10.6084/m9.figshare.7276478.v1
M. A. J. van Kelle
M. A. J.
van Kelle
P. J. A. Oomen
P. J. A.
Oomen
W. J. T. Janssen-van den Broek
W. J. T.
Janssen-van den Broek
R. G. P. Lopata
R. G. P.
Lopata
S. Loerakker
S.
Loerakker
C. V. C. Bouten
C. V. C.
Bouten
Relationship between apex displacement and applied pressure. from Initial scaffold thickness affects the emergence of a geometrical and mechanical equilibrium in engineered cardiovascular tissues
The Royal Society
2018
cardiovascular
tissue-engineering
growth
remodelling
2018-10-31 14:01:30
Journal contribution
https://rs.figshare.com/articles/journal_contribution/Relationship_between_apex_displacement_and_applied_pressure_from_Initial_scaffold_thickness_affects_the_emergence_of_a_geometrical_and_mechanical_equilibrium_in_engineered_cardiovascular_tissues/7276478
Figure 1: Relationship between apex displacement and applied pressure of one thin (a,c) and one thick (b,d) sample at two different time points, day 0 (a,b) and day 21 (c,d). The inverse analysis uses the central 50% of the construct for estimating the material properties (Section 2.5.1). Here the experimental (markers) and estimated (continuous lines) displacement of only the apex is shown as a function of the applied pressure.