IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0769364
(2010-04-28)
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등록번호 |
US-8675199
(2014-03-18)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
145 |
초록
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The invention provides methods and devices for generating optical pulses in one or more waveguides using a spatially scanning light source. A detection system, methods of use thereof and kits for detecting a biologically active analyte molecule are also provided. The system includes a scanning light
The invention provides methods and devices for generating optical pulses in one or more waveguides using a spatially scanning light source. A detection system, methods of use thereof and kits for detecting a biologically active analyte molecule are also provided. The system includes a scanning light source, a substrate comprising a plurality of waveguides and a plurality of optical sensing sites in optical communication with one or more waveguide of the substrate, a detector that is coupled to and in optical communication with the substrate, and means for spatially translating a light beam emitted from said scanning light source such that the light beam is coupled to and in optical communication with the waveguides of the substrate at some point along its scanning path. The use of a scanning light sources allows the coupling of light into the waveguides of the substrate in a simple and cost-effective manner.
대표청구항
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1. A detection system for detecting a biologically active analyte molecule comprising: a substrate comprising a plurality of excitation waveguides, a plurality of collection waveguides, the excitation waveguides and collection waveguides crossing to form an array of intersection regions where an exc
1. A detection system for detecting a biologically active analyte molecule comprising: a substrate comprising a plurality of excitation waveguides, a plurality of collection waveguides, the excitation waveguides and collection waveguides crossing to form an array of intersection regions where an excitation waveguide and a collection waveguide cross and provide optical communication with the intersection region at each crossing, and a plurality of optical sensing sites each in optical communication with an intersection region;a scanning light source, wherein the scanning light source is at some point along its scanning path in optical communication with one or more of the excitation waveguides;a detector that is in optical communication with one or more of the collection waveguides; andan actuator for spatially translating a light beam emitted from said scanning light source relative to the substrate such that the light beam is coupled to and in optical communication with the waveguides of the substrate at some point along its scanning path. 2. The system of claim 1, wherein the scanning light source is at some point along its scanning path in optical communication with one or more of the excitation waveguides at a first edge of the substrate; andwherein the detector is in optical communication with one or more of the collection waveguides at a second edge of the substrate. 3. The system of claim 1, wherein the scanning light source further comprises a detector, and wherein at the point at which the light source is coupled to and in optical communication with one or more of the plurality of waveguides in optical communication with the optical sensing site, the detector is also coupled to and in optical communication with said one or more waveguides. 4. The system of claim 3, wherein the substrate comprises a plurality of in-coupling waveguides and a plurality of out-coupling waveguides, and wherein at the point at which the light source is coupled to and in optical communication with one or more of the in-coupling waveguides, the detector is coupled to and in optical communication with one or more of the out-coupling waveguides. 5. The system of claim 1 wherein the entire scanning light source or any part of it is movable, and wherein said spatial translation of said light beam is effected by movement of said entire scanning light source or any part of it. 6. The system of claim 1 wherein the substrate is movable, and wherein said spatial translation of said light beam is effected by movement of said substrate. 7. A detection method comprising: delivering a sample suspected of containing a biologically active analyte molecule to be detected to an optical sensing site on a substrate of a detection system, the substrate comprising a plurality of excitation waveguides and a plurality of collection waveguides;spatially translating a scanning light source to a point at which the light source is in optical communication with one or more of the plurality of excitation waveguides, wherein one or more of the plurality of excitation waveguides is in optical communication with the optical sensing site, thereby generating a first light wave within said one or more of the plurality of excitation waveguides, wherein the first light wave is transducable by a sensor associated with the optical sensing site to a second light wave carried in one or more of the plurality of collection waveguides in optical communication with the optical sensing site and crossing the plurality of excitation waveguides; anddetecting a measurable change in the second light wave using a detector in optical communication with one or more of the plurality collection waveguides, wherein a measurable change in the second light wave occurs when the sensor interacts with the biologically active analyte molecule. 8. The method of claim 7, wherein the scanning light source further comprises a detector, and wherein at the point at which the light source is coupled to and in optical communication with one or more waveguides in optical communication with the optical sensing site, the detector is also coupled to and in optical communication with said one or more waveguides. 9. The method of claim 7, wherein the biologically active analyte is selected from the group consisting of a nucleic acid, a protein, an antigen, an antibody, a microorganism, a gas, a chemical agent and a pollutant. 10. The method of claim 7, wherein the sensor is adapted to support an immunoassay and wherein the sensor interacting with the biologically active analyte comprises an outcome of an immunoassay. 11. A detection system for detecting a biologically active analyte molecule comprising: a substrate comprising a plurality of in-coupling waveguides, a plurality of out-coupling waveguides, and a plurality of optical sensing sites each in optical communication with an in-coupling and an out-coupling waveguide;a scanning light source, wherein the scanning light source is at some point along its scanning path in optical communication with one or more of the in-coupling waveguides;a detector that is in optical communication with one or more of the out-coupling waveguides; andan actuator for spatially translating a light beam emitted from said scanning light source relative to the substrate such that the light beam is in optical communication with one or more of the in-coupling waveguides at some point along its scanning path. 12. A detection method comprising: delivering a sample suspected of containing a biologically active analyte molecule to be detected to an optical sensing site on the substrate of a detection system, wherein the substrate comprises a plurality of in-coupling waveguides and a plurality of out-coupling waveguides;spatially translating a scanning light source to a point at which the light source is in optical communication with one or more in-coupling waveguides, wherein one or more in-coupling waveguides and one or more out-coupling waveguides are in optical communication with the optical sensing site, thereby generating a first light wave within said one or more in-coupling waveguides, wherein the first light wave is transducable by a sensor associated with the optical sensing site to a second light wave; anddetecting a measurable change in the second light wave using a detector in optical communication with the one or more out-coupling waveguides, wherein a measurable change in the second light wave occurs when the sensor interacts with the biologically active analyte molecule.
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