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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0956397 (2007-12-14) |
등록번호 | US-8557604 (2013-10-15) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 1 인용 특허 : 301 |
A lateral flow, membrane-based assay device for detecting the presence or quantity of an analyte residing in a test sample is provided. The device utilizes phosphorescence to detect the signals generated by excited phosphorescent labels. The labels may have a long emission lifetime so that backgroun
A lateral flow, membrane-based assay device for detecting the presence or quantity of an analyte residing in a test sample is provided. The device utilizes phosphorescence to detect the signals generated by excited phosphorescent labels. The labels may have a long emission lifetime so that background interference from many sources, such as scattered light and autofluorescence, is practically eliminated during detection. In addition, the phosphorescent labels may be encapsulated within particles to shield the labels from quenchers, such as oxygen or water, which might disrupt the phosphorescent signal.
1. A lateral flow assay device for detecting the presence or quantity of an analyte residing in a test sample, the assay device comprising a porous membrane in fluid communication with detection probes, the detection probes comprising a phosphorescent metal complex encapsulated within a barrier matr
1. A lateral flow assay device for detecting the presence or quantity of an analyte residing in a test sample, the assay device comprising a porous membrane in fluid communication with detection probes, the detection probes comprising a phosphorescent metal complex encapsulated within a barrier matrix comprising polymethylmethacrylate, the detection probes being conjugated with a specific binding member configured to bind with the analyte and form an analyte complex, wherein the porous membrane defines: a conjugate pad, the conjugate pad including the detection probes,a detection zone positioned downstream of the conjugate pad within which a capture reagent is immobilized that is configured to bind to the analyte complex to generate a detection signal, anda calibration zone positioned downstream of the detection zone within which a capture reagent is immobilized, the capture reagent being capable of binding to uncaptured detection probes,wherein the analyte is detected by subjecting the detection zone and calibration zone to pulses of light to generate the detection signal and the calibration signal, respectively, and after a certain period of time has elapsed following a pulse of light, the intensity of the detection signal and the calibration signal are measured, the amount of the analyte in the test sample is proportional to a ratio of the intensity of the detection signal to the intensity of the calibration signal. 2. The device as in claim 1, wherein the metal complex comprises a metal selected from the group consisting of ruthenium, osmium, rhenium, iridium, rhodium, platinum, indium, palladium, molybdenum, technetium, copper, iron, chromium, tungsten, zinc, and combinations thereof. 3. The device as in claim 1, wherein the metal complex comprises a ligand selected from the group consisting of pyridine, pyrazine, isonicotinamide, imidazole, bipyridine, terpyridine, phenanthroline, dipyridophenazine, porphyrin, porphine, derivatives thereof, and combinations thereof. 4. The device as in claim 1, wherein the metal complex comprises a porphine complex. 5. The device as in claim 1, wherein the metal complex is selected from the group consisting of platinum (II) tetra-meso-fluorophenylporphine and palladium (II) tetra-meso-fluorophenylporphine. 6. The device as in claim 1, wherein the metal complex comprises platinum (II) tetra-meso-fluorophenylporphine. 7. The device as in claim 1, wherein the metal complex comprises palladium (II) tetra-meso-fluorophenylporphine. 8. The device as in claim 1, wherein the barrier matrix is capable of shielding the encapsulated phosphorescent label from phosphorescence quenchers. 9. The device as in claim 1, wherein the specific binding member is selected from the group consisting of antigens, haptens, aptamers, primary or secondary antibodies, biotin, and combinations thereof. 10. The device as in claim 1, wherein the detection probes are in the form of a particle. 11. The device as in claim 10, wherein the particle is a nanoparticle. 12. The device as in claim 11, wherein the nanoparticle has a diameter of from about 1 nanometer to about 10 microns. 13. The device as in claim 1, wherein the phosphorescent metal complex comprises a phosphorescent label that has a phosphorescent lifetime of greater than about 1 microsecond. 14. The device as in claim 1, wherein the phosphorescent metal complex comprises a phosphorescent label that has a Stokes shift of greater than about 100 nm. 15. The device as in claim 1, wherein the polyelectrolyte capture reagent is a non-biological reagent. 16. The device as in claim 1, further comprising a sampling pad located upstream of the conjugate pad. 17. The device as in claim 1, wherein the capture reagent in the calibration zone is a polyelectrolyte capture reagent. 18. The device of claim 1, wherein the detection zone and the calibration zone are simultaneously subjected to one or more pulses of light. 19. The device of claim 1, wherein the intensity of the detection signal and the intensity of the calibration signal are measured simultaneously. 20. The device of claim 1, wherein the intensity of the detection signal is measured after about 1 to about 100 microseconds.
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