Evaluation of Cell Velocity Regulation in a Microfabricated Adhesion-Based Cell Separation Device

J. Miwa, Y. Suzuki, N. Kasagi
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引用次数: 2

Abstract

This paper reports the characterization of adhesion-based cell velocity regulation in a prototype microfabricated cell separation device for regenerative medicine. The principle of cell sorting is based on immunoreaction for accurate recognition of target stem cells. Target-cell specific antibody is immobilized on the micro channel wall to form a selectively adhesive surface, where a new class of functionalized parylene is used as the surface material for antibody immobilization. The flowing velocity of sample cells in a prototype microfabricated cell separation column is examined under the microscope. The measurement results show that the cell velocity is reduced by 40% due to the effect of antigen/antibody interaction
微制造黏附细胞分离装置中细胞速度调节的评价
本文报道了一种用于再生医学的基于黏附的细胞速度调节的原型微制造细胞分离装置的特性。细胞分选的原理是基于免疫反应来准确识别目标干细胞。将靶细胞特异性抗体固定在微通道壁上形成选择性粘附表面,其中使用一类新型功能化聚对二甲苯作为抗体固定的表面材料。在显微镜下观察了样品细胞在原型微加工细胞分离柱中的流动速度。测量结果表明,由于抗原/抗体相互作用的影响,细胞速度降低了40%
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