An integrated magnetic spectrometer for multiplexed biosensing

Constantine Sideris, A. Hajimiri
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引用次数: 13

Abstract

There is high demand for at-home and point-of-care medical diagnostic tools as a step toward fast, low-cost, personal medicine. Integrated biosensors based on magnetic labeling schemes offer higher sensitivity and lower cost due to the elimination of the optics and have emerged as a viable alternative to assays that use fluorescence for biomolecular detection. For instance, the frequency-shift sensor of [1] demonstrates a high-sensitivity example of a cost-effective magnetic particle biosensor in CMOS with no need for external magnets. Despite their cost and sensitivity advantages, magnetic biosensors reported so far suffer from a lack of multi-probe diagnostics similar to fluorescent-based approaches that use multiple colors for simultaneous single-site multiple target differentiation. This is primarily because current approaches measure changes in the magnetic susceptibility, χ, either at low frequencies [2,3] or at a fixed RF frequency [1]. Consequently, these approaches do not provide a clear path for differentiating between a large number of small magnetic particles vs. a smaller number of larger size particles with similar magnetic content.
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用于多路生物传感的集成磁谱仪
作为向快速、低成本、个性化医疗迈进的一步,对家庭和护理点医疗诊断工具的需求很高。由于消除了光学器件,基于磁标记方案的集成生物传感器提供了更高的灵敏度和更低的成本,并且已经成为使用荧光进行生物分子检测的测定的可行替代方案。例如,[1]的移频传感器展示了一种高灵敏度的高性价比的CMOS磁颗粒生物传感器,不需要外部磁铁。尽管磁性生物传感器具有成本和灵敏度方面的优势,但迄今为止报道的磁性生物传感器缺乏类似于基于荧光的方法的多探针诊断,这种方法使用多种颜色同时进行单位点多靶点分化。这主要是因为目前的方法测量磁化率χ的变化,无论是在低频[2,3]还是在固定的射频频率[1]。因此,这些方法不能为区分大量小磁性颗粒与具有相似磁性含量的少量大尺寸颗粒提供明确的途径。
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