Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions

Hollow alginate microfibers (od = 1.3 mm, id = 0.9 mm, th = 400 µm, L = 3.5 cm) comprised of 2% (w/v) medium molecular weight alginate cross-linked with 0.9 M CaCl(2) were fabricated to model outward diffusion capture by 2D fluorescent microscopy. A two-fold comparison of diffusivity determination b...

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Autores principales: Mobed-Miremadi, Maryam, Djomehri, Sabra, Keralapura, Mallika, McNeil, Melanie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5456451/
https://www.ncbi.nlm.nih.gov/pubmed/28788268
http://dx.doi.org/10.3390/ma7127670
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author Mobed-Miremadi, Maryam
Djomehri, Sabra
Keralapura, Mallika
McNeil, Melanie
author_facet Mobed-Miremadi, Maryam
Djomehri, Sabra
Keralapura, Mallika
McNeil, Melanie
author_sort Mobed-Miremadi, Maryam
collection PubMed
description Hollow alginate microfibers (od = 1.3 mm, id = 0.9 mm, th = 400 µm, L = 3.5 cm) comprised of 2% (w/v) medium molecular weight alginate cross-linked with 0.9 M CaCl(2) were fabricated to model outward diffusion capture by 2D fluorescent microscopy. A two-fold comparison of diffusivity determination based on real-time diffusion of Fluorescein isothiocyanate molecular weight (FITC MW) markers was conducted using a proposed Fickian-based approach in conjunction with a previously established numerical model developed based on spectrophotometric data. Computed empirical/numerical (D(empiricial)/D(numerical)) diffusivities characterized by small standard deviations for the 4-, 70- and 500-kDa markers expressed in m(2)/s are (1.06 × 10(−9) ± 1.96 × 10(−10))/(2.03 × 10(−11)), (5.89 × 10(−11) ± 2.83 × 10(−12))/(4.6 × 10(−12)) and (4.89 × 10(−12) ± 3.94 × 10(−13))/(1.27 × 10(−12)), respectively, with the discrimination between the computation techniques narrowing down as a function of MW. The use of the numerical approach is recommended for fluorescence-based measurements as the standard computational method for effective diffusivity determination until capture rates (minimum 12 fps for the 4-kDa marker) and the use of linear instead of polynomial interpolating functions to model temporal intensity gradients have been proven to minimize the extent of systematic errors associated with the proposed empirical method.
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spelling pubmed-54564512017-07-28 Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions Mobed-Miremadi, Maryam Djomehri, Sabra Keralapura, Mallika McNeil, Melanie Materials (Basel) Article Hollow alginate microfibers (od = 1.3 mm, id = 0.9 mm, th = 400 µm, L = 3.5 cm) comprised of 2% (w/v) medium molecular weight alginate cross-linked with 0.9 M CaCl(2) were fabricated to model outward diffusion capture by 2D fluorescent microscopy. A two-fold comparison of diffusivity determination based on real-time diffusion of Fluorescein isothiocyanate molecular weight (FITC MW) markers was conducted using a proposed Fickian-based approach in conjunction with a previously established numerical model developed based on spectrophotometric data. Computed empirical/numerical (D(empiricial)/D(numerical)) diffusivities characterized by small standard deviations for the 4-, 70- and 500-kDa markers expressed in m(2)/s are (1.06 × 10(−9) ± 1.96 × 10(−10))/(2.03 × 10(−11)), (5.89 × 10(−11) ± 2.83 × 10(−12))/(4.6 × 10(−12)) and (4.89 × 10(−12) ± 3.94 × 10(−13))/(1.27 × 10(−12)), respectively, with the discrimination between the computation techniques narrowing down as a function of MW. The use of the numerical approach is recommended for fluorescence-based measurements as the standard computational method for effective diffusivity determination until capture rates (minimum 12 fps for the 4-kDa marker) and the use of linear instead of polynomial interpolating functions to model temporal intensity gradients have been proven to minimize the extent of systematic errors associated with the proposed empirical method. MDPI 2014-12-01 /pmc/articles/PMC5456451/ /pubmed/28788268 http://dx.doi.org/10.3390/ma7127670 Text en © 2014 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Mobed-Miremadi, Maryam
Djomehri, Sabra
Keralapura, Mallika
McNeil, Melanie
Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title_full Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title_fullStr Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title_full_unstemmed Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title_short Fickian-Based Empirical Approach for Diffusivity Determination in Hollow Alginate-Based Microfibers Using 2D Fluorescence Microscopy and Comparison with Theoretical Predictions
title_sort fickian-based empirical approach for diffusivity determination in hollow alginate-based microfibers using 2d fluorescence microscopy and comparison with theoretical predictions
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5456451/
https://www.ncbi.nlm.nih.gov/pubmed/28788268
http://dx.doi.org/10.3390/ma7127670
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