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    • 4. 发明申请
    • A METHOD FOR THE DETECTION OF LATERAL FLOW ASSAY AND STRIP AND LASER-INDUCED EPIFLUORESCENCE AND COMPACT SCANNER THEREFOR
    • 检测侧流测定方法及其条纹和激光诱导型EP ENCE AND OR OR OR OR OR OR OR OR OR
    • WO2005066624A1
    • 2005-07-21
    • PCT/KR2005/000016
    • 2005-01-05
    • BIO-MED PHOTONICS CO., LTD.BODITECHMED INC.NAHM, Kie-BongCHOI, Eui-YeolKIM, Jae-Hoon
    • NAHM, Kie-BongCHOI, Eui-YeolKIM, Jae-Hoon
    • G01N30/88
    • G01N33/558G01N21/6428G01N21/645G01N21/8483
    • Disclosed is a lateral flow quantitative assay method capable of quantitatively determining the concentration and analyzing the spatial distribution of a disease marker by employing the principle of the laser-induced fluorescence detection technique, which is based on detecting emitted fluorescence when laser light is focused to the disease marker deposited onto a lateral flow quantitative assay chip. The present invention discloses a strip, a laser-induced epifluorescence detection device and a small scanner for the assay method. The present assay method is advantageous in terms of allowing quantitative point-of-care diagnostics in hospitals, being capable of specifically detecting a disease marker by optimizing a lateral flow assay biochip for diagnosis of a specific disease, allowing more accurate quantitative analysis of analytes, and being capable of simultaneously analyzing several cancer markers, reducing the hook effect and expanding the detection range and accurately measuring concentration of analytes.
    • 公开了一种侧流定量测定方法,其能够通过采用激光诱导荧光检测技术的原理定量测定浓度并分析疾病标记物的空间分布,该方法基于当激光聚焦于 疾病标记物沉积在侧流定量测定芯片上。 本发明公开了一种用于测定方法的条带,激光诱导的落射荧光检测装置和小型扫描仪。 本测定方法在医院中允许定量点护理诊断方面是有利的,能够通过优化用于诊断特定疾病的侧流测定生物芯片来特异性检测疾病标记物,从而允许对分析物进行更准确的定量分析, 并能够同时分析几种癌症标志物,减少钩效应,扩大检测范围,准确测量分析物的浓度。
    • 5. 发明申请
    • AN APPARATUS FOR THE DETECTION OF LASER-INDUCED EPIFLUORESCENCE
    • 用于检测激光诱导的抗生素的装置
    • WO2003085387A1
    • 2003-10-16
    • PCT/KR2003/000666
    • 2003-04-03
    • BIOMED PHOTONICS CO., LTD.NAHM, Kie-Bong
    • NAHM, Kie-Bong
    • G01N21/64
    • G01N21/6452G01N2201/0637
    • The present invention involves an apparatus for detection of laser-induced fluorescence, wherein a sample substrate is made of transparent or semi-translucent materials and the apparatus is equipped with a reflector that reflects the reflected light from the sample and the scattered light of the excitation light; a focusing system that collects light transmitted through the sample; a spatial filter that eliminates noise component from the reflected light from the reflector and/or output from the focusing system; a collimator that converts the light passed through the focusing system to a parallel light; a fluorescence filter that filters only the fluorescence from light transmitted through the collimator; and a photodetector that converts the output light from the fluorescence filter into the electric signal. The present apparatus may further be equipped with an optical feedback system that is placed in the rear of the sample and sends light transmitted through the sample back to the sample. Therefore, the apparatus according to the present invention provides higher light focusing efficiency and improved utility of the excitation light energy by recycling the transmitted light to increase the fluorescence yield, as compared with the conventional system.
    • 本发明涉及一种用于检测激光诱导荧光的装置,其中样品基底由透明或半透明材料制成,并且该装置配备有反射来自样品的反射光和激发的散射光的反射器 光; 收集透过样品的光的聚焦系统; 空间滤波器,其消除来自反射器的反射光的噪声分量和/或从聚焦系统的输出; 将通过聚焦系统的光转换成平行光的准直器; 荧光滤光片,仅透过准直仪的光线过滤荧光; 以及将来自荧光滤波器的输出光转换成电信号的光电检测器。 本装置还可以配备有光学反馈系统,其被放置在样品的后部并将透过样品的光发送回样品。 因此,与常规系统相比,根据本发明的装置提供了更高的聚光效率,并且通过再循环透射光以提高荧光产量来提高激发光能的效用。