axis of the femur and the pelvis was fixed to minimize inertial effects. Thirty-five successful hip tolerance tests were conducted. Twenty-five of these tests were performed with the hip oriented in a typical posture for a seated driver, or neutral posture, to provide a baseline measure of hip tolerance. The effects of hip posture on hip tolerance were quantified using a paired-comparison experimental design. In six pairs of tests, one side of each cadaver was tested with the hip joint oriented in the neutral posture and the contralateral hip from the same cadaver was tested with the hip joint adducted 10° from the neutral posture. In four pairs of tests, the hip was tested in neutral and 30° flexed postures. The average fracture tolerance of the hip in the neutral posture was 6.1±1.5 kN. Hip tolerance decreased by an average of 34±4% with 30° of flexion from the neutral posture (p<0.0001) and by 18±8% with 10° of adduction from the neutral posture (p=0.008).

Keywords: Hip fracture tolerance; Knee-thigh-hip; Injury tolerance; Posture; Frontal impact
Links

PubMed: 17096242

SAE: 2003-22-0002

Cited Works (17)

Year	Entry
2002	Rupp JD, Reed MP, Van Ee CA, Kuppa S, Wang SC, Goulet JA, Schneider LW. The tolerance of the human hip to dynamic knee loading. Stapp Car Crash J. 2002;46:211-228. SAE 2002-22-0011.
1980	Melvin JW, Nusholtz GS. Tolerance and Response of the Knee-Femur-Pelvis Complex to Axial Impacts: Impact Sled Tests. Ann Arbor, MI: Highway Safety Research Institute; June 1980. Report No. UM-HSRI-80-27.
2001	Kuppa S, Wang J, Haffner M, Eppinger R. Lower extremity injuries and associated injury criteria. In: Proceedings of the 17th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 4-7, 2001; Amsterdam, The Netherlands.
1987	Donnelly BR, Roberts DP. Comparison of cadaver and Hybrid III dummy response to axial impacts of the femur. In: Proceedings of the 31st Stapp Car Crash Conference. November 9-11, 1987; New Orleans, LA. Warrendale, PA: Society of Automotive Engineers:105-116. SAE 872204.
2003	Sochor MR, Faust DP, Wang SC, Schneider LW. Knee, thigh and hip injury patterns for drivers and right front passengers in frontal impacts. In: Proceedings of the SAE World Congress & Exhibition. March 3-6, 2003; Detroit, MI. Warrendale, PA: Society of Automotive Engineers. SAE 2003-01-0164.
1997	Atkinson PJ, Garcia JJ, Altiero NJ, Haut RC. The influence of impact interface on human knee injury: implications for instrument panel design and the lower extremity injury criterion. In: Proceedings of the 41st Stapp Car Crash Conference. November 13-14, 1997; Lake Buena Vista, FL. Warrendale, PA: Society of Automotive Engineers:167-180. SAE 973327.
1980	Viano DC, Stalnaker RL. Mechanisms of femoral fracture. J Biomech. 1980;13(8):701-715.
1965	Patrick LM, Kroell CK, Mertz HJ. Forces on the human body in simulated crashes. In: Cragun MK, ed. Proceedings of the 9th Stapp Car Crash Conference. October 20-21, 1965; Minneapolis, MN. Warrendale, PA: Society of Automotive Engineers:237-259. SAE 650961.
1976	Melvin JW, Stalnake RL. Tolerance and Response of the Knee-Femur-Pelvis Complex to Axial Impact. Ann Arbor, MI: University of Michigan, Highway safety Research Institute; October 1976. Final Report UM-HSRI-76-33.
1983	Schneider LW, Robbins DH, Pflüg MA, Snyder RG. Development of Anthropometrically Based Design Specifications for an Advanced Adult Anthropomorphic Dummy Family, Volume 1. Ann Arbor, MI: University of Michigan Traffic Research Institute (UMTRI); December 1983. UMTRI Publication UMTRI-83-53-1.
2002	Blincoe LJ, Seay AG, Zaloshnja E, Miller TR, Romano EO, Luchter S, Spicer RS. The Economic Impact of Motor Vehicle Crashes 2000. Washington, DC: National Highway Traffic Safety Administration, U.S Dept of Transportation; May 2002. NHTSA Technical Report DOT HS 809 446.
2002	Read KM, Burgess AR, Dischinger PC, Kufera JA, Kerns TJ, Ho SM, Burch C. Psychosocial and physical factors associated with lower extremity injury. In: 46th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). September 30–October 2, 2002; Tempe, AZ.
2003	Kuppa S, Fessahaie O. An overview of knee-thigh-hip injuries in frontal crashes in the United States. In: Proceedings of the 18th International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 19-22, 2003; Nagoya, Japan.
1975	Powell WR, Ojala SJ, Advani SH, Martin RB. Cadaver femur responses to longitudinal impacts. In: Proceedings of the 19th Stapp Car Crash Conference. November 17-19, 1975; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:561-579. SAE 751160.
2001	Yoganandan N, Pintar FA, Gennarelli TA, Maltese MR, Eppinger RH. Mechanisms and factors involved in hip injuries during frontal crashes. Stapp Car Crash J. 2001;45:437-448. SAE 2001-22-0020.
1983	Leung YC, Hue B, Fayon A, Tarrière C, Hamon H, Got C, Patel A, Hureau J. Study of "knee-thigh-hip" protection criterion. In: Proceedings of the 27th Stapp Car Crash Conference. October 17-19, 1983; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:351-364. SAE 831629.
1975	Melvin JW, Stalnaker RL, Alem NM, Benson JB, Mohan D. Impact response and tolerance of the lower extremities. In: Proceedings of the 19th Stapp Car Crash Conference. November 17-19, 1975; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:543-559. SAE 751159.

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2012	Heath DR, Silvestri C, Ray MH. Numerical investigation of knee-thigh-hip injuries in frontal vehicle collisions. Transport Res Record: J Transport Res Board. 2012;2281:69-75.
2015	Rupp JD. Knee, thigh, and hip injury biomechanics. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:471-497.
2005	Rupp JD, Reed MP, Madura NH, Miller CS, Kuppa S, Schneider LW. Comparison of the inertial response of the THOR-NT, Hybrid III, and unembalmed cadaver to simulated knee-to-knee-bolster impacts. In: Proceedings of the 19th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 6-9, 2005; Washington, DC.
2009	Kirk K, Kuppa S. Application and evaluation of a novel KTH injury criterion for the Hybrid III dummy in frontal crash test environments. In: Proceedings of the 21st International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 15-18, 2009; Stuttgart, Germany.
2009	Rupp JD, Reed MP, Miller CS, Madura NH, Klinich KD, Kuppa SM, Schneider LW. Development of new criteria for assessing the risk of knee-thigh-hip injury in frontal impacts using Hybrid III femur force measurements. In: Proceedings of the 21st International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 15-18, 2009; Stuttgart, Germany.
2011	Martin PG, Scarboro M. THOR-NT: hip injury potential in narrow offset and oblique frontal crashes. In: Proceedings of the 22nd International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 13-16, 2011; Washington, DC.
2011	Yue N, Shin J, Untaroiu CD. Blunt injury response of occupant lower extremity during automotive crashes: a finite element study. In: Proceedings of the 39th International Workshop on Human Subjects for Biomechanical Research. 2011.
2004	Bass CRD, Kent R, Salzar RS, Milllington S, Davis M, Folk B, Lucas S, Donnellan L, Murakami D, Kobayashi S. Development of injury criteria for pelvic fracture in frontal crashes. In: Proceedings of the 2004 International IRCOBI Conference on the Biomechanics of Impact. September 22-24, 2004; Graz, Austria.125-136.
2023	Carpenter RL, Berthelson PR, Donlon J-P, Forman JL. Quantifying female subject-specific knee-thigh-hip responses in frontal impact scenarios. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-165, 2023; Cambridge, United Kingdom.978-1012.
2004	Kent RW, Funk JR. Data censoring and parametric distribution assignment in the development of injury risk functions from biochemical data. In: Proceedings of the SAE World Congress & Exhibition. March 8-11, 2004; Detroit, MI. Warrendale, PA: Society of Automotive Engineers. SAE 2004-01-0317.
2005	Kim YS, Choi HH, Cho YN, Park YJ, Lee JB, Yang KH, King AI. Numerical investigations of interactions between the knee-thigh-hip complex with vehicle interior structures. Stapp Car Crash J. 2005;49:85-115. SAE 2005-22-0005.
2008	Chang C-Y, Rupp JD, Kikuchi N, Schneider LW. Development of a finite element model to study the effects of muscle forces on knee-thigh-hip injuries in frontal crashes. Stapp Car Crash J. 2008;52:475-504. SAE 2008-22-0018.
2008	Ruan JS, El-Jawahri R, Barbat S, Rouhana SW, Prasad P. Impact response and biomechanical analysis of the knee-thigh-hip complex in frontal impacts with a full human body finite element model. Stapp Car Crash J. 2008;52:505-526. SAE 2008-22-0019.
2008	Rupp JD, Miller CS, Reed MP, Madura NH, Klinich KD, Schneider LW. Characterization of knee-thigh-hip response in frontal impacts using biomechanical testing and computational simulations. Stapp Car Crash J. 2008;52:421-474. SAE 2008-22-0017.
2009	Chang C-Y, Rupp JD, Reed MP, Hughes RE, Schneider LW. Predicting the effects of musce activation on knee, thigh, and hip injuries in frontal crashes using a finite-element model with muscle forces from subject testing and musculoskeletal modeling. Stapp Car Crash J. 2009;53:291-328. SAE 2009-22-0011.
2004	Rupp JD, Schneider LW. Injuries to the hip joint in frontal motor-vehicle crashes: biomechanical and real-world perspectives. Orthop Clin North Am. 2004;35(4):493-504.
2006	Salzar RS, Bass CRD, Kent R, Millington S, Davis M, Lucas S, Rudd R, Folk B, Donnellan L, Murakami D, Kobayashi S. Development of injury criteria for pelvic fracture in frontal crashes. Traffic Inj Prev. September 2006;7(3):299-305.
2017	Webster CE. The Blast Pelvis [PhD thesis]. Imperial College London; October 2017.
2004	Meyer EG. Biomechanical Response of Tissues to Various Blunt Impact Orientations on the Knee [Master's thesis]. University of Michigan; 2004.
2009	Chang C-Y. Prediction of the Effects of Lower-Extremity Muscle Forces on Knee, Thigh, and Hip Injuries in Frontal Motor Vehicle Crashes [PhD thesis]. University of Michigan; 2009.
2019	Donlon JP. Restraint Biomechanics in Frontal Impacts With Inboard-Leaning Occupants [Master's thesis]. Charlottesville, VA: University of Virginia; August 2019.
2019	Yue N. A Numerical Investigation of Biomechanical Response and Injury of Occupant Lower Extremities in Automotive Frontal Impact Scenario [Master's thesis]. Charlottesville, VA: University of Virginia; December 2019.
2015	Beeman SM. Biomechanical Response of Human Volunteers and Surrogates in a Variety of Loading Regimes [PhD thesis]. Virginia Polytechnic Institute and State University; 2015.
2006	Balasubramanian S. Posterior Cruciate Ligament (PCL) Injury and Repair: A Biomechanical Evaluation of the Human Knee Joint Under Dynamic Posterior Loading; Kinematics and Contact Pressure Measurements in Normal, PCL Deficient and PCL Reconstructed Knees [PhD thesis]. Detroit, MI: Wayne State University; 2006.