绘制微载体设计途径图,实现临床间充质基质细胞扩增的现代化。

IF 14.3 1区 工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Trends in biotechnology Pub Date : 2024-07-01 Epub Date: 2024-02-05 DOI:10.1016/j.tibtech.2024.01.001
Gretel S Major, Vinh K Doan, Alessia Longoni, Marcela M M Bilek, Steven G Wise, Jelena Rnjak-Kovacina, Giselle C Yeo, Khoon S Lim
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引用次数: 0

摘要

微载体扩增系统为经济地大规模扩增供体和患者来源的细胞提供了机会,在革新基于间充质基质细胞(MSC)的临床疗法方面显示出令人兴奋的潜力。商用聚苯乙烯微载体上细胞扩增的可重复性和效率较低,这推动了具有可调物理、机械和细胞诱导特性的新型微载体的发展。这些新型微载体在改善细胞扩增结果方面表现出创新性,尽管它们的生物学特性和与动态培养系统的兼容性有限,但这表明有必要重新调整微载体的设计途径。在开发扩大这些技术规模所需的基础设施方面已取得明显进展;然而,在描述微载体特性对扩增间充质干细胞的生物学命运和功能的整体影响方面仍存在关键挑战。
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Mapping the microcarrier design pathway to modernise clinical mesenchymal stromal cell expansion.

Microcarrier expansion systems show exciting potential to revolutionise mesenchymal stromal cell (MSC)-based clinical therapies by providing an opportunity for economical large-scale expansion of donor- and patient-derived cells. The poor reproducibility and efficiency of cell expansion on commercial polystyrene microcarriers have driven the development of novel microcarriers with tuneable physical, mechanical, and cell-instructive properties. These new microcarriers show innovation toward improving cell expansion outcomes, although their limited biological characterisation and compatibility with dynamic culture systems suggest the need to realign the microcarrier design pathway. Clear headway has been made toward developing infrastructure necessary for scaling up these technologies; however, key challenges remain in characterising the wholistic effects of microcarrier properties on the biological fate and function of expanded MSCs.

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来源期刊
Trends in biotechnology
Trends in biotechnology 工程技术-生物工程与应用微生物
CiteScore
28.60
自引率
1.20%
发文量
198
审稿时长
1 months
期刊介绍: Trends in Biotechnology publishes reviews and perspectives on the applied biological sciences, focusing on useful science applied to, derived from, or inspired by living systems. The major themes that TIBTECH is interested in include: Bioprocessing (biochemical engineering, applied enzymology, industrial biotechnology, biofuels, metabolic engineering) Omics (genome editing, single-cell technologies, bioinformatics, synthetic biology) Materials and devices (bionanotechnology, biomaterials, diagnostics/imaging/detection, soft robotics, biosensors/bioelectronics) Therapeutics (biofabrication, stem cells, tissue engineering and regenerative medicine, antibodies and other protein drugs, drug delivery) Agroenvironment (environmental engineering, bioremediation, genetically modified crops, sustainable development).
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