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Journal Abstract Search

167 related items for PubMed ID: 30518160

  • 1. Microfluidic Deformability Study of an Innovative Blood Analogue Fluid Based on Giant Unilamellar Vesicles.
    Carvalho DAM, Rodrigues ARO, Faustino V, Pinho D, Castanheira EMS, Lima R.
    J Funct Biomater; 2018 Dec 04; 9(4):. PubMed ID: 30518160
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  • 2. In vitro particulate analogue fluids for experimental studies of rheological and hemorheological behavior of glucose-rich RBC suspensions.
    Pinho D, Campo-Deaño L, Lima R, Pinho FT.
    Biomicrofluidics; 2017 Sep 04; 11(5):054105. PubMed ID: 28966701
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  • 3. Preparing giant unilamellar vesicles (GUVs) of complex lipid mixtures on demand: Mixing small unilamellar vesicles of compositionally heterogeneous mixtures.
    Bhatia T, Husen P, Brewer J, Bagatolli LA, Hansen PL, Ipsen JH, Mouritsen OG.
    Biochim Biophys Acta; 2015 Dec 04; 1848(12):3175-80. PubMed ID: 26417657
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  • 5. Trapping and release of giant unilamellar vesicles in microfluidic wells.
    Yamada A, Lee S, Bassereau P, Baroud CN.
    Soft Matter; 2014 Aug 28; 10(32):5878-85. PubMed ID: 24930637
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  • 6. A method of gentle hydration to prepare oil-free giant unilamellar vesicles that can confine enzymatic reactions.
    Shohda K, Takahashi K, Suyama A.
    Biochem Biophys Rep; 2015 Sep 28; 3():76-82. PubMed ID: 29124169
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  • 7. A membrane filtering method for the purification of giant unilamellar vesicles.
    Tamba Y, Terashima H, Yamazaki M.
    Chem Phys Lipids; 2011 Jul 28; 164(5):351-8. PubMed ID: 21524642
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  • 8. Point-to-Plane Nonhomogeneous Electric-Field-Induced Simultaneous Formation of Giant Unilamellar Vesicles (GUVs) and Lipid Tubes.
    Zhu C, Zhang Y, Wang Y, Li Q, Mu W, Han X.
    Chemistry; 2016 Feb 24; 22(9):2906-9. PubMed ID: 26756162
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  • 9. Microfluidic production and characterization of biofunctionalized giant unilamellar vesicles for targeted intracellular cargo delivery.
    Staufer O, Antona S, Zhang D, Csatári J, Schröter M, Janiesch JW, Fabritz S, Berger I, Platzman I, Spatz JP.
    Biomaterials; 2021 Jan 24; 264():120203. PubMed ID: 32987317
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  • 10. Dynamics of giant vesicle assembly from thin lipid films.
    Pazzi J, Subramaniam AB.
    J Colloid Interface Sci; 2024 May 24; 661():1033-1045. PubMed ID: 38335788
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  • 11. Human red blood cell behavior under homogeneous extensional flow in a hyperbolic-shaped microchannel.
    Yaginuma T, Oliveira MS, Lima R, Ishikawa T, Yamaguchi T.
    Biomicrofluidics; 2013 May 24; 7(5):54110. PubMed ID: 24404073
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  • 12. Extrusion of electroformed giant unilamellar vesicles through track-etched membranes.
    Patil YP, Kumbhalkar MD, Jadhav S.
    Chem Phys Lipids; 2012 May 24; 165(4):475-81. PubMed ID: 22155692
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  • 13. Electroformation of Giant Unilamellar Vesicles from Damp Lipid Films with a Focus on Vesicles with High Cholesterol Content.
    Mardešić I, Boban Z, Raguz M.
    Membranes (Basel); 2024 Mar 27; 14(4):. PubMed ID: 38668107
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  • 16. Hydrodynamic filtration in microfluidic channels as size-selection process for giant unilamellar vesicles.
    Woo Y, Heo Y, Shin K, Yi GR.
    J Biomed Nanotechnol; 2013 Apr 27; 9(4):610-4. PubMed ID: 23621019
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  • 17. Electroformation of giant unilamellar vesicles in saline solution.
    Li Q, Wang X, Ma S, Zhang Y, Han X.
    Colloids Surf B Biointerfaces; 2016 Nov 01; 147():368-375. PubMed ID: 27566225
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  • 20. A Microfluidic Deformability Assessment of Pathological Red Blood Cells Flowing in a Hyperbolic Converging Microchannel.
    Faustino V, Rodrigues RO, Pinho D, Costa E, Santos-Silva A, Miranda V, Amaral JS, Lima R.
    Micromachines (Basel); 2019 Sep 25; 10(10):. PubMed ID: 31557932
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