Title :
In-vivo mechanical property assessment of a biodegradable polyurethane tissue construct on rat abdominal repair model using ultrasound elasticity imaging
Author :
Tripathy, S. ; Takanari, K. ; Hashizume, R. ; Hong, Y. ; Amoroso, N.J. ; Fujimoto, K.L. ; Sacks, M.S. ; Wagner, W.R. ; Kim, K.
Author_Institution :
Center for Ultrasound Mol. Imaging & Therapeutics, Univ. of Pittsburgh, Pittsburgh, PA, USA
Abstract :
Non-invasively monitoring the mechanical property change of the engineered tissue constructs in vivo may help evaluate and feedback tissue scaffold design. In this paper, ultrasound elasticity imaging (UEI) was applied to detect mechanical property changes of the implanted polyurethane tissue constructs on a rat abdominal defect. Bi-axial mechanical measurements on the excised tissue/scaffold constructs were performed for comparison with the UEI results. An increase in overall stiffness along with tissue ingrowth was observed in 4 and 8weeks using both UEI and direct mechanical testing. While, pure scaffold embedded in 10% gelatin showed decrease in stiffness with degradation. Histopathology confirmed tissue in growth such as collagens.
Keywords :
biodegradable materials; biomechanics; biomedical materials; elasticity; polymers; tissue engineering; ultrasonic imaging; bi-axial mechanical measurement; biodegradable polyurethane tissue construct; collagens; histopathology; mechanical property assessment; noninvasive monitoring; rat abdominal repair model; stiffness; tissue scaffold design; ultrasound elasticity imaging; Animals; Degradation; Imaging; Strain; Tissue engineering; Ultrasonic imaging; Abdominal Muscle Implants; Polyurethane; Speckle Tracking; Tissue Engineering; Tissue scaffolds; Ultrasound Elasticity Imaging;
Conference_Titel :
Ultrasonics Symposium (IUS), 2010 IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4577-0382-9
DOI :
10.1109/ULTSYM.2010.5935743
