2011 Poster Presentations
Knee Airbag Injury Risk Assessment for Children
J. Bing1, J.B. Bolte IV1, D. Longhitano2, D. Rankin2
1The Ohio State University, Injury Biomechanics Research Lab; 2Honda R&D Americas, Inc.
The Inertial Effects of Booster Seats on Three-Year-Old ATD
M. Gapinski, S. Janca, J. Brelin-Fornari
Kettering University Crash Safety Center
Impact Testing of a Proximal Femur in a Fall Configuration
S. Gilchrist1,2,3, P. Guy3,4, P. Cripton1,2,3,4
1University of British Columbia (UBC), Department of Mechanical Engineering; 2UBC Bridge Program; 3Centre for Hip Health and Mobility, Vancouver General Hospital; 4UBC Department of Orthopaedics
Nonlinear Shock Wave Propagation in Soft Tissues as a Mechanism of Injury
K. Laksari, K. Darvish, K. Sadeghipour
Department of Mechanical Engineering, Temple University
Investigation of the Pediatric Shoulder’s Resistance to Lateral-Impact Loading
J. Lee1,B. Suntay2, A. Meek3, J. Bolte IV1
1College of Medicine, The Ohio State University; 2TransportationResearch Center; 3College of Medicine, University of Cincinnati
Statistical Shape Analysis for Development of a Probabilistic Finite Element model of The Human Clavicle
Y. Lu, C. Untaroiu
Department of Mechanical and Aerospace Engineering, University of Virginia
Injury Rate Ratio and Knee Load Threshold Related to Increased Risk of Knee Injury
G.D. Myer1,2,3, K.R. Ford1,2, A.M. Chaudhari3, T.E. Hewett1,2,3
1Cincinnati Children’s Hospital Medical Center, Division of Sports Medicine, Cincinnati, Ohio; 2Department of Pediatrics, College of Medicine, University of Cincinnati; 3The Ohio State University Sports Medicine, The Ohio State University
Neck posture and muscle activation: a human volunteer study comparing the effect of upright and inverted postures
R. Newell, G. Siegmund, J. Blouin, J. Street, P. Cripton
Orthopaedic and Injury Biomechanics Laboratory, Departments of Mechanical Engineering and Orthopaedics/International Collaboration on Repair Discoveries, University of British Columbia
Postmortem studies of High Energy Lateral Impacts to the Frontal, Nasal and Zygomatic Bones
M. Scofield, A. Agnew, J. Bolte IV
College of Medicine, The Ohio State University
Vector Analysis of Frontal Plane Video to Determine Sagittal Plane Knee Kinematics
S. Wordeman1, K. Ford2, T.H. Hewett2, G. Myer1
1Department of Biomedical Engineering, University of Cincinnati; 2FACS
Evaluating the Protective Capacity of Novel Compliant Flooring Systems During Simulated Head Impacts Using a Surrogate Human Headform
A. Wright; A.C. Laing
Injury Biomechanics and Aging Laboratory, Department of Kinesiology, University of Waterloo
Evaluation of Correlations between Equivalent CT Density and Material Properties of Lower Limb Bones
N. Yue, J. Wright, C. Untaroiu
Department of Mechanical and Aerospace Engineering, University of Virginia
2011 Oral Presentations
Planar Analysis of Visceral Response to Thoraco-Abdominal Impacts
J.J Hallman, N. Yoganandan, F.A. Pintar
Department of Neurosurgery; Medical College of Wisconsin
Biofidelity Evaluation of Anthropomorphic Test Devices (BioRIDII, RID3D, Hybrid III) in Low and Moderate Speed Rear Imapacts
Y. Kang1, K. Moorhouse2, R. Herriott3, J. H. Bolte IV1
1The Ohio State University; 2NHTSA- Vehicle Research & Test Center; 3Transportation Research Center
Development and Parametric Study of a Parametric Pediatric Head Finite Element Model for Impact Simulations
Z. Li1,2, J. Hu1, J. Zhang2
1University of Michigan Transportation Research Institute; 2State Key Laboratory of Automotive Safety and Energy, Tsinghua University
Electromyography responses of pediatric and adult volunteers in low speed frontal impacts
E. Mathews1,2, T. Seacrist2, C. Rao3, M. R. Maltese2, K. Higuchi4, H. Tanji4, S. St. Lawrence4, K. B. Arbogast2, S. Balasubramanian1,2
1School of Biomedical Engineering, Science and Health Systems, Drexel University; 2Center for Injury Research and Prevention, The Children’s Hospital of Philadelphia; 3Department of Electrical and Computer Engineering, Drexel University; 4Takata Corporation
Material Properties of Brain Tissue under Blast-Rate Deformations
M. Shafieian, J. Bao, K. Darvish
Department of Mechanical Engineering, Temple University
Prediction of Intracranial Responses from Blast Induced Neurotrauma using a Validated Finite Element Model of Human Head
S. Sharma, L. Zhang
Bioengineering Centre, Wayne State University
Modeling and Simulation of the high Strain-Rate Response of Brain Tissue for Traumatic Brain Injury Applications
B. Sista, K. Vemaganti
School of Dynamic Systems, University of Cincinnati
Isolated Segment Manipulation: A New Way to Characterize the Dynamic Response of Biomechanical Structures
J. Stammen1, R. Dupaix1, Y. Kang1, R. Herriott2, B. Donnelly3, K. Moorhouse3, J. Bolte IV1
1The Ohio State University; 2Transportation Research Center; 3NHTSA- Vehicle Research & Test Center
Semi-Automated Landmark Identification Using Label Maps in an MNI Atlas
J. E. Urban1,2, J.A. Maldjian1,3, C. T. Whitlow1,3, E.G. Takhounts4, J.D. Stitzel1,2
1Wake Forest University School of Medicine; 2Virginia Tech – Wake Forest University Center for Injury Biomechanics; 3Department of Radiology, Advanced Neuroscience Imaging Research Laboratory; 4National Highway Traffic Safety Administration