Investigation of the biomechanical integrity of decellularized rat abdominal aorta
journal contribution
posted on 2019-03-01, 14:11authored byMichalis Katsimpoulas, Lucrezia Morticelli, Efstathios Michalopoulos, Ioanna Gontika, C. Stavropoulos-Giokas, A. Kostakis, Axel Haverich, Sotiris KorossisSotiris Korossis
Objectives. The loss or damage of an organ or tissue is one of the most common and
devastating problems in healthcare today. Tissue engineering applies the principles of
engineering and biology toward the development of functional biological replacements that
are able to maintain, improve, or restore the function of pathological tissues. The aim
of the overall project is to study an already existing method for the decellularization of
homograft vascular grafts for use in vascular surgery.
Materials and Methods. The biomechanical integrity of native and decellularized rat
aortas was assessed under uniaxial tension tests. For this purpose, 36 male rats (12 Wistar
and 24 Dark Agouti [DA]) were used to excise their abdominal aortas. Twelve of the aortas
were tested fresh (Wistar and DA rats), within 24 hours from euthanasia, and the rest were
decellularized using a modified protocol (DA rats only). Fresh and decellularized samples
(n ¼ 12) were subjected to uniaxial tensile loading to failure, and the recorded stress-strain
behaviour of each specimen was assessed in terms of 6 biomechanical parameters.
Results. No statistically significant differences were found in any of the biomechanical
parameters studied between the decellularized DA rat aorta group and both the native DA
and Wistar rat aorta groups (P > .05). Also, no significant difference was shown between
the native DA and native Wistar rat aorta groups.
Conclusions. The results from this study have shown that the decellularization protocol
did not affect the mechanical properties of the native rat aorta. In addition to this, both
native Wistar and native/decellularized DA rat aorta groups shared similar mechanical
properties.
History
School
Mechanical, Electrical and Manufacturing Engineering
Published in
Transplantation Proceedings
Volume
47
Issue
4
Pages
1228 - 1233
Citation
KATSIMPOULAS, M. ... et al., 2015. Investigation of the biomechanical integrity of decellularized rat abdominal aorta. Transplantation Proceedings, 47(4), pp. 1228 - 1233.
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