Thomas R. Oxland
Thomas R. Oxland
Professor of Orthopaedics and Mechanical Engineering, University of British Columbia
Verified email at mail.ubc.ca
TitleCited byYear
Biomechanical evaluation of lumbar spinal stability after graded facetectomies.
K Abumi, MM Panjabi, KM Kramer, J Duranceau, T Oxland, JJ Crisco
Spine 15 (11), 1142-1147, 1990
5471990
Interface shear strength of titanium implants with a sandblasted and acid‐etched surface: A biomechanical study in the maxilla of miniature pigs
D Buser, T Nydegger, T Oxland, DL Cochran, RK Schenk, HP Hirt, ...
Journal of Biomedical Materials Research: An Official Journal of The Society …, 1999
5431999
Mechanical behavior of the human lumbar and lumbosacral spine as shown by three-dimensional load-displacement curves.
MM Panjabi, TR Oxland, I Yamamoto, JJ Crisco
JBJS 76 (3), 413-424, 1994
5221994
Three-dimensional movements of the whole lumbar spine and lumbosacral joint.
I Yamamoto, MM Panjabi, T Crisco, T Oxland
Spine 14 (11), 1256-1260, 1989
5121989
Spinal stability and intersegmental muscle forces. A biomechanical model.
M Panjabi, K Abumi, J Duranceau, T Oxland
Spine 14 (2), 194-200, 1989
5041989
Human lumbar vertebrae. Quantitative three-dimensional anatomy.
MM Panjabi, V Goel, T Oxland, K Takata, J Duranceau, M Krag, M Price
Spine 17 (3), 299-306, 1992
4761992
Cervical human vertebrae. Quantitative three-dimensional anatomy of the middle and lower regions.
MM Panjabi, J Duranceau, V Goel, T Oxland, K Takata
Spine 16 (8), 861-869, 1991
4431991
Disc degeneration affects the multidirectional flexibility of the lumbar spine.
M Mimura, MM Panjabi, TR Oxland, JJ Crisco, I Yamamoto, A Vasavada
Spine 19 (12), 1371-1380, 1994
4111994
Articular facets of the human spine. Quantitative three-dimensional anatomy.
MM Panjabi, T Oxland, K Takata, V Goel, J Duranceau, M Krag
Spine 18 (10), 1298-1310, 1993
4011993
Thoracic human vertebrae. Quantitative three-dimensional anatomy.
MM Panjabi, K Takata, V Goel, D Federico, T Oxland, J Duranceau, ...
Spine 16 (8), 888-901, 1991
3661991
Cervical spine stabilization system
TR Oxland, DW Kohrs, D Erickson, P Sand
US Patent 5,676,666, 1997
3381997
Interbody cage stabilisation in the lumbar spine: biomechanical evaluation of cage design, posterior instrumentation and bone density
T Lund, TR Oxland, B Jost, P Cripton, S Grassmann, C Etter, LP Nolte
The Journal of bone and joint surgery. British volume 80 (2), 351-359, 1998
3201998
Mapping the structural properties of the lumbosacral vertebral endplates
JP Grant, TR Oxland, MF Dvorak
Spine 26 (8), 889-896, 2001
2862001
Euler stability of the human ligamentous lumbar spine. Part II: Experiment
JJ Crisco, MM Panjabi, I Yamamoto, TR Oxland
Clinical biomechanics 7 (1), 27-32, 1992
2571992
Biomechanical characterization of the three-dimensional kinematic behaviour of the Dynesys dynamic stabilization system: an in vitro study
CA Niosi, QA Zhu, DC Wilson, O Keynan, DR Wilson, TR Oxland
European spine journal 15 (6), 913-922, 2006
2442006
Biomechanics of stand-alone cages and cages in combination with posterior fixation: a literature review
TR Oxland, T Lund
European Spine Journal 9 (1), S095-S101, 2000
2192000
Animal models used in spinal cord regeneration research
BK Kwon, TR Oxland, W Tetzlaff
Spine 27 (14), 1504-1510, 2002
2112002
Symposium: a critical discrepancy—a criteria of successful arthrodesis following interbody spinal fusions
PC McAfee, SD Boden, JW Brantigan, RD Fraser, SD Kuslich, TR Oxland, ...
Spine 26 (3), 320-334, 2001
1932001
Quantitative anatomy of cervical spine ligaments. Part II. Middle and lower cervical spine.
MM Panjabi, TR Oxland, EH Parks
Journal of spinal disorders 4 (3), 277-285, 1991
1841991
Compressive strength of interbody cages in the lumbar spine: the effect of cage shape, posterior instrumentation and bone density
B Jost, PA Cripton, T Lund, TR Oxland, K Lippuner, P Jaeger, LP Nolte
European Spine Journal 7 (2), 132-141, 1998
1821998
The system can't perform the operation now. Try again later.
Articles 1–20