In situ Raman-analysis of supercritical carbon dioxide drying applied to acellular esophageal matrix

In situ Raman-analysis of supercritical carbon dioxide drying applied to acellular esophageal matrix

[Display omitted] •Supercritical drying of decellularized tissue was analyzed by Raman spectroscopy.•Removal of water was quantified by considering ratios of Raman signals.•Removal of ethanol was assessable from the evolution of the Raman signal. Supercritical (SC) carbon dioxide (CO2) drying has sh...

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Bibliographic Details
Published in:The Journal of supercritical fluids Vol. 128; pp. 194 - 199
Main Authors: Michelino, Filippo, Gebrekidan, Medhanie Tesfay, Zambon, Alessandro, Vetralla, Massimo, Braeuer, Andreas Siegfried, Spilimbergo, Sara
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2017
Subjects:
Decellularized esophagus
Raman spectroscopy
Supercritical drying
Tissue engineering
Raman spectroscopy
Tissue engineering
Supercritical drying
Decellularized esophagus
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Summary:[Display omitted] •Supercritical drying of decellularized tissue was analyzed by Raman spectroscopy.•Removal of water was quantified by considering ratios of Raman signals.•Removal of ethanol was assessable from the evolution of the Raman signal. Supercritical (SC) carbon dioxide (CO2) drying has shown potential interest on the production of dry decellularized extracellular matrices for tissue engineering. This work explores the feasibility of Raman spectroscopy as in situ analysis for the SC-CO2 drying monitoring of a decellularized esophagus. Esophagus tissue was dried within an optical accessible high pressure CO2 dryer while the Raman signals of the wet tissue were excited at 785nm. Two different experimental procedures were explored: i) single step process (SC-CO2 drying alone) and ii) two steps process (water exchange by ethanol followed by SC-CO2 drying). The quantification of the removal of water or ethanol from the tissue during the drying was obtained evaluating the variation of the Raman signal intensity ratio during time. The measurement of water or ethanol removal curves during the drying process can be easily/successfully exploited for the in situ monitoring of the drying process of a general matrix/tissue.
ISSN:0896-8446
1872-8162
DOI:10.1016/j.supflu.2017.05.022