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Journal Abstract Search

271 related items for PubMed ID: 30740752

  • 1. On the design of deterministic dielectrophoresis for continuous separation of circulating tumor cells from peripheral blood cells.
    Aghaamoo M, Aghilinejad A, Chen X, Xu J.
    Electrophoresis; 2019 May; 40(10):1486-1493. PubMed ID: 30740752
    [Abstract] [Full Text] [Related]

  • 2. Separation of circulating tumor cells from blood using dielectrophoretic DLD manipulation.
    Rahmati M, Chen X.
    Biomed Microdevices; 2021 Sep 28; 23(4):49. PubMed ID: 34581876
    [Abstract] [Full Text] [Related]

  • 3. Highlighting the uniqueness in dielectrophoretic enrichment of circulating tumor cells.
    S Iliescu F, Sim WJ, Heidari H, P Poenar D, Miao J, Taylor HK, Iliescu C.
    Electrophoresis; 2019 May 28; 40(10):1457-1477. PubMed ID: 30676660
    [Abstract] [Full Text] [Related]

  • 4. Enrichment of prostate cancer cells from blood cells with a hybrid dielectrophoresis and immunocapture microfluidic system.
    Huang C, Liu H, Bander NH, Kirby BJ.
    Biomed Microdevices; 2013 Dec 28; 15(6):941-8. PubMed ID: 23807279
    [Abstract] [Full Text] [Related]

  • 5. Label-free enrichment of MCF7 breast cancer cells from leukocytes using continuous flow dielectrophoresis.
    Çağlayan Arslan Z, Demircan Yalçın Y, Külah H.
    Electrophoresis; 2022 Jul 28; 43(13-14):1531-1544. PubMed ID: 35318696
    [Abstract] [Full Text] [Related]

  • 6. Isolation of rare cancer cells from blood cells using dielectrophoresis.
    Salmanzadeh A, Sano MB, Shafiee H, Stremler MA, Davalos RV.
    Annu Int Conf IEEE Eng Med Biol Soc; 2012 Jul 28; 2012():590-3. PubMed ID: 23365961
    [Abstract] [Full Text] [Related]

  • 7. Continuous separation of breast cancer cells from blood samples using multi-orifice flow fractionation (MOFF) and dielectrophoresis (DEP).
    Moon HS, Kwon K, Kim SI, Han H, Sohn J, Lee S, Jung HI.
    Lab Chip; 2011 Mar 21; 11(6):1118-25. PubMed ID: 21298159
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  • 13. Dual frequency dielectrophoresis with interdigitated sidewall electrodes for microfluidic flow-through separation of beads and cells.
    Wang L, Lu J, Marchenko SA, Monuki ES, Flanagan LA, Lee AP.
    Electrophoresis; 2009 Mar 21; 30(5):782-91. PubMed ID: 19197906
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  • 14. Effects of electrothermal vortices on insulator-based dielectrophoresis for circulating tumor cell separation.
    Aghilinejad A, Aghaamoo M, Chen X, Xu J.
    Electrophoresis; 2018 Mar 21; 39(5-6):869-877. PubMed ID: 28975645
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  • 15. Enrichment of circulating tumor cells in tumor-bearing mouse blood by a deterministic lateral displacement microfluidic device.
    Okano H, Konishi T, Suzuki T, Suzuki T, Ariyasu S, Aoki S, Abe R, Hayase M.
    Biomed Microdevices; 2015 Mar 21; 17(3):9964. PubMed ID: 26002773
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  • 16. Precise Size-Based Cell Separation via the Coupling of Inertial Microfluidics and Deterministic Lateral Displacement.
    Xiang N, Wang J, Li Q, Han Y, Huang D, Ni Z.
    Anal Chem; 2019 Aug 06; 91(15):10328-10334. PubMed ID: 31304740
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  • 17. Antibody-free isolation of rare cancer cells from blood based on 3D lateral dielectrophoresis.
    Cheng IF, Huang WL, Chen TY, Liu CW, Lin YD, Su WC.
    Lab Chip; 2015 Jul 21; 15(14):2950-9. PubMed ID: 26085231
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  • 19. Three-dimensional lab-on-a-foil device for dielectrophoretic separation of cancer cells.
    Wu M, Gao Y, Luan Q, Papautsky I, Chen X, Xu J.
    Electrophoresis; 2023 Dec 21; 44(23):1802-1809. PubMed ID: 37026613
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  • 20. Interdigitated comb-like electrodes for continuous separation of malignant cells from blood using dielectrophoresis.
    Alazzam A, Stiharu I, Bhat R, Meguerditchian AN.
    Electrophoresis; 2011 Jun 21; 32(11):1327-36. PubMed ID: 21500214
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