Fluorescence imaging of macromolecule transport in high molecular weight cut-off microdialysis

When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an infla...

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Published in	Analytical and bioanalytical chemistry Vol. 406; no. 29; pp. 7601 - 7609
Main Authors	Chu, Jiangtao, Koudriavtsev, Vitali, Hjort, Klas, Dahlin, Andreas P.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 2014 Springer Springer Nature B.V
Subjects	Analysis Analytical Chemistry Biochemistry Catheters Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Convective flow Dextran Dextrans Flow distribution Flow pattern Fluid dynamics Fluid flow Fluid mechanics Fluorescence Fluorescence microscopy Fluoroscopic imaging Food Science Hydrodynamics Imaging In vitro methods and tests Inflammation Inflammatory response Laboratory Medicine Leakage Macromolecules Mass transport Medical instruments Membranes Microdialysis Molecular weight Monitoring/Environmental Analysis Qualitative research Research Paper Sampling Test chambers Transport Ultrafiltration Dextran FITC Microdialysis Imaging Fluorescence Membrane High molecular weight cut-off
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Abstract	When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattern compared with dextran 250 kDa, where the leakage pattern was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD membranes and other hollow fiber catheter membranes. Graphical Abstract ᅟ
AbstractList	When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattern compared with dextran 250 kDa, where the leakage pattern was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD membranes and other hollow fiber catheter membranes. When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattern compared with dextran 250 kDa, where the leakage pattern was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD membranes and other hollow fiber catheter membranes. Keywords Microdialysis * High molecular weight cut-off * Membrane * Fluorescence * Imaging * FITC * Dextran When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattem compared with dextran 250 kDa, where the leakage pattem was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD.membranes and other hollow fiber catheter membranes. When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattern compared with dextran 250 kDa, where the leakage pattern was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD membranes and other hollow fiber catheter membranes. Graphical Abstract ᅟ When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently, fluidic mass transport of macromolecules in the perfusate over the membrane may reduce the biological relevance of the sampling and cause an inflammatory response in the test subject. Therefore, a method to investigate the molecular transport of high MWCO MD is presented. An in vitro test chamber was fabricated to facilitate the fluorescent imaging of the MD sampling process, using fluoresceinylisothiocyanate (FITC) dextran and fluorescence microscopy. Qualitative studies on dextran behavior inside and outside the membrane were performed. Semiquantitative results showed clear dextran leakage from both 40 and 250 kDa dextran when 100 kDa MWCO membranes were used. Dextran 40 kDa leaked out with an order of magnitude higher concentration and the leakage pattern resembled more of a convective flow pattern compared with dextran 250 kDa, where the leakage pattern was more diffusion based. No leakage was observed when dextran 500 kDa was used as a colloid osmotic agent. The results in this study suggest that fluorescence imaging could be used as a method for qualitative and semiquantitative molecular transport and fluid dynamics studies of MD membranes and other hollow fiber catheter membranes.
Audience	Academic
Author	Chu, Jiangtao Koudriavtsev, Vitali Hjort, Klas Dahlin, Andreas P.
Author_xml	– sequence: 1 givenname: Jiangtao surname: Chu fullname: Chu, Jiangtao organization: Department of Engineering Sciences, Uppsala University – sequence: 2 givenname: Vitali surname: Koudriavtsev fullname: Koudriavtsev, Vitali organization: Department of Engineering Sciences, Uppsala University – sequence: 3 givenname: Klas surname: Hjort fullname: Hjort, Klas organization: Department of Engineering Sciences, Uppsala University – sequence: 4 givenname: Andreas P. surname: Dahlin fullname: Dahlin, Andreas P. email: Andreas.Dahlin@angstrom.uu.se organization: Department of Engineering Sciences, Uppsala University
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CitedBy_id	crossref_primary_10_3389_fneur_2017_00351 crossref_primary_10_1007_s11064_024_04119_7 crossref_primary_10_1089_neu_2019_6513 crossref_primary_10_1089_neu_2018_5636 crossref_primary_10_1007_s10544_015_0005_3 crossref_primary_10_1007_s00134_015_3930_y crossref_primary_10_1186_s13601_019_0262_y crossref_primary_10_1016_j_xphs_2016_08_016 crossref_primary_10_3389_fneur_2014_00245 crossref_primary_10_3390_pharmaceutics14051051
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Snippet	When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently,... When microdialysis (MD) membrane exceeds molecular weight cut-off (MWCO) of 100 kDa, the fluid mechanics are in the ultrafiltration regime. Consequently,...
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SubjectTerms	Analysis Analytical Chemistry Biochemistry Catheters Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Convective flow Dextran Dextrans Flow distribution Flow pattern Fluid dynamics Fluid flow Fluid mechanics Fluorescence Fluorescence microscopy Fluoroscopic imaging Food Science Hydrodynamics Imaging In vitro methods and tests Inflammation Inflammatory response Laboratory Medicine Leakage Macromolecules Mass transport Medical instruments Membranes Microdialysis Molecular weight Monitoring/Environmental Analysis Qualitative research Research Paper Sampling Test chambers Transport Ultrafiltration
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Title	Fluorescence imaging of macromolecule transport in high molecular weight cut-off microdialysis
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