Method for measuring microparticles, quantitative measuring method therefor and instrument for measuring microparticles
First Claim
1. A microparticle measuring method for counting fluorescent microparticles to be analyzed, comprising the steps of:
- leading fluorescent microparticles contained in a liquid to a narrow flow path and introducing said fluorescent microparticles substantially one after another into a position irradiated with excitation light in said narrow flow path said position being irradiated with excitation light for generating fluorescence from said fluorescent microparticles;
orleading an excitation light beam for generating fluorescence and having a width sufficiently narrow for where substantially one fluorescent microparticle among fluorescent microparticles bound to a solid phase can exist, to a position of said fluorescent microparticle while sweeping the beam successively;
irradiating said fluorescent microparticles contained in the liquid or said fluorescent microparticles bound to the solid phase with the excitation light;
taking out signal pulses produced by detection of a single photon of fluorescence generated by the irradiation with said excitation light;
counting the signal pulses with N (N≧
2) counters, a counting working time of each counter being equal to a predetermined standard period, a counting repetition period (T) of each counter being longer than said counting working time, phases of the counters being shifted by 1/N from each other, and a working interval between the n-th (N≧
n≧
2) and (n-1)-th counters being equal to T/N;
successively taking out count values of the counters at intervals of T/N;
obtaining a count value representing a number of the signal pulses per said predetermined standard period based on the successively taken out count values; and
recognizing existence of said fluorescent microparticle based on the count value representing a number of signal pulses per said predetermined standard period.
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Accused Products
Abstract
A microparticle measuring method according to the present invention, by which the number of fluorescent microparticles is counted and the fluorescent microparticles are analyzed, includes the steps of introducing fluorescent microparticles into a narrow flow path almost one after another; irradiating the fluorescent microparticles in the narrow flow path with excitation light; detecting a signal pulse produced by detection of a single photon of fluorescence generated by the irradiation with the excitation light; and recognizing existence of the fluorescent microparticle, starting from the number of signal pulses measured per predetermined standard period, and further includes the step of obtaining the number of signal pulses per standard period with a time interval shorter than the standard period. It further includes the step of counting successively the number of signal pulses generated in the predetermined standard period to recognize existence of the fluorescent microparticle, when the count value exceeds a predetermined threshold, and the kind of the fluorescent microparticles is estimated from the count value. Particularly by using microparticles having a diameter smaller than 0.1 μm as label material, reaction efficiency of the label material is increased, stability of the binding with the material to be measured is raised, and the material to be measured can be detected with a high precision and a high sensitivity.
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Citations
8 Claims
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1. A microparticle measuring method for counting fluorescent microparticles to be analyzed, comprising the steps of:
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leading fluorescent microparticles contained in a liquid to a narrow flow path and introducing said fluorescent microparticles substantially one after another into a position irradiated with excitation light in said narrow flow path said position being irradiated with excitation light for generating fluorescence from said fluorescent microparticles;
orleading an excitation light beam for generating fluorescence and having a width sufficiently narrow for where substantially one fluorescent microparticle among fluorescent microparticles bound to a solid phase can exist, to a position of said fluorescent microparticle while sweeping the beam successively; irradiating said fluorescent microparticles contained in the liquid or said fluorescent microparticles bound to the solid phase with the excitation light; taking out signal pulses produced by detection of a single photon of fluorescence generated by the irradiation with said excitation light; counting the signal pulses with N (N≧
2) counters, a counting working time of each counter being equal to a predetermined standard period, a counting repetition period (T) of each counter being longer than said counting working time, phases of the counters being shifted by 1/N from each other, and a working interval between the n-th (N≧
n≧
2) and (n-1)-th counters being equal to T/N;successively taking out count values of the counters at intervals of T/N; obtaining a count value representing a number of the signal pulses per said predetermined standard period based on the successively taken out count values; and recognizing existence of said fluorescent microparticle based on the count value representing a number of signal pulses per said predetermined standard period. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A microparticle measuring method for counting fluorescent microparticles to be analyzed, comprising the steps of:
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leading fluorescent microparticles contained in a liquid to a narrow flow path and introducing said fluorescent microparticles substantially one after another into a position irradiated with excitation light in said narrow flow path said position being irradiated with excitation light for generating fluorescence from said fluorescent microparticles;
orleading an excitation light beam for generating fluorescence and having a width sufficiently narrow for irradiating a region where substantially one fluorescent microparticle among fluorescent microparticles bound to a solid phase can exist, to a position of said fluorescent microparticle while sweeping the beam successively; irradiating said fluorescent microparticles contained in the liquid or said fluorescent microparticles bound to the solid phase with the excitation light; taking out signal pulses produced by detection of a single photon of fluorescence generated by the irradiation with said excitation light; counting the signal pulses with N (N≧
2) counters, a counting working time of each counter being equal to a predetermined standard period, a counting repetition period (T) of each counter being longer than said counting working time, phases of the counters being shifted by 1/N from each other, and a working interval between the n-th (N≧
n≧
2) and (n-1)-th counters being equal to T/Nsuccessively taking out count values of the counters at intervals of T/N; obtaining a count value representing a number of the signal pulses per predetermined standard period based on the successively taken out count values; and recognizing existence of said fluorescent microparticle when said count value representing a number of the signal pulses per predetermined standard period exceeds a predetermined threshold; wherein said predetermined standard period is approximately equal to a period of time during which said fluorescent microparticle is irradiated with light, or is shorter than a period of time which is approximately twice as long as the period of time during which fluorescent microparticle is irradiated with light. - View Dependent Claims (8)
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Specification