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Journal Abstract Search

142 related items for PubMed ID: 38354507

  • 1. Separation of high-purity plasma extracellular vesicles for investigating proteomic signatures in diabetic retinopathy.
    Wang S, Xia K, Zhu X, Liu Y, Sun L, Zhu Q.
    J Chromatogr A; 2024 Mar 15; 1718():464700. PubMed ID: 38354507
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  • 2. Highly Selective Purification of Plasma Extracellular Vesicles Using Titanium Dioxide Microparticles for Depicting the Metabolic Signatures of Diabetic Retinopathy.
    Pan Y, Chen T, Zhang Q, Cao L, Wang S, Cai J, Xu J, Shi M, Ruan L, Zhu Q, Hu L.
    Anal Chem; 2022 Oct 18; 94(41):14099-14108. PubMed ID: 36197877
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  • 5. Density-based lipoprotein depletion improves extracellular vesicle isolation and functional analysis.
    Merij LB, da Silva LR, Palhinha L, Gomes MT, Dib PRB, Martins-Gonçalves R, Toledo-Quiroga K, Raposo-Nunes MA, Andrade FB, de Toledo Martins S, Nascimento ALR, Rocha VN, Alves LR, Bozza PT, de Oliveira Trugilho MR, Hottz ED.
    J Thromb Haemost; 2024 May 18; 22(5):1372-1388. PubMed ID: 38278418
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  • 6. Optimized AF4 combined with density cushion ultracentrifugation enables profiling of high-purity human blood extracellular vesicles.
    Hu L, Zheng X, Zhou M, Wang J, Tong L, Dong M, Xu T, Li Z.
    J Extracell Vesicles; 2024 Jul 18; 13(7):e12470. PubMed ID: 39001700
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  • 7. Proteomic Analysis of Plasma sEVs Reveals That TNFAIP8 Is a New Biomarker of Cell Proliferation in Diabetic Retinopathy.
    Xiao J, Zhang H, Yang F, Xiao M, Zhou L, Yu R, Shao X, Ea V, Su L, Zhang X, Li X.
    J Proteome Res; 2021 Mar 05; 20(3):1770-1782. PubMed ID: 33594895
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  • 8. Comprehensive characterization of human brain-derived extracellular vesicles using multiple isolation methods: Implications for diagnostic and therapeutic applications.
    Zhang Z, Yu K, You Y, Jiang P, Wu Z, DeTure MA, Dickson DW, Ikezu S, Peng J, Ikezu T.
    J Extracell Vesicles; 2023 Aug 05; 12(8):e12358. PubMed ID: 37563857
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  • 10. Assessment of Extracellular Vesicles Purity Using Proteomic Standards.
    Wang T, Anderson KW, Turko IV.
    Anal Chem; 2017 Oct 17; 89(20):11070-11075. PubMed ID: 28949504
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  • 11. Two-step magnetic bead-based (2MBB) techniques for immunocapture of extracellular vesicles and quantification of microRNAs for cardiovascular diseases: A pilot study.
    Chen S, Shiesh SC, Lee GB, Chen C.
    PLoS One; 2020 Oct 17; 15(2):e0229610. PubMed ID: 32101583
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  • 13. An Isolation System to Collect High Quality and Purity Extracellular Vesicles from Serum.
    Yang J, Gao X, Xing X, Huang H, Tang Q, Ma S, Xu X, Liang C, Li M, Liao L, Tian W.
    Int J Nanomedicine; 2021 Oct 17; 16():6681-6692. PubMed ID: 34616151
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  • 16. Extracellular Vesicle Separation Techniques Impact Results from Human Blood Samples: Considerations for Diagnostic Applications.
    Tzaridis T, Bachurski D, Liu S, Surmann K, Babatz F, Gesell Salazar M, Völker U, Hallek M, Herrlinger U, Vorberg I, Coch C, Reiners KS, Hartmann G.
    Int J Mol Sci; 2021 Aug 26; 22(17):. PubMed ID: 34502122
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  • 19. Proteomic analysis of extracellular vesicles secreted by primary human epithelial endometrial cells reveals key proteins related to embryo implantation.
    Segura-Benítez M, Carbajo-García MC, Corachán A, Faus A, Pellicer A, Ferrero H.
    Reprod Biol Endocrinol; 2022 Jan 03; 20(1):3. PubMed ID: 34980157
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  • 20. Isolation of Extracellular Vesicles Using Titanium Dioxide Microspheres.
    Santiago VF, Rosa-Fernandes L, Macedo-da-Silva J, Angeli CB, Mule SN, Marinho CRF, Torrecilhas AC, Marie SNK, Palmisano G.
    Adv Exp Med Biol; 2024 Jan 03; 1443():1-22. PubMed ID: 38409413
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