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PUBMED FOR HANDHELDS

Journal Abstract Search


192 related items for PubMed ID: 24404073

  • 1. 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; 7(5):54110. PubMed ID: 24404073
    [Abstract] [Full Text] [Related]

  • 2. Extensional flow-based assessment of red blood cell deformability using hyperbolic converging microchannel.
    Lee SS, Yim Y, Ahn KH, Lee SJ.
    Biomed Microdevices; 2009 Oct; 11(5):1021-7. PubMed ID: 19434498
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  • 4. Red blood cells tracking and cell-free layer formation in a microchannel with hyperbolic contraction: A CFD model validation.
    Gracka M, Lima R, Miranda JM, Student S, Melka B, Ostrowski Z.
    Comput Methods Programs Biomed; 2022 Nov; 226():107117. PubMed ID: 36122496
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  • 5. Deformation of leukaemia cell lines in hyperbolic microchannels: investigating the role of shear and extensional components.
    Piergiovanni M, Galli V, Holzner G, Stavrakis S, DeMello A, Dubini G.
    Lab Chip; 2020 Jul 14; 20(14):2539-2548. PubMed ID: 32567621
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  • 6. Extensional-Flow Impedance Cytometer for Contactless and Optics-Free Erythrocyte Deformability Analysis.
    Reale R, De Ninno A, Nepi T, Bisegna P, Caselli F.
    IEEE Trans Biomed Eng; 2023 Feb 14; 70(2):565-572. PubMed ID: 35939464
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  • 7. Microconfined flow behavior of red blood cells.
    Tomaiuolo G, Lanotte L, D'Apolito R, Cassinese A, Guido S.
    Med Eng Phys; 2016 Jan 14; 38(1):11-6. PubMed ID: 26071649
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  • 10. 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 14; 11(5):054105. PubMed ID: 28966701
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  • 11. Deformability and intrinsic material properties of neonatal red blood cells.
    Linderkamp O, Nash GB, Wu PY, Meiselman HJ.
    Blood; 1986 May 14; 67(5):1244-50. PubMed ID: 3697506
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  • 13. 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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  • 15. Cell-free layer development and spatial organization of healthy and rigid red blood cells in a microfluidic bifurcation.
    Rashidi Y, Aouane O, Darras A, John T, Harting J, Wagner C, Recktenwald SM.
    Soft Matter; 2023 Aug 23; 19(33):6255-6266. PubMed ID: 37522517
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  • 16. Deformability measurement of red blood cells using a microfluidic channel array and an air cavity in a driving syringe with high throughput and precise detection of subpopulations.
    Kang YJ, Ha YR, Lee SJ.
    Analyst; 2016 Jan 07; 141(1):319-30. PubMed ID: 26616556
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  • 18. A system for the high-throughput measurement of the shear modulus distribution of human red blood cells.
    Saadat A, Huyke DA, Oyarzun DI, Escobar PV, Øvreeide IH, Shaqfeh ESG, Santiago JG.
    Lab Chip; 2020 Aug 21; 20(16):2927-2936. PubMed ID: 32648561
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  • 19. Deformation of human red blood cells in extensional flow through a hyperbolic contraction.
    Faghih MM, Sharp MK.
    Biomech Model Mechanobiol; 2020 Feb 21; 19(1):251-261. PubMed ID: 31388870
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  • 20. Characterization of red blood cell deformability change during blood storage.
    Zheng Y, Chen J, Cui T, Shehata N, Wang C, Sun Y.
    Lab Chip; 2014 Feb 07; 14(3):577-83. PubMed ID: 24296983
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