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W2811389613 abstract "Cryopreservation is of significance in areas including tissue engineering, regenerative medicine, and organ transplantation. We investigated endothelial cell attachment and membrane integrity in a microvasculature model at high subzero temperatures in the presence of extracellular ice. The results show that in the presence of heterogeneous extracellular ice formation induced by ice nucleating bacteria, endothelial cells showed improved attachment at temperature minimums of −6 °C. However, as temperatures decreased below −6 °C, endothelial cells required additional cryoprotectants. The glucose analog, 3-O-methyl-d-glucose (3-OMG), rescued cell attachment optimally at 100 mM (cells/lane was 34, as compared to 36 for controls), while 2% and 5% polyethylene glycol (PEG) were equally effective at −10 °C (88% and 86.4% intact membranes). Finally, endothelialized microchannels were stored for 72 h at −10 °C in a preservation solution consisting of the University of Wisconsin (UW) solution, Snomax, 3-OMG, PEG, glycerol, and trehalose, whereby cell attachment was not significantly different from unfrozen controls, although membrane integrity was compromised. These findings enrich our knowledge about the direct impact of extracellular ice on endothelial cells. Specifically, we show that, by controlling the ice nucleation temperature and uniformity, we can preserve cell attachment and membrane integrity. Further, we demonstrate the strength of leveraging endothelialized microchannels to fuel discoveries in cryopreservation of thick tissues and solid organs." @default.
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W2811389613 date "2018-06-26" @default.
W2811389613 modified "2023-10-17" @default.
W2811389613 title "Effect of Ice Nucleation and Cryoprotectants during High Subzero-Preservation in Endothelialized Microchannels" @default.
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W2811389613 doi "https://doi.org/10.1021/acsbiomaterials.8b00648" @default.
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