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MeSH Review:

Fractionation, Field Flow

Prestel, H. et al., Andersson, M. et al., Dreyer, R. et al., Zhao, Y. et al., Arner, E.C. et al., et al.

Cardot, Rasouli, Blanchart, Wahlund, Zattoni, Bouby, Geckeis, Manh, Yun, Dardenne, Schäfer, Walther, Kim, Prestel, Schott, Niessner, Panne,

Welcome! If you are familiar with the subject of this article, you can contribute to this open access knowledge base by deleting incorrect information, restructuring or completely rewriting any text. Read more.

Disease relevance of Fractionation, Field Flow

Dielectrophoretic/gravitational field-flow fractionation (DEP/G-FFF) was used to separate cultured human breast cancer MDA-435 cells from normal blood cells mixed together in a sucrose/dextrose medium [1].

High impact information on Fractionation, Field Flow

The coupling of field-flow fractionation (FFF) and multiangle light scattering (MAIS) detectors is complementary in that the MALS system allows particle characterization when a narrow dispersity particle population is present in the detector [2].
The performance of lift-hyperlayer asymmetrical flow field-flow fractionation using rapid elution conditions was tested through the separation of standard polystyrene latex particles of diameters from 2 to 20 microm [3].
The pH-dependent electroretention behavior of model proteins cytochrome c and ribonuclease A was studied in a hollow fiber arrangement, similar to that used in electrical field-flow fractionation [4].
Analytical scale purification of zirconia colloidal suspension using field programmed sedimentation field flow fractionation [5].
Field programming in frit inlet asymmetrical flow field-flow fractionation/multiangle light scattering: application to sodium hyaluronate [6].

Anatomical context of Fractionation, Field Flow

Motivated by the lateral migration phenomena of fresh and glutaraldehyde-fixed red blood cells in a field flow fractionation (FFF) separation system, we studied the transverse hydrodynamic lift on a slightly flexible cylinder in a two-dimensional channel flow [7].

Associations of Fractionation, Field Flow with chemical compounds

Separation of polystyrene microbeads using dielectrophoretic/gravitational field-flow-fractionation [8].
Size- and shape-dependent separation of TiO2 colloidal sub-populations with gravitational field flow fractionation [9].
Compositional heterogeneity in parenteral lipid emulsions after sedimentation field flow fractionation [10].
Laser-induced breakdown detection combined with asymmetrical flow field-flow fractionation: application to iron oxi/hydroxide colloid characterization [11].
Sedimentation field flow fractionation (SF3), a relatively new instrumentation methodology for separating particles according to size, has been used to monitor changes in vesicle size during the formation of fused unilamellar vesicles of dipalmitoylphosphatidylcholine [12].

Gene context of Fractionation, Field Flow

The value of density of the oil droplets was changed in the SdFFF data, until best agreement with the PCS values was achieved [13].
Asymmetrical flow field-flow fractionation (AF4) was applied to characterize aquatic colloids from biological sewage plants and to infer information of colloidal loads, sources, and sinks within the plants, resp. the colloidal interaction with the aqueous phase and the sewage sludge [14].
The use of sedimentation field flow fractionation and photon correlation spectroscopy in the characterization of casein micelles [15].
The effect of interleukin-1 (IL-1) on the size distribution of cartilage proteoglycans was studied using sedimentation field flow fractionation (SdFFF), a rapid, high-resolution technique for the separation of proteoglycan monomers and aggregates [16].

Analytical, diagnostic and therapeutic context of Fractionation, Field Flow

Asymmetrical flow field-flow fractionation (flow FFF) was connected to multiangle light scattering (MALS) and refractive index (RI) detectors for characterization of the molar mass distribution and molecular radius of a cellulose derivative, ethylhydroxyethyl cellulose (EHEC) [17].
TiO2 colloidal suspension polydispersity analysed with sedimentation field flow fractionation and electron microscopy [18].

References

Cell separation on microfabricated electrodes using dielectrophoretic/gravitational field-flow fractionation. Yang, J., Huang, Y., Wang, X.B., Becker, F.F., Gascoyne, P.R. Anal. Chem. (1999) [Pubmed]
Accuracy estimation of multiangle light scattering detectors utilized for polydisperse particle characterization with field-flow fractionation techniques: a simulation study. Schure, M.R., Palkar, S.A. Anal. Chem. (2002) [Pubmed]
Size separation of supermicrometer particles in asymmetrical flow field-flow fractionation. Flow conditions for rapid elution. Wahlund, K.G., Zattoni, A. Anal. Chem. (2002) [Pubmed]
pH-regulated electroretention chromatography: towards a new method for the separation of proteins according to their isoelectric points. Korlach, J., Hagedorn, R., Fuhr, G. Electrophoresis (1998) [Pubmed]
Analytical scale purification of zirconia colloidal suspension using field programmed sedimentation field flow fractionation. Van-Quynh, A., Blanchart, P., Battu, S., Clédat, D., Cardot, P. Journal of chromatography. A. (2006) [Pubmed]
Field programming in frit inlet asymmetrical flow field-flow fractionation/multiangle light scattering: application to sodium hyaluronate. Lee, H., Kim, H., Moon, M.H. Journal of chromatography. A. (2005) [Pubmed]
Finite element analysis of the lift on a slightly deformable and freely rotating and translating cylinder in two-dimensional channel flow. Zhao, Y., Sharp, M.K. Journal of biomechanical engineering. (1999) [Pubmed]
Separation of polystyrene microbeads using dielectrophoretic/gravitational field-flow-fractionation. Wang, X.B., Vykoukal, J., Becker, F.F., Gascoyne, P.R. Biophys. J. (1998) [Pubmed]
Size- and shape-dependent separation of TiO2 colloidal sub-populations with gravitational field flow fractionation. Rasouli, S., Blanchart, P., Clédat, D., Cardo, P.J. Journal of chromatography. A. (2001) [Pubmed]
Compositional heterogeneity in parenteral lipid emulsions after sedimentation field flow fractionation. Venkatesh, S., Li, J., Caldwell, K.D., Anderson, B.D. Journal of pharmaceutical sciences. (1998) [Pubmed]
Laser-induced breakdown detection combined with asymmetrical flow field-flow fractionation: application to iron oxi/hydroxide colloid characterization. Bouby, M., Geckeis, H., Manh, T.N., Yun, J.I., Dardenne, K., Schäfer, T., Walther, C., Kim, J.I. Journal of chromatography. A. (2004) [Pubmed]
Sedimentation field flow fractionation of fused unilamellar vesicles: comparison with electron microscopy and gel filtration. Dreyer, R., Hawrot, E., Sartorelli, A.C., Constantinides, P.P. Anal. Biochem. (1988) [Pubmed]
Measurements of size distribution and density of a pharmaceutical fat emulsion, using field-programmed sedimentation field-flow fractionation (SdFFF). Levin, S., Klausner, E. Pharm. Res. (1995) [Pubmed]
Characterization of sewage plant hydrocolloids using asymmetrical flow field-flow fractionation and ICP-mass spectrometry. Prestel, H., Schott, L., Niessner, R., Panne, U. Water Res. (2005) [Pubmed]
The use of sedimentation field flow fractionation and photon correlation spectroscopy in the characterization of casein micelles. Udabage, P., McKinnon, I.R., Augustin, M.A. J. Dairy Res. (2003) [Pubmed]
Effect of interleukin-1 on the size distribution of cartilage proteoglycans as determined by sedimentation field flow fractionation. Arner, E.C., Kirkland, J.J. Biochim. Biophys. Acta (1989) [Pubmed]
Ultrahigh molar mass component detected in ethylhydroxyethyl cellulose by asymmetrical flow field-flow fractionation coupled to multiangle light scattering. Andersson, M., Wittgren, B., Wahlund, K.G. Anal. Chem. (2001) [Pubmed]
TiO2 colloidal suspension polydispersity analysed with sedimentation field flow fractionation and electron microscopy. Cardot, P.J., Rasouli, S., Blanchart, P. Journal of chromatography. A. (2001) [Pubmed]

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