2006
DOI: 10.1007/s10439-006-9153-1
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Cellular and Matrix Mechanics of Bioartificial Tissues During Continuous Cyclic Stretch

Abstract: Bioartificial tissues are useful model systems for studying cell and extra-cellular matrix mechanics. These tissues provide a 3D environment for cells and allow tissue components to be easily modified and quantified. In this study, we fabricated bioartificial tissue rings from a 1 ml solution containing one million cardiac fibroblasts and 1 mg collagen. After 8 days, rings compacted to <1% of original volume and cell number increased 2.4 fold. We initiated continuous cyclic stretching of the rings after 2, 4, … Show more

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Cited by 47 publications
(45 citation statements)
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References 19 publications
(31 reference statements)
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“…Furthermore, the activity of adherent cells is strongly dependent upon mechanical stimuli from the surrounding ECM (Pelham and Wang, 1997;Weyts et al, 2003). More specifically, cyclic deformation (which fibroblasts embedded in an arterial wall are exposed to) is known to influence the proliferation and collagen production rate of fibroblasts (Butt et al, 1995;Eastwood et al, 1998;Lee et al, 2004;Wille et al, 2006;Wu and Chen, 2000), and both of these factors are important for the growth of aneurysmal tissue.…”
mentioning
confidence: 99%
“…Furthermore, the activity of adherent cells is strongly dependent upon mechanical stimuli from the surrounding ECM (Pelham and Wang, 1997;Weyts et al, 2003). More specifically, cyclic deformation (which fibroblasts embedded in an arterial wall are exposed to) is known to influence the proliferation and collagen production rate of fibroblasts (Butt et al, 1995;Eastwood et al, 1998;Lee et al, 2004;Wille et al, 2006;Wu and Chen, 2000), and both of these factors are important for the growth of aneurysmal tissue.…”
mentioning
confidence: 99%
“…In comparison the last cycle (f) in the modified system starts at 0.6 nN, beginning with a rapid increase in force and then continuing along a similar force-strain curve to that observed for the first cycle. 3 For the unmodified system considered in the present study the continuous increase in force occurs due a continuously increasing level of cell compression, from 25 % at the start of the experiment to ~41 % at the end of the experiment, due to z-drift. Additionally, the increasingly negative minimum forces obtained for the unmodified system indicates the cell is being stretched at the upper end of the deformation cycle, suggesting that the passive viscoelastic behavior of the cell begins to dominate the response of the cell at such elevated applied strains (20 % higher than the desired level).…”
Section: A Unmodified Versus Modified Systemmentioning
confidence: 81%
“…4 The data presented are similar to a broad pattern of behavior previously observed for cells cyclically stretched at 0.1 Hz within a collagen matrix. 3 In that study, isolation of the force contribution of the actin cytoskeleton from the total measured force revealed initial viscoelastic force reductions followed by slight force increases to a steady state following 30 minutes of cycling.…”
Section: A Unmodified Versus Modified Systemmentioning
confidence: 90%
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