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Journal Abstract Search

432 related items for PubMed ID: 27032950

  • 21. Design and development of a new ambr250® bioreactor vessel for improved cell and gene therapy applications.
    Rotondi M, Grace N, Betts J, Bargh N, Costariol E, Zoro B, Hewitt CJ, Nienow AW, Rafiq QA.
    Biotechnol Lett; 2021 May; 43(5):1103-1116. PubMed ID: 33528693
    [Abstract] [Full Text] [Related]

  • 22. A microcarrier-based cultivation system for expansion of primary mesenchymal stem cells.
    Frauenschuh S, Reichmann E, Ibold Y, Goetz PM, Sittinger M, Ringe J.
    Biotechnol Prog; 2007 May; 23(1):187-93. PubMed ID: 17269687
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  • 23. Expansion strategies for human mesenchymal stromal cells culture under xeno-free conditions.
    Tozetti PA, Caruso SR, Mizukami A, Fernandes TR, da Silva FB, Traina F, Covas DT, Orellana MD, Swiech K.
    Biotechnol Prog; 2017 Sep; 33(5):1358-1367. PubMed ID: 28486779
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  • 25. Facile bead-to-bead cell-transfer method for serial subculture and large-scale expansion of human mesenchymal stem cells in bioreactors.
    Chen S, Sato Y, Tada Y, Suzuki Y, Takahashi R, Okanojo M, Nakashima K.
    Stem Cells Transl Med; 2021 Sep; 10(9):1329-1342. PubMed ID: 34008349
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  • 27. Bioprocess integration for human mesenchymal stem cells: From up to downstream processing scale-up to cell proteome characterization.
    Cunha B, Aguiar T, Carvalho SB, Silva MM, Gomes RA, Carrondo MJT, Gomes-Alves P, Peixoto C, Serra M, Alves PM.
    J Biotechnol; 2017 Apr 20; 248():87-98. PubMed ID: 28174039
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  • 29. Aggregation of Culture Expanded Human Mesenchymal Stem Cells in Microcarrier-based Bioreactor.
    Yuan X, Tsai AC, Farrance I, Rowley J, Ma T.
    Biochem Eng J; 2018 Mar 15; 131():39-46. PubMed ID: 29736144
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  • 30. An Integrated Bioprocess for the Expansion and Chondrogenic Priming of Human Periosteum-Derived Progenitor Cells in Suspension Bioreactors.
    Gupta P, Geris L, Luyten FP, Papantoniou I.
    Biotechnol J; 2018 Feb 15; 13(2):. PubMed ID: 28987025
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  • 31. Facile engineering of xeno-free microcarriers for the scalable cultivation of human pluripotent stem cells in stirred suspension.
    Fan Y, Hsiung M, Cheng C, Tzanakakis ES.
    Tissue Eng Part A; 2014 Feb 15; 20(3-4):588-99. PubMed ID: 24098972
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  • 32. Clinical-scale expansion of adipose-derived stromal cells starting from stromal vascular fraction in a single-use bioreactor: proof of concept for autologous applications.
    Gadelorge M, Bourdens M, Espagnolle N, Bardiaux C, Murrell J, Savary L, Ribaud S, Chaput B, Sensebé L.
    J Tissue Eng Regen Med; 2018 Jan 15; 12(1):129-141. PubMed ID: 27943660
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  • 33. Scalable manufacturing of gene-modified human mesenchymal stromal cells with microcarriers in spinner flasks.
    Couto PS, Stibbs DJ, Rotondi MC, Takeuchi Y, Rafiq QA.
    Appl Microbiol Biotechnol; 2023 Sep 15; 107(18):5669-5685. PubMed ID: 37470820
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  • 34. [Cultivation of human mesenchymal stem cells on macroporous CultiSpher G microcarriers].
    Wu QF, Wu CT, Dong B, Wang LS.
    Zhongguo Shi Yan Xue Ye Xue Za Zhi; 2003 Feb 15; 11(1):15-21. PubMed ID: 12667282
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  • 35. Modulation of mesenchymal stem cell actin organization on conventional microcarriers for proliferation and differentiation in stirred bioreactors.
    Sart S, Errachid A, Schneider YJ, Agathos SN.
    J Tissue Eng Regen Med; 2013 Jul 15; 7(7):537-51. PubMed ID: 22383400
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  • 36. Large-Scale Expansion of Umbilical Cord Mesenchymal Stem Cells with Microcarrier Tablets in Bioreactor.
    Xu H, Cong Z, Zhang Y, Liu W, Yan X, Du Y.
    Methods Mol Biol; 2022 Jul 15; 2436():113-125. PubMed ID: 34519979
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  • 39. Biofunctionalization of Cellulose Microcarriers Using a Carbohydrate Binding Module Linked with Fibroblast Growth Factor for the Expansion of Human Umbilical Mesenchymal Stromal Cells in Stirred Suspension Bioreactors.
    Abraham BD, Gysel E, Kallos MS, Hu J.
    ACS Appl Bio Mater; 2024 Sep 16; 7(9):5956-5964. PubMed ID: 39190068
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