Alar, Transverse, and Apical Ligament Strain due to Head-Turned Rear Impact
スポンサーリンク
概要
- 論文の詳細を見る
- 2006-03-15
著者
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PANJABI Manohar
Department of Orthopedics and Rehabilitation, Yale University School of Medicine
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MAAK Travis
Department of Orthopaedics and Rehabilitation, Yale University School of Medicine
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Maak Travis
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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Maak Travis
Department Of Orthopaedics And Rehabilitation
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Ivancic Paul
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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Ivancic Paul
From The Biomechanics Research Laboratory Department Of Orthopedics And Rehabilitation Yale Universi
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Panjabi Manohar
Department Of Orthopaedic And Rehabilitation Yale University School Of Medicine
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TOMINAGA Yasuhiro
Department of Orthopedics and Rehabilitation, Yale University School of Medicine
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IVANCIC Paul
Department of Orthopedics and Rehabilitation, Yale University School of Medicine
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Ivancic Paul
Department Of Orthopaedics And Rehabilitation Biomechanics Research Laboratory Yale University Schoo
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Panjabi Manohar
Biomechanics Research Laboratory Department Of Orthopedics And Rehabilitation Yale University School
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Panjabi Manohar
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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Tominaga Yasuhiro
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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Panjabi Manohar
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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Panjabi Manohar
From The Biomechanics Research Laboratory Department Of Orthopedics And Rehabilitation Yale Universi
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Ivancic Paul
Biomechanics Research Laboratory Department Of Orthopaedics And Rehabilitation Yale University Schoo
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TOMINAGA Yasuhiro
Department of Mechanical and Aerospace Engineering, Tokyo Institute of Technology
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- Letters
- Alar, Transverse, and Apical Ligament Strain due to Head-Turned Rear Impact
- Osteogenic Protein-1 Overcomes the Inhibitory Effect of Nicotine on Posterolateral Lumbar Fusion
- Flexibility Analysis of Posterolateral Fusions in a New Zealand White Rabbit Model
- 2000 Young Investigator Research Award Winner : Evaluation of OP-1 as a Graft Substitute for Intertransverse Process Lumbar Fusion
- Posterior Stabilization at the Cervicothoracic Junction : A Biomechanical Study
- Effect of Halo-Vest Components on Stabilizing the Injured Cervical Spine
- Biomechanics of Halo-Vest and Dens Screw Fixation for Type II Odontoid Fracture
- Effect of Active Head Restraint on Residual Neck Instability due to Rear Impact
- Numerical Study of Heat Transfer Mechanism in Turbulent Supercritical CO2 Channel Flow
- The Role of Tissue Damage in Whiplash-Associated Disorders