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W3183156883 startingPage "5368" @default.
W3183156883 abstract "In this paper, terahertz (THz) pulsed spectroscopy and solid immersion microscopy were applied to study interactions between water vapor and tissue scaffolds-the decellularized bovine pericardium (DBP) collagen matrices, in intact form, cross-linked with the glutaraldehyde or treated by plasma. The water-absorbing properties of biomaterials are prognostic for future cell-mediated reactions of the recipient tissue with the scaffold. Complex dielectric permittivity of DBPs was measured in the 0.4-2.0 THz frequency range, while the samples were first dehydrated and then exposed to water vapor atmosphere with 80.0 ± 5.0% relative humidity. These THz dielectric measurements of DBPs and the results of their weighting allowed to estimate the adsorption time constants, an increase of tissue mass, as well as dispersion of these parameters. During the adsorption process, changes in the DBPs' dielectric permittivity feature an exponential character, with the typical time constant of =8-10 min, the transient process saturation at =30 min, and the tissue mass improvement by =1-3%. No statistically-relevant differences between the measured properties of the intact and treated DBPs were observed. Then, contact angles of wettability were measured for the considered DBPs using a recumbent drop method, while the observed results showed that treatments of DBP somewhat affects their surface energies, polarity, and hydrophilicity. Thus, our studies revealed that glutaraldehyde and plasma treatment overall impact the DBP-water interactions, but the resultant effects appear to be quite complex and comparable to the natural variability of the tissue properties. Such a variability was attributed to the natural heterogeneity of tissues, which was confirmed by the THz microscopy data. Our findings are important for further optimization of the scaffolds' preparation and treatment technologies. They pave the way for THz technology use as a non-invasive diagnosis tool in tissue engineering and regenerative medicine." @default.
W3183156883 created "2021-08-02" @default.
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W3183156883 date "2021-08-02" @default.
W3183156883 modified "2023-10-11" @default.
W3183156883 title "Moisture adsorption by decellularized bovine pericardium collagen matrices studied by terahertz pulsed spectroscopy and solid immersion microscopy" @default.
W3183156883 cites W1913114667 @default.
W3183156883 cites W1963710831 @default.
W3183156883 cites W1978693439 @default.
W3183156883 cites W1981816661 @default.
W3183156883 cites W2005934012 @default.
W3183156883 cites W2007844182 @default.
W3183156883 cites W2039057423 @default.
W3183156883 cites W2099853355 @default.
W3183156883 cites W2126442445 @default.
W3183156883 cites W2141146257 @default.
W3183156883 cites W2150321138 @default.
W3183156883 cites W2286629756 @default.
W3183156883 cites W2293181212 @default.
W3183156883 cites W2295097024 @default.
W3183156883 cites W2298442608 @default.
W3183156883 cites W2402157049 @default.
W3183156883 cites W2586067704 @default.
W3183156883 cites W2587297479 @default.
W3183156883 cites W2736290334 @default.
W3183156883 cites W2767627653 @default.
W3183156883 cites W2788500194 @default.
W3183156883 cites W2789461112 @default.
W3183156883 cites W2789867271 @default.
W3183156883 cites W2792080632 @default.
W3183156883 cites W2801775439 @default.
W3183156883 cites W2801980448 @default.
W3183156883 cites W2805313306 @default.
W3183156883 cites W2885062935 @default.
W3183156883 cites W2889577662 @default.
W3183156883 cites W2900326087 @default.
W3183156883 cites W2901970165 @default.
W3183156883 cites W2911613818 @default.
W3183156883 cites W2913295952 @default.
W3183156883 cites W2919614383 @default.
W3183156883 cites W2923232226 @default.
W3183156883 cites W2924008345 @default.
W3183156883 cites W2948030743 @default.
W3183156883 cites W2949155795 @default.
W3183156883 cites W2950717269 @default.
W3183156883 cites W2970864642 @default.
W3183156883 cites W2980812448 @default.
W3183156883 cites W2981310184 @default.
W3183156883 cites W2981661151 @default.
W3183156883 cites W2994754985 @default.
W3183156883 cites W2996427669 @default.
W3183156883 cites W2996564380 @default.
W3183156883 cites W2998756385 @default.
W3183156883 cites W3001185699 @default.
W3183156883 cites W3004843753 @default.
W3183156883 cites W3008244971 @default.
W3183156883 cites W3011495167 @default.
W3183156883 cites W3017120282 @default.
W3183156883 cites W3028531712 @default.
W3183156883 cites W3035924408 @default.
W3183156883 cites W3036842140 @default.
W3183156883 cites W3048870206 @default.
W3183156883 cites W3049063115 @default.
W3183156883 cites W3049531256 @default.
W3183156883 cites W3080940991 @default.
W3183156883 cites W3083091617 @default.
W3183156883 cites W3093701927 @default.
W3183156883 cites W3106839612 @default.
W3183156883 cites W3109189437 @default.
W3183156883 cites W3119408970 @default.
W3183156883 cites W3119735107 @default.
W3183156883 cites W3125077509 @default.
W3183156883 cites W3132538708 @default.
W3183156883 cites W3143005349 @default.
W3183156883 cites W3144529740 @default.
W3183156883 cites W3152583282 @default.
W3183156883 cites W4288138180 @default.
W3183156883 doi "https://doi.org/10.1364/boe.433216" @default.
W3183156883 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8515980" @default.
W3183156883 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34692188" @default.
W3183156883 hasPublicationYear "2021" @default.
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