Shih-Youeng Chuang, Ph.D.
Affiliations: | 2005 | University of Southern California, Los Angeles, CA, United States |
Area:
Biomedical Engineering, Medicine and SurgeryGoogle:
"Shih-Youeng Chuang"Parents
Sign in to add mentorThomas P. Hedman | grad student | 2005 | USC | |
(The effects of crosslink augmentation on the stability of spinal motion segments and the poroelastic properties of intervertebral discs.) |
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Publications
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Hedman TP, Chen WP, Lin LC, et al. (2017) Effects of Collagen Crosslink Augmentation on Mechanism of Compressive Load Sharing in Intervertebral Discs. Journal of Medical and Biological Engineering. 37: 94-101 |
Lin HJ, Lin LC, Hedman TP, et al. (2015) Exogenous Crosslinking Restores Intradiscal Pressure of Injured Porcine Intervertebral Discs: An In Vivo Examination Using Quantitative Discomanometry. Spine. 40: 1572-7 |
Lin HJ, Lin LC, Hedman TP, et al. (2015) Exogenous crosslinking restores intradiscal pressure of injured porcine intervertebral discs: An in vivo examination using quantitative discomanometry Spine. 40: 1572-1577 |
Popovich JM, Yau D, Chuang SY, et al. (2011) Exogenous collagen crosslinking of the intervertebral disc restores joint stability after lumbar posterior decompression surgery. Spine. 36: 939-44 |
Chuang SY, Popovich JM, Lin LC, et al. (2010) The effects of exogenous crosslinking on hydration and fluid flow in the intervertebral disc subjected to compressive creep loading and unloading. Spine. 35: E1362-6 |
Chuang SY, Lin LC, Hedman TP. (2010) The influence of exogenous cross-linking and compressive creep loading on intradiscal pressure. Biomechanics and Modeling in Mechanobiology. 9: 533-8 |
Chuang SY, Odono RM, Hedman TP. (2007) Effects of exogenous crosslinking on in vitro tensile and compressive moduli of lumbar intervertebral discs. Clinical Biomechanics (Bristol, Avon). 22: 14-20 |
Hedman TP, Saito H, Vo C, et al. (2006) Exogenous cross-linking increases the stability of spinal motion segments. Spine. 31: E480-5 |