Computational Modeling of the Cervical Spinal Cord: Integration Into a Human Body Model to Investigate Response to Impact

Acute spinal cord injuries (SCI) have a global annual occurrence rate of 14 to 40 per million population with considerable societal cost. The primary mechanism of injury involves physical damage to the nervous tissues, such as spinal cord compression resulting from fracture or dislocation of the vertebra. However, experimental findings have indicated that neurological sequela can occur without radiographic abnormalities of the neural tissues. In addition, studies have suggested that the cerebrospinal fluid (CSF) layer may play a protective role for the spinal cord during impact. Yet, there are significant limitations to examining SCI experimentally, resulting in large gaps in understanding. Computational Human Body Models (HBM) are an alternative and potentially important tool to investigate the risk of SCI. A key challenge in applying contemporary HBM to study SCI is the need for a biofidelic model of the spinal cord, which accurately predicts the loading and response of the cervical neural tissues in relevant impact scenarios.

This thesis developed and validated a finite element model of the cervical spinal cord and associated tissues and integrated this model within a contemporary HBM to achieve two aims: (1) to provide a tool for the assessment of spinal cord response in impact scenarios; and (2) to create an improved physical boundary condition for the brain and brain stem, which is a limitation of current HBM. The geometry of the cervical neural tissues was defined using subject-specific magnetic resonance imaging and literature data. The salient mechanical properties of cervical neural tissues were identified, and experimental data were used to fit appropriate constitutive material models for each tissue. Experimental pellet impact tests and indentation tests on the spinal cord were simulated to validate the tissue mechanical properties, verify finite element mesh refinement and assess numerical representation of the CSF. The developed material models and meshes of the cervical neural tissues were integrated into a contemporary HBM. Lastly, the contemporary HBM with implemented cervical neural tissues was simulated in frontal, lateral, rear, and oblique impact scenarios. A comprehensive assessment of the spinal cord influence on brain tissue deformation was undertaken. In general, the presence of the spinal cord in the HBM model increased the strains observed in the brain tissue. The brain stem tissue observed the largest average increase of 17% in strain.

Results from this work provided the first validated finite element model of the cervical neural tissues and cerebrospinal fluid layer integrated into a state-of-the-art full-body HBM for transient impact simulations. This model enabled the prediction of spinal cord response for impact scenarios, improved anatomic boundary conditions for connection to the brain tissue, and ultimately will assist in assessing safety systems to mitigate catastrophic human injuries.

Year	Entry
1998	Bilston LE. Finite element analysis of some cervical spinal cord injury modes. In: Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact. September 16-18, 1998; Göteberg, Sweden.365-375.
2021	Bruneau DA, Cronin DS. Brain response of a computational head model for prescribed skull kinematics and simulated football helmet impact boundary conditions. J Mech Behav Biomed Mater. March 2021;115:104299.
1996	Yoganandan N, Kumaresan SC, Voo L, Pintar FA, Larson SJ. Finite element modeling of the C4–C6 cervical spine unit. Med Eng Phys. October 1996;18(7):569-574.
1974	Ommaya AK, Gennarelli TA. Cerebral concussion and traumatic unconsciousness: correlation of experimental and clinical observations of blunt head injuries. Brain. December 1974;97(4):633-654.
1988	Kearney PA, Ridella SA, Viano DC, Anderson TE. Interaction of contact velocity and cord compression in determining the severity of spinal cord injury. J Neurotrauma. 1988;5(3):187-208.
2011	Gayzik FS, Moreno DP, Geer CP, Wuertzer SD, Martin RS, Stitzel JD. Development of a full body CAD dataset for computational modeling: a multi-modality approach. Ann Biomed Eng. October 2011;39(10):2568-2583.
1979	Padgaonkar AJ, Prasad P. Simulation of side impact using the CAL3D occupant simulation model. In: Proceedings of the 23rd Stapp Car Crash Conference. October 17-19, 1979; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:135-158. SAE 791007.
2007	Kleiven S. Predictors for traumatic brain injuries evaluated through accident reconstructions. Stapp Car Crash J. 2007;51:81-114. SAE 2007-22-0003.
2002	Kleiven S, Hardy WN. Correlation of an FE model of the human head with local brain motion: consequences for injury prediction. Stapp Car Crash J. 2002;46:123-144. SAE 2002-22-0007.
2006	Kimpara H, Nakahira Y, Iwamoto M, Miki K, Ichihara K, Kawano S-i, Taguchi T. Investigation of anteroposterior head-neck responses during severe frontal impacts using a brain-spinal cord complex FE model. Stapp Car Crash J. 2006;50:509-544. SAE 2006-22-0019.
1970	Galford JE, McElhaney JH. A viscoelastic study of scalp, brain, and dura. J Biomech. 1970;3(2):211-221.
1983	Verma MK, Repa BS. Pedestrian impact simulation: a preliminary study. In: Proceedings of the 27th Stapp Car Crash Conference. October 17-19, 1983; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:15-29. SAE 831601.
2013	Bostrom O, Motozawa Y, Oda S, Ito Y, Mroz K. Mechanism of reducing thoracic deflections and rib strains using supplemental shoulder belts during frontal impacts. In: Proceedings of the 23rd International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 27-30, 2013; Seoul, South Korea.
2017	Östh J, Mendoza‐Vazquez M, Linder A, Svensson MY, Brolin K. The VIVA OpenHBM finite element 50th percentile female occupant model: whole body model development and kinematic validation. In: Proceedings of the 2017 International IRCOBI Conference on the Biomechanics of Injury. September 13-15, 2017; Antwerp, Belgium.443-466.
2013	Mao H, Zhang L, Jiang B, Genthikatti VV, Jin X, Zhu F, Makwana R, Gill A, Jandir G, Singh A, Yang KH. Development of a finite element human head model partially validated with thirty five experimental cases. J Biomech Eng. November 2013;135(11):111002.
2001	Robin S. HUMOS: HUman MOdel for Safety: a joint effort towards the development of refined human-like car occupant models. In: Proceedings of the 17th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 4-7, 2001; Amsterdam, The Netherlands.
2006	Pickett GE, Campos-Benitez M, Keller JL, Duggal N. Epidemiology of traumatic spinal cord injury in Canada. Spine. April 1, 2006;31(7):799-805.
1999	Baudrit P, Hamon J, Song E, Robin S, Le Coz J-Y. Comparative studies of dummy and human body models behavior in frontal and lateral impact conditions. In: Proceedings of the 43rd Stapp Car Crash Conference. October 25-27, 1999; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:55-75. SAE 99SC05.
2003	Ruan J, El-Jawahri R, Chai L, Barbat S, Prasad P. Prediction and analysis of human thoracic impact responses and injuries in cadaver impacts using a full human body finite element model. Stapp Car Crash J. 2003;47:299-321. SAE 2003-22-0014.
2013	Rowson S, Duma SM. Brain injury prediction: assessing the combined probability of concussion using linear and rotational head acceleration. Ann Biomed Eng. May 2013;41(4):873-882.
2003	Horgan TJ, Gilchrist MD. The creation of three-dimensional finite element models for simulating head impact biomechanics. Int J Crashworthiness. 2003;8(4):353-366.
1993	Fung YC. Biomechanics: Mechanical Properties of Living Tissues. 2nd ed. New York, NY: Springer-Verlag; 1993.
2006	Yang KH, Hu J, White NA, King AI, Chou CC, Prasad P. Development of numerical models for injury biomechanics research: a review of 50 years of publications in the Stapp Car Crash Conference. Stapp Car Crash J. 2006;50:429-490. SAE 2006-22-0017.
2019	Bruneau D. Investigation of Head and Brain Response in Football Helmet Impacts Using a Finite Element Model of the Head and Neck With Active Muscle [Master's thesis]. University of Waterloo; 2019.
1982	Kaleps I, Marcus JH. Predictions of child motion during panic braking and impact. In: Proceedings of the 26th Stapp Car Crash Conference. October 20-21, 1982; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:207-229. SAE 821166.
2016	Antona-Makoshi J. Traumatic Brain Injuries: Animal Experiments and Numerical Simulations to Support the Development of a Brain Injury Criterion [PhD thesis]. Götenburg, Sweden: Chalmers University of Technology; 2016.
2014	Giordano C, Kleiven S. Evaluation of axonal strain as a predictor for mild traumatic brain injuries using finite element modeling. Stapp Car Crash J. November 2014;58:29-61.
1992	Deng Y-C. Development of a submarining model in the CAL3D program. In: Proceedings of the 36th Stapp Car Crash Conference. November 2-4, 1992; Seattle, WA. Warrendale, PA: Society of Automotive Engineers:273-281. SAE 922530.
1986	Wismans J, van Oorschot H, Woltring HJ. Omni-directional human head-neck response. In: Proceedings of the 30th Stapp Car Crash Conference. October 27-29, 1986; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:313-331. SAE 861893.
2017	Barker JB, Cronin DS, Nightingale RW. Lower cervical spine motion segment computational model validation: kinematic and kinetic response for quasi-static and dynamic loading. J Biomech Eng. June 2017;139(6):061009.
2015	Iwamoto M, Nakahira Y, Kimpara H. Development and validation of the Total HUman Model for Safety (THUMS) toward further understanding of occupant injury mechanisms in precrash and during crash. Traffic Inj Prev. June 1, 2015;16(suppl 1):S36-S48.
2008	Greaves CY, Gadala MS, Oxland TR. A three-dimensional finite element model of the cervical spine with spinal cord: an investigation of three injury mechanisms. Ann Biomed Eng. March 2008;36(3):396-405.
2006	Mao H, Zhang L, Yang KH, King AI. Application of a finite element model of the brain to study traumatic brain injury mechanisms in the rat. Stapp Car Crash J. 2006;50:583-600. SAE 2006-22-0022.
2016	Östh J, Mendoza‐Vazquez M, Svensson MY, Linder A, Brolin K. Development of a 50th percentile female human body model. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.573-575.
1968	Ommaya AK. Mechanical properties of tissues of the nervous system. J Biomech. 1968;1(2):127-136.
1972	Bartz JA. Development and validation of a computer simulation of a crash victim in three dimensions. In: Proceedings of the 16th Stapp Car Crash Conference. November 8-10, 1972; Detroit, MI. Warrendale, PA: Society of Automotive Engineers:105-127. SAE 720961.
2001	Mazuchowski EL II. Investigation of the Biomechanical Properties of the Human Spinal Cord and Its Connective Tissue [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2001.
2006	Jin X, Lee JB, Leung LY, Zhang L, Yang KH, King AI. Biomechanical response of the bovine pia-arachnoid complex to tensile loading at varying strain rates. Stapp Car Crash J. 2006;50:637-649. SAE 2006-22-0025.
1987	Wismans J, Philippens M, van Oorschot E, Kallieris D, Mattern R. Comparison of human volunteer and cadaver head-neck response in frontal flexion. In: Proceedings of the 31st Stapp Car Crash Conference. November 9-11, 1987; New Orleans, LA. Warrendale, PA: Society of Automotive Engineers:1-13. SAE 872194.
2001	Sekhon LH, Fehlings MG. Epidemiology, demographics, and pathophysiology of acute spinal cord injury. Spine. December 15, 2001;26(24)(suppl):S2-S12.
2003	Wilcox RK, Boerger TO, Allen DJ, Barton DC, Limb D, Dickson RA, Hall RM. A dynamic study of thoracolumbar burst fractures. J Bone Joint Surg. November 2003;85A(11):2184-2189.
1983	Wismans J, Spenny CH. Performance requirements for mechanical necks in lateral flexion. In: Proceedings of the 27th Stapp Car Crash Conference. October 17-19, 1983; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:137-148. SAE 831613.
2012	Mattucci SFE, Moulton JA, Chandrashekar N, Cronin DS. Strain rate dependent properties of younger human cervical spine ligaments. J Mech Behav Biomed Mater. June 2012;10:216-226.
2008	Takhounts EG, Ridella SA, Hasija V, Tannous RE, Campbell JQ, Malone D, Danelson K, Stitzel J, Rowson S, Duma S. Investigation of traumatic brain injuries using the next generation of Simulated Injury Monitor (SIMon) finite element head model. Stapp Car Crash J. 2008;52:1-31. SAE 2008-22-0001.
2018	Kleinbach C, Fehr J, Brolin K. Simulation of average female rear-end volunteer tests using the active ViVA OpenHBM. In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.237-238.
2015	Mattucci SF, Cronin DS. A method to characterize average cervical spine ligament response based on raw data sets for implementation into injury biomechanics models. J Mech Behav Biomed Mater. January 2015;41:251-260.
2009	Jin X. Biomechanical Response and Constitutive Modeling of Bovine Pia-Arachnoid Complex [PhD thesis]. Detroit, MI: Wayne State University; December 2009.
2007	Ivancic PC, Pearson AM, Tominaga Y, Simpson AK, Yue JJ, Panjabi MM. Mechanism of cervical spine injury during bilateral facet dislocation. In: Proceedings of the 3rd Ohio State University Injury Biomechanics Symposium. May 21-22, 2007; Columbus, OH.
2015	Melvin JW, Yoganandan N. Biomechanics of brain injury: a historical perspective. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:221-245.
2001	Zhang L, Yang KH, Dwarampudi R, Omori K, Li T, Chang K, Hardy WN, Khalil TB, King AI. Recent advances in brain injury research: a new human head model development and validation. Stapp Car Crash J. 2001;45:369-394. SAE 2001-22-0017.
2012	Panzer MB, Myers BS, Capehart BP, Bass CR. Development of a finite element model for blast brain injury and the effects of CSF cavitation. Ann Biomed Eng. July 2012;40(7):1530-1544.
2015	Hartlieb M, Mayer C, Richert J, Öztürk A, Mayer F, Pal S, Chitteti R. Implementation of new rib material models to a FE-human body model for evaluation of the PRE-SAFE^® impulse side restraint system for side impact protection. In: Proceedings of the 24th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 8-11, 2015; Gothenburg, Sweden.
1998	Happee R, Hoofman M, van den Kroonenberg AJ, Morsink P, Wismans J. A mathematical human body model for frontal and rearward seated automotive impact loading. In: Proceedings of the 42nd Stapp Car Crash Conference. November 2-4, 1998; Tempa, AZ. Warrendale, PA: Society of Automotive Engineers:75-88. SAE 983150.
2003	Takhounts EG, Eppinger RH, Campbell JQ, Tannous RE, Power ED, Shook LS. On the development of the SIMon finite element head model. Stapp Car Crash J. 2003;47:107-133. SAE 2003-22-0007.
2011	Cronin DS. Explicit finite element method applied to impact biomechanics problems. In: Proceedings of the 2011 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2011; Krakow, Poland.240-254.
1995	Thunnissen J, Wismans J, Ewing CL, Thomas DJ. Human volunteer head-neck response in frontal flexion: a new analysis. In: Proceedings of the 39th Stapp Car Crash Conference. November 8-10, 1995; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:439-460. SAE 952721.
2018	Kato D, Nakahira Y, Atsumi N, Iwamoto M. Development of human‐body model THUMS Version 6 containing muscle controllers and application to injury analysis in frontal collision after brake deceleration. In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.207-223.
2008	Deck C, Willinger R. Improved head injury criteria based on head FE model. Int J Crashworthiness. December 2008;13(6):667-678.
1988	Chang G-L, Hung T-K, Feng WW. An in-vivo measurement and analysis of viscoelastic properties of the spinal cord of cats. J Biomech Eng. May 1988;110(2):115-122.
2004	Zhang L, Yang KH, King AI. A proposed injury threshold for mild traumatic brain injury. J Biomech Eng. 2004;126(2):226-236.

Year

Entry

1998

Bilston LE. Finite element analysis of some cervical spinal cord injury modes. In: Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact. September 16-18, 1998; Göteberg, Sweden.365-375.

2021

Bruneau DA, Cronin DS. Brain response of a computational head model for prescribed skull kinematics and simulated football helmet impact boundary conditions. J Mech Behav Biomed Mater. March 2021;115:104299.

1996

Yoganandan N, Kumaresan SC, Voo L, Pintar FA, Larson SJ. Finite element modeling of the C4–C6 cervical spine unit. Med Eng Phys. October 1996;18(7):569-574.

1974

Ommaya AK, Gennarelli TA. Cerebral concussion and traumatic unconsciousness: correlation of experimental and clinical observations of blunt head injuries. Brain. December 1974;97(4):633-654.

1988

Kearney PA, Ridella SA, Viano DC, Anderson TE. Interaction of contact velocity and cord compression in determining the severity of spinal cord injury. J Neurotrauma. 1988;5(3):187-208.

2011

Gayzik FS, Moreno DP, Geer CP, Wuertzer SD, Martin RS, Stitzel JD. Development of a full body CAD dataset for computational modeling: a multi-modality approach. Ann Biomed Eng. October 2011;39(10):2568-2583.

1979

Padgaonkar AJ, Prasad P. Simulation of side impact using the CAL3D occupant simulation model. In: Proceedings of the 23rd Stapp Car Crash Conference. October 17-19, 1979; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:135-158. SAE 791007.

2007

Kleiven S. Predictors for traumatic brain injuries evaluated through accident reconstructions. Stapp Car Crash J. 2007;51:81-114. SAE 2007-22-0003.

2002

Kleiven S, Hardy WN. Correlation of an FE model of the human head with local brain motion: consequences for injury prediction. Stapp Car Crash J. 2002;46:123-144. SAE 2002-22-0007.

2006

Kimpara H, Nakahira Y, Iwamoto M, Miki K, Ichihara K, Kawano S-i, Taguchi T. Investigation of anteroposterior head-neck responses during severe frontal impacts using a brain-spinal cord complex FE model. Stapp Car Crash J. 2006;50:509-544. SAE 2006-22-0019.

1970

Galford JE, McElhaney JH. A viscoelastic study of scalp, brain, and dura. J Biomech. 1970;3(2):211-221.

1983

Verma MK, Repa BS. Pedestrian impact simulation: a preliminary study. In: Proceedings of the 27th Stapp Car Crash Conference. October 17-19, 1983; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:15-29. SAE 831601.

2013

Bostrom O, Motozawa Y, Oda S, Ito Y, Mroz K. Mechanism of reducing thoracic deflections and rib strains using supplemental shoulder belts during frontal impacts. In: Proceedings of the 23rd International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 27-30, 2013; Seoul, South Korea.

2017

Östh J, Mendoza‐Vazquez M, Linder A, Svensson MY, Brolin K. The VIVA OpenHBM finite element 50th percentile female occupant model: whole body model development and kinematic validation. In: Proceedings of the 2017 International IRCOBI Conference on the Biomechanics of Injury. September 13-15, 2017; Antwerp, Belgium.443-466.

2013

Mao H, Zhang L, Jiang B, Genthikatti VV, Jin X, Zhu F, Makwana R, Gill A, Jandir G, Singh A, Yang KH. Development of a finite element human head model partially validated with thirty five experimental cases. J Biomech Eng. November 2013;135(11):111002.

2001

Robin S. HUMOS: HUman MOdel for Safety: a joint effort towards the development of refined human-like car occupant models. In: Proceedings of the 17th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 4-7, 2001; Amsterdam, The Netherlands.

2006

Pickett GE, Campos-Benitez M, Keller JL, Duggal N. Epidemiology of traumatic spinal cord injury in Canada. Spine. April 1, 2006;31(7):799-805.

1999

Baudrit P, Hamon J, Song E, Robin S, Le Coz J-Y. Comparative studies of dummy and human body models behavior in frontal and lateral impact conditions. In: Proceedings of the 43rd Stapp Car Crash Conference. October 25-27, 1999; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:55-75. SAE 99SC05.

2003

Ruan J, El-Jawahri R, Chai L, Barbat S, Prasad P. Prediction and analysis of human thoracic impact responses and injuries in cadaver impacts using a full human body finite element model. Stapp Car Crash J. 2003;47:299-321. SAE 2003-22-0014.

2013

Rowson S, Duma SM. Brain injury prediction: assessing the combined probability of concussion using linear and rotational head acceleration. Ann Biomed Eng. May 2013;41(4):873-882.

2003

Horgan TJ, Gilchrist MD. The creation of three-dimensional finite element models for simulating head impact biomechanics. Int J Crashworthiness. 2003;8(4):353-366.

1993

Fung YC. Biomechanics: Mechanical Properties of Living Tissues. 2nd ed. New York, NY: Springer-Verlag; 1993.

2006

Yang KH, Hu J, White NA, King AI, Chou CC, Prasad P. Development of numerical models for injury biomechanics research: a review of 50 years of publications in the Stapp Car Crash Conference. Stapp Car Crash J. 2006;50:429-490. SAE 2006-22-0017.

2019

Bruneau D. Investigation of Head and Brain Response in Football Helmet Impacts Using a Finite Element Model of the Head and Neck With Active Muscle [Master's thesis]. University of Waterloo; 2019.

1982

Kaleps I, Marcus JH. Predictions of child motion during panic braking and impact. In: Proceedings of the 26th Stapp Car Crash Conference. October 20-21, 1982; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:207-229. SAE 821166.

2016

Antona-Makoshi J. Traumatic Brain Injuries: Animal Experiments and Numerical Simulations to Support the Development of a Brain Injury Criterion [PhD thesis]. Götenburg, Sweden: Chalmers University of Technology; 2016.

2014

Giordano C, Kleiven S. Evaluation of axonal strain as a predictor for mild traumatic brain injuries using finite element modeling. Stapp Car Crash J. November 2014;58:29-61.

1992

Deng Y-C. Development of a submarining model in the CAL3D program. In: Proceedings of the 36th Stapp Car Crash Conference. November 2-4, 1992; Seattle, WA. Warrendale, PA: Society of Automotive Engineers:273-281. SAE 922530.

1986

Wismans J, van Oorschot H, Woltring HJ. Omni-directional human head-neck response. In: Proceedings of the 30th Stapp Car Crash Conference. October 27-29, 1986; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:313-331. SAE 861893.

2017

Barker JB, Cronin DS, Nightingale RW. Lower cervical spine motion segment computational model validation: kinematic and kinetic response for quasi-static and dynamic loading. J Biomech Eng. June 2017;139(6):061009.

2015

Iwamoto M, Nakahira Y, Kimpara H. Development and validation of the Total HUman Model for Safety (THUMS) toward further understanding of occupant injury mechanisms in precrash and during crash. Traffic Inj Prev. June 1, 2015;16(suppl 1):S36-S48.

2008

Greaves CY, Gadala MS, Oxland TR. A three-dimensional finite element model of the cervical spine with spinal cord: an investigation of three injury mechanisms. Ann Biomed Eng. March 2008;36(3):396-405.

2006

Mao H, Zhang L, Yang KH, King AI. Application of a finite element model of the brain to study traumatic brain injury mechanisms in the rat. Stapp Car Crash J. 2006;50:583-600. SAE 2006-22-0022.

2016

Östh J, Mendoza‐Vazquez M, Svensson MY, Linder A, Brolin K. Development of a 50th percentile female human body model. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.573-575.

1968

Ommaya AK. Mechanical properties of tissues of the nervous system. J Biomech. 1968;1(2):127-136.

1972

Bartz JA. Development and validation of a computer simulation of a crash victim in three dimensions. In: Proceedings of the 16th Stapp Car Crash Conference. November 8-10, 1972; Detroit, MI. Warrendale, PA: Society of Automotive Engineers:105-127. SAE 720961.

2001

Mazuchowski EL II. Investigation of the Biomechanical Properties of the Human Spinal Cord and Its Connective Tissue [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2001.

2006

Jin X, Lee JB, Leung LY, Zhang L, Yang KH, King AI. Biomechanical response of the bovine pia-arachnoid complex to tensile loading at varying strain rates. Stapp Car Crash J. 2006;50:637-649. SAE 2006-22-0025.

1987

Wismans J, Philippens M, van Oorschot E, Kallieris D, Mattern R. Comparison of human volunteer and cadaver head-neck response in frontal flexion. In: Proceedings of the 31st Stapp Car Crash Conference. November 9-11, 1987; New Orleans, LA. Warrendale, PA: Society of Automotive Engineers:1-13. SAE 872194.

2001

Sekhon LH, Fehlings MG. Epidemiology, demographics, and pathophysiology of acute spinal cord injury. Spine. December 15, 2001;26(24)(suppl):S2-S12.

2003

Wilcox RK, Boerger TO, Allen DJ, Barton DC, Limb D, Dickson RA, Hall RM. A dynamic study of thoracolumbar burst fractures. J Bone Joint Surg. November 2003;85A(11):2184-2189.

1983

Wismans J, Spenny CH. Performance requirements for mechanical necks in lateral flexion. In: Proceedings of the 27th Stapp Car Crash Conference. October 17-19, 1983; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:137-148. SAE 831613.

2012

Mattucci SFE, Moulton JA, Chandrashekar N, Cronin DS. Strain rate dependent properties of younger human cervical spine ligaments. J Mech Behav Biomed Mater. June 2012;10:216-226.

2008

Takhounts EG, Ridella SA, Hasija V, Tannous RE, Campbell JQ, Malone D, Danelson K, Stitzel J, Rowson S, Duma S. Investigation of traumatic brain injuries using the next generation of Simulated Injury Monitor (SIMon) finite element head model. Stapp Car Crash J. 2008;52:1-31. SAE 2008-22-0001.

2018

Kleinbach C, Fehr J, Brolin K. Simulation of average female rear-end volunteer tests using the active ViVA OpenHBM. In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.237-238.

2015

Mattucci SF, Cronin DS. A method to characterize average cervical spine ligament response based on raw data sets for implementation into injury biomechanics models. J Mech Behav Biomed Mater. January 2015;41:251-260.

2009

Jin X. Biomechanical Response and Constitutive Modeling of Bovine Pia-Arachnoid Complex [PhD thesis]. Detroit, MI: Wayne State University; December 2009.

2007

Ivancic PC, Pearson AM, Tominaga Y, Simpson AK, Yue JJ, Panjabi MM. Mechanism of cervical spine injury during bilateral facet dislocation. In: Proceedings of the 3rd Ohio State University Injury Biomechanics Symposium. May 21-22, 2007; Columbus, OH.

2015

Melvin JW, Yoganandan N. Biomechanics of brain injury: a historical perspective. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:221-245.

2001

Zhang L, Yang KH, Dwarampudi R, Omori K, Li T, Chang K, Hardy WN, Khalil TB, King AI. Recent advances in brain injury research: a new human head model development and validation. Stapp Car Crash J. 2001;45:369-394. SAE 2001-22-0017.

2012

Panzer MB, Myers BS, Capehart BP, Bass CR. Development of a finite element model for blast brain injury and the effects of CSF cavitation. Ann Biomed Eng. July 2012;40(7):1530-1544.

2015

Hartlieb M, Mayer C, Richert J, Öztürk A, Mayer F, Pal S, Chitteti R. Implementation of new rib material models to a FE-human body model for evaluation of the PRE-SAFE^® impulse side restraint system for side impact protection. In: Proceedings of the 24th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 8-11, 2015; Gothenburg, Sweden.

1998

Happee R, Hoofman M, van den Kroonenberg AJ, Morsink P, Wismans J. A mathematical human body model for frontal and rearward seated automotive impact loading. In: Proceedings of the 42nd Stapp Car Crash Conference. November 2-4, 1998; Tempa, AZ. Warrendale, PA: Society of Automotive Engineers:75-88. SAE 983150.

2003

Takhounts EG, Eppinger RH, Campbell JQ, Tannous RE, Power ED, Shook LS. On the development of the SIMon finite element head model. Stapp Car Crash J. 2003;47:107-133. SAE 2003-22-0007.

2011

Cronin DS. Explicit finite element method applied to impact biomechanics problems. In: Proceedings of the 2011 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2011; Krakow, Poland.240-254.

1995

Thunnissen J, Wismans J, Ewing CL, Thomas DJ. Human volunteer head-neck response in frontal flexion: a new analysis. In: Proceedings of the 39th Stapp Car Crash Conference. November 8-10, 1995; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:439-460. SAE 952721.

2018

Kato D, Nakahira Y, Atsumi N, Iwamoto M. Development of human‐body model THUMS Version 6 containing muscle controllers and application to injury analysis in frontal collision after brake deceleration. In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.207-223.

2008

Deck C, Willinger R. Improved head injury criteria based on head FE model. Int J Crashworthiness. December 2008;13(6):667-678.

1988

Chang G-L, Hung T-K, Feng WW. An in-vivo measurement and analysis of viscoelastic properties of the spinal cord of cats. J Biomech Eng. May 1988;110(2):115-122.

2004

Zhang L, Yang KH, King AI. A proposed injury threshold for mild traumatic brain injury. J Biomech Eng. 2004;126(2):226-236.

Year	Entry
2023	Seeburrun T, Hartlen DC, Bustamante MC, Azar A, Ouellet S, Cronin DS. Application of measured head kinematics to finite element head model and assessment of brain response in human volunteers subject to acceleration events from rifle recoil. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-165, 2023; Cambridge, United Kingdom.83-84.

Year

Entry

2023

Seeburrun T, Hartlen DC, Bustamante MC, Azar A, Ouellet S, Cronin DS. Application of measured head kinematics to finite element head model and assessment of brain response in human volunteers subject to acceleration events from rifle recoil. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-165, 2023; Cambridge, United Kingdom.83-84.