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Pubmed for Handhelds

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Journal Abstract Search

281 related items for PubMed ID: 37253799

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  • 3. High sensitivity detection of extracellular vesicles immune-captured from urine by conventional flow cytometry.
    Campos-Silva C, Suárez H, Jara-Acevedo R, Linares-Espinós E, Martinez-Piñeiro L, Yáñez-Mó M, Valés-Gómez M.
    Sci Rep; 2019 Feb 14; 9(1):2042. PubMed ID: 30765839
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  • 6. Differential proteomics argues against a general role for CD9, CD81 or CD63 in the sorting of proteins into extracellular vesicles.
    Fan Y, Pionneau C, Cocozza F, Boëlle PY, Chardonnet S, Charrin S, Théry C, Zimmermann P, Rubinstein E.
    J Extracell Vesicles; 2023 Aug 14; 12(8):e12352. PubMed ID: 37525398
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  • 7. Increased circulating platelet-derived extracellular vesicles in severe COVID-19 disease.
    Helin T, Palviainen M, Lemponen M, Maaninka K, Siljander P, Joutsi-Korhonen L.
    Platelets; 2024 Dec 14; 35(1):2313362. PubMed ID: 38380806
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  • 8. Small extracellular vesicles have distinct CD81 and CD9 tetraspanin expression profiles in plasma from rheumatoid arthritis patients.
    Rydland A, Heinicke F, Flåm ST, Mjaavatten MD, Lie BA.
    Clin Exp Med; 2023 Oct 14; 23(6):2867-2875. PubMed ID: 36826611
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  • 9. Biogenesis of Extracellular Vesicles during Herpes Simplex Virus 1 Infection: Role of the CD63 Tetraspanin.
    Dogrammatzis C, Deschamps T, Kalamvoki M.
    J Virol; 2019 Jan 15; 93(2):. PubMed ID: 30355691
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  • 10. Single Extracellular VEsicle Nanoscopy.
    Saftics A, Abuelreich S, Romano E, Ghaeli I, Jiang N, Spanos M, Lennon KM, Singh G, Das S, Van Keuren-Jensen K, Jovanovic-Talisman T.
    J Extracell Vesicles; 2023 Jul 15; 12(7):e12346. PubMed ID: 37422692
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  • 11. Acidification effects on isolation of extracellular vesicles from bovine milk.
    Rahman MM, Shimizu K, Yamauchi M, Takase H, Ugawa S, Okada A, Inoshima Y.
    PLoS One; 2019 Jul 15; 14(9):e0222613. PubMed ID: 31525238
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  • 13. Multiparametric profiling of HER2-enriched extracellular vesicles in breast cancer using Single Extracellular VEsicle Nanoscopy.
    Jiang N, Saftics A, Romano E, Ghaeli I, Resto C, Robles V, Das S, Van Keuren-Jensen K, Seewaldt VL, Jovanovic-Talisman T.
    J Nanobiotechnology; 2024 Sep 28; 22(1):589. PubMed ID: 39342336
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  • 14. Tetraspanin heterogeneity of small extracellular vesicles in human biofluids and brain tissue.
    Okada-Tsuchioka M, Kajitani N, Omori W, Kurashige T, Boku S, Takebayashi M.
    Biochem Biophys Res Commun; 2022 Oct 30; 627():146-151. PubMed ID: 36037746
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  • 15. Surface Marker Expression in Small and Medium/Large Mesenchymal Stromal Cell-Derived Extracellular Vesicles in Naive or Apoptotic Condition Using Orthogonal Techniques.
    Skovronova R, Grange C, Dimuccio V, Deregibus MC, Camussi G, Bussolati B.
    Cells; 2021 Oct 29; 10(11):. PubMed ID: 34831170
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  • 16. Extracellular vesicle distribution and localization in skeletal muscle at rest and following disuse atrophy.
    Ismaeel A, Van Pelt DW, Hettinger ZR, Fu X, Richards CI, Butterfield TA, Petrocelli JJ, Vechetti IJ, Confides AL, Drummond MJ, Dupont-Versteegden EE.
    Skelet Muscle; 2023 Mar 10; 13(1):6. PubMed ID: 36895061
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  • 17. Quantification of protein cargo loading into engineered extracellular vesicles at single-vesicle and single-molecule resolution.
    Silva AM, Lázaro-Ibáñez E, Gunnarsson A, Dhande A, Daaboul G, Peacock B, Osteikoetxea X, Salmond N, Friis KP, Shatnyeva O, Dekker N.
    J Extracell Vesicles; 2021 Aug 10; 10(10):e12130. PubMed ID: 34377376
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  • 18. Single vesicle analysis of CD47 association with integrins and tetraspanins on extracellular vesicles released by T lymphoblast and prostate carcinoma cells.
    Kaur S, Livak F, Daaboul G, Anderson L, Roberts DD.
    J Extracell Vesicles; 2022 Sep 10; 11(9):e12265. PubMed ID: 36107309
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  • 19. Lack of involvement of CD63 and CD9 tetraspanins in the extracellular vesicle content delivery process.
    Tognoli ML, Dancourt J, Bonsergent E, Palmulli R, de Jong OG, Van Niel G, Rubinstein E, Vader P, Lavieu G.
    Commun Biol; 2023 May 17; 6(1):532. PubMed ID: 37198427
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  • 20. Spinal cord injury alters microRNA and CD81+ exosome levels in plasma extracellular nanoparticles with neuroinflammatory potential.
    Khan NZ, Cao T, He J, Ritzel RM, Li Y, Henry RJ, Colson C, Stoica BA, Faden AI, Wu J.
    Brain Behav Immun; 2021 Feb 17; 92():165-183. PubMed ID: 33307173
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