Using uniaxial tensile testing to evaluate the biomechanical properties of bladder tissue after spinal cord injury in rat model.

Jonathan C Hu Stephanie L Osborn Presten C Sanchez Weichen Xu Blaine A Christiansen Eric A Kurzrock

J Biomech

Department of Urologic Surgery, University of California Davis Health System, 4860 Y Street, Suite 3500, Sacramento, CA, 95817, USA; Stem Cell Program, University of California, Davis Institute for Regenerative Cures, 2921 Stockton Blvd, Suite 1630, Sacramento, CA 95817, USA. Electronic address:

Published: May 2023

The study investigates the changes in biomechanical properties of rat bladder tissue after spinal cord injury (SCI) using uniaxial tensile testing.
It finds that while there are minimal differences in bladder properties at 2 weeks post-SCI, significant changes including a 71% decrease in instantaneous modulus and a 78% increase in yield strain occur by 9 weeks.
The results suggest that SCI alters the mechanical properties of the bladder wall, highlighting the importance of timing in assessing these changes through experiments.

To investigate the biomechanical properties of rat bladder tissue after spinal cord injury (SCI) using uniaxial tensile testing. Evidence suggests the bladder wall undergoes remodeling following SCI. There is limited data describing the biomechanical properties of bladder wall after SCI. This study describes the changes in elastic and viscoelastic mechanical properties of bladder tissue using a rat model after SCI. Seventeen adult rats received mid-thoracic SCI. Basso, Beattie, and Bresnahan (BBB) locomotor testing was performed on the rats 7-14 days after injury quantifying the degree of SCI. Bladder tissue samples were collected from controls and spinal injured rats at 2- and 9-weeks post-injury. Tissue samples underwent uniaxial stress relaxation to determine instantaneous and relaxation modulus as well as monotonic load-to failure to determine Young's modulus, yield stress and strain, and ultimate stress. SCI resulted in abnormal BBB locomotor scores. Nine weeks post-injury, instantaneous modulus decreased by 71.0% (p = 0.03) compared to controls. Yield strain showed no difference at 2 weeks post-injury but increased 78% (p = 0.003) in SCI rats at 9 weeks post-injury. Compared to controls, ultimate stress decreased 46.5% (p = 0.05) at 2 weeks post-injury in SCI rats but demonstrated no difference at 9 weeks post-injury. The biomechanical properties of rat bladder wall 2 weeks after SCI showed minimal difference compared to controls. By week 9, SCI bladders had a reduction in instantaneous modulus and increased yield strain. The findings indicate biomechanical differences can be identified between control and experimental groups at 2- and 9-week intervals using uniaxial testing.

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http://dx.doi.org/10.1016/j.jbiomech.2023.111571	DOI Listing

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