Nanolaser spectroscopy and micro-optical resonators for detecting, analyzing, and manipulating bioparticles
First Claim
1. A method for analyzing a bioparticle, or plurality of bioparticles, in a micro/nano-optical resonator comprising the steps of:
- a. establishing optical resonance in the optical resonator;
b. measuring optical resonance of the resonator in the absence of a bioparticle;
c. measuring optical resonance in the presence of a bioparticle;
d. using the changes in optical resonance to determine optical properties of a bioparticle; and
e. relating the optical properties to biomolecular composition of the bioparticle,whereby information about the bioparticle is obtained and is transformed to an output display using the benefits of light as non-contacting, fast, and noninvasive and without use of molecular tags, andwhereby statistical information about a population of bioparticles is quickly obtained to assess their material condition, andwhereby information about the state of health or disease, or normalcy or abnormalcy, of the bioparticle is obtained, andwhereby changes in biomolecular composition occurring in normal, stressed or diseased cells is assessed by measuring the distribution of optical properties in a population of bioparticles.
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Abstract
This invention provides a new method for rapidly analyzing single bioparticles to assess their material condition and state of health. The method is enabled by use of a resonant cavity apparatus to measure an optical property related to the bioparticle size and refractive index. Measuring the refractive index is useful for determining material properties of the bioparticle. The material properties depend on the biomolecular composition of the bioparticle. The biomolecular composition is, in turn, dependent on the state of health of the bioparticle. Thus, measured optical properties can be used to differentiate normal (healthy) and abnormal (diseased) states of bioparticles derived from cells or tissues. The method is illustrated with data obtained from a resonator with a gain medium. The invention also provides new methods for making multiple measurements in a single device and detecting, analyzing, and manipulating bioparticles that are much smaller than the wavelength of light.
52 Citations
11 Claims
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1. A method for analyzing a bioparticle, or plurality of bioparticles, in a micro/nano-optical resonator comprising the steps of:
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a. establishing optical resonance in the optical resonator; b. measuring optical resonance of the resonator in the absence of a bioparticle; c. measuring optical resonance in the presence of a bioparticle; d. using the changes in optical resonance to determine optical properties of a bioparticle; and e. relating the optical properties to biomolecular composition of the bioparticle, whereby information about the bioparticle is obtained and is transformed to an output display using the benefits of light as non-contacting, fast, and noninvasive and without use of molecular tags, and whereby statistical information about a population of bioparticles is quickly obtained to assess their material condition, and whereby information about the state of health or disease, or normalcy or abnormalcy, of the bioparticle is obtained, and whereby changes in biomolecular composition occurring in normal, stressed or diseased cells is assessed by measuring the distribution of optical properties in a population of bioparticles. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for analyzing the state of health of a bioparticle, or plurality of bioparticles, comprising the steps of:
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a. isolating the bioparticle from a cell; b. measuring the optical properties of the bioparticle in an optical resonators; c. collecting the measured optical properties into a histogram or statistical distribution; d. calibrating the distribution by providing a zero and scale factor or using a known distribution from a reference specimen; e. correcting the distribution for a drift or change in time, if necessary; f. determining statistical properties including mean, standard deviation, and variance by direct computation or fitting the measured distribution with known mathematical distribution functions, including analysis for multiple components or heterogeneous distributions; and g. comparing the measured distribution with distributions from normal bioparticles, whereby statistical information about the state of health or disease, or normalcy or abnormalcy, of a population of bioparticles is obtained and is transformed to an output display.
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11. A method for analyzing the state of health of a bioparticle, or plurality of bioparticles, in an optical resonator comprising the steps of:
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a. providing a means for recording images and resonance detuning by a bioparticle; b. using digital imaging processing, including binary and/or grey level computation, to analyze images for detuning changes in the resonator when a bioparticle is present; c. determining particle size, position, width, height, and detuning measurement for collection into histograms, statistical tables or graphs, or image correlations for further analysis; d. analyzing said histograms, tables, graph, or correlations to determine mean, standard deviation, and variance of image properties; e. determining statistics of biophysical properties of bioparticles including mean, standard deviation, and variance by direct computation or fitting the measured distribution with known mathematical distribution functions, including analysis for multiple components or heterogeneous distributions; and f. comparing the measured distribution with distributions from normal bioparticles, whereby statistical information about the state of health or disease, or normalcy or abnormalcy, of a population of bioparticles is quickly obtained using imaging for both size and composition and is transformed to an output display.
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Specification