Department of Mechanical Engineering, Northwestern University, Evanston, Illinois 60208, United States.
Theoretical and Applied Mechanics Program, Northwestern University, Evanston, Illinois 60208, United States.
ACS Nano. 2022 Oct 25;16(10):15653-15680. doi: 10.1021/acsnano.2c05494. Epub 2022 Sep 26.
The emerging field of cell therapy offers the potential to treat and even cure a diverse array of diseases for which existing interventions are inadequate. Recent advances in micro and nanotechnology have added a multitude of single cell analysis methods to our research repertoire. At the same time, techniques have been developed for the precise engineering and manipulation of cells. Together, these methods have aided the understanding of disease pathophysiology, helped formulate corrective interventions at the cellular level, and expanded the spectrum of available cell therapeutic options. This review discusses how micro and nanotechnology have catalyzed the development of cell sorting, cellular engineering, and single cell analysis technologies, which have become essential workflow components in developing cell-based therapeutics. The review focuses on the technologies adopted in research studies and explores the opportunities and challenges in combining the various elements of cell engineering and single cell analysis into the next generation of integrated and automated platforms that can accelerate preclinical studies and translational research.
细胞治疗领域的新兴发展为治疗和治愈各种现有干预手段不足的疾病提供了可能。微纳技术的最新进展为我们的研究增加了多种单细胞分析方法。与此同时,细胞的精确工程和操作技术也得到了发展。这些方法共同帮助我们理解疾病的病理生理学,有助于在细胞水平上制定纠正干预措施,并扩大了可用的细胞治疗选择范围。本文讨论了微纳技术如何促进细胞分选、细胞工程和单细胞分析技术的发展,这些技术已成为开发基于细胞的治疗方法的基本工作流程组成部分。本文重点介绍了在研究中采用的技术,并探讨了将细胞工程和单细胞分析的各个方面结合到下一代集成和自动化平台中的机遇和挑战,这将加速临床前研究和转化研究。