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KMID : 1377020160130050507
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Tissue Engineering and Regenerative Medicine
2016 Volume.13 No. 5 p.507 ~ p.515
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Bioreactor conditioning of valve scaffolds seeded internally with adult stem cells
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Allison Kennamer
Leslie Sierad
Richard Pascal
Nicholas Rierson
Christopher Albers
Marius Harpa
Ovidiu Cotoi
Lucian Harceaga
Peter Olah
Preda Terezia
Agneta Simionescu
Dan Simionescu
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Abstract
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The goal of this study was to test the hypothesis that stem cells, as a response to valve-specific extracellular matrix ¡°niches¡± and mechanical stimuli, would differentiate into valvular interstitial cells (VICs). Porcine aortic root scaffolds were prepared by decellularization. After verifying that roots exhibited adequate hemodynamics in vitro, we seeded human adipose-derived stem cells (hADSCs) within the interstitium of the cusps and subjected the valves to in vitro pulsatile bioreactor testing in pulmonary pressures and flow conditions. As controls we incubated cell-seeded valves in a rotator device which allowed fluid to flow through the valves ensuring gas and nutrient exchange without subjecting the cusps to significant stress. After 24 days of conditioning, valves were analyzed for cell phenotype using immunohistochemistry for vimentin, alpha-smooth muscle cell actin (SMA) and prolyl-hydroxylase (PHA). Fresh native valves were used as immunohistochemistry controls. Analysis of bioreactor-conditioned valves showed that almost all seeded cells had died and large islands of cell debris were found within each cusp. Remnants of cells were positive for vimentin. Cell seeded controls, which were only rotated slowly to ensure gas and nutrient exchange, maintained about 50% of cells alive; these cells were positive for vimentin and negative for alpha-SMA and PHA, similar to native VICs. These results highlight for the first time the extreme vulnerability of hADSCs to valve-specific mechanical forces and also suggest that careful, progressive mechanical adaptation to valve-specific forces might encourage stem cell differentiation towards the VIC phenotype.
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KEYWORD
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Scaffolds, Heart valves, Stem cells, Bioreactor
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