wbldb
home
|
authors
|
theses
Chastain, Kalle
1
; Burns, Michael R.
2
;
Gepner, Bronislaw
2
;
Forman, Jason
2
;
Hallman, Jason
3
;
Kerrigan, Jason R.
2
Effect of axial compression on the kinetic and kinematic responses of adult male human lumbar spine in lateral bending
Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury
Affiliations
1
Hospital for Special Surgery
, New York USA
2
University of Virginia
’s
Center for Applied Biomechanics
, USA
3
Toyota Motor North America
Research & Development, Michigan USA
Links
URL:
https://www.ircobi.org/wordpress/downloads/irc23/pdf-files/23137.pdf
Cited Works (2)
Year
Entry
1999
Patwardhan AG, Havey RM, Meade KP, Lee B, Dunlap B. A follower load increases the load-carrying capacity of the lumbar spine in compression.
Spine
. May 15, 1999;24(10):1003-1009.
1992
McGill SM. A myoelectrically based dynamic three-dimensional model to predict loads on lumbar spine tissues during lateral bending.
J Biomech
. April 1992;25(4):395-414.
Cited By (1)
Year
Entry
2024
Burns MR, Caldwell AJ, Sochor SH, Shin J, Hanggi CJ, Gepner B, Kerrigan JR. Lumbar spine mechanical response to combined flexion and compression in post-mortem human subjects. In:
Proceedings of the 2024 International IRCOBI Conference on the Biomechanics of Injury
. September 11-13, 2024; Stockholm, Sweden.392-419.