分离(统计)
磁选
电流(流体)
生化工程
纳米技术
计算机科学
工程类
材料科学
电气工程
机器学习
冶金
作者
Karla Mercedes Paz González,Linh Nguyen T. Tran,Poornima Ramesh Iyer,Xian Wu,Hyeon Choe,Bahareh Rezaei,Shahriar Mostufa,Ebrahim Azizi,Ioannis Karampelas,Minxiang Zeng,Kai Wu,Jeffrey J. Chalmers,Jenifer Gómez‐Pastora
出处
期刊:Lab on a Chip
[Royal Society of Chemistry]
日期:2025-01-01
卷期号:25 (11): 2521-2565
被引量:12
摘要
cells per hour. However, there are many different approaches that can be used for blood magnetic separations, with the selection depending on the sample properties, target cells and purpose of the isolated fractions. This critical review examines recent advances (2014-2025) in magnetic techniques for separating blood cells. Both labeled and label-free approaches are analyzed, with a focus on their performance and impact on cellular function, highlighting their strengths, limitations, and potential for future development in clinical research applications. Among the labeled approaches, positive selection methods have been shown to achieve high purities for various cell types; nevertheless, these techniques might affect cell functionality after separation. Therefore, negative selection can be used for the separation of cells when cellular functionality needs to be preserved. Moreover, label-free techniques, primarily focused on red blood cells (RBCs) separation, can be used for blood cell isolation by leveraging the cells' intrinsic magnetic properties. These methods showed potential for continuous, high-purity RBCs separation, with some devices achieving over 95% recovery and purity. This work aims to provide valuable guidelines for the appropriate selection of magnetic technologies for blood separations to accomplish the successful implementation of magnetophoresis in clinical practice.
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