Multi-purpose optical analysis optical bio-disc for conducting assays and various reporting agents for use therewith
First Claim
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1. An optical bio-disc, comprising:
- a substantially circular substrate having a center and an outer edge;
a metal layer in operable connection with the substrate;
a target zone disposed between the center and the outer edge;
an active layer formed on the surface of said metal layer;
at least one capture agent that binds to said active layer such that the capture agent is immobilized on said active layer within the target zone to thereby form a capture zone, wherein the capture zone is located within the optical bio-disc;
a first circumferential reservoir located near the outer edge of said substrate and extending around the periphery of said substrate; and
a second circumferential reservoir located adjacent to and extending around an interior edge of the first circumferential reservoir, wherein the second circumferential reservoir is in fluid communication with the first circumferential reservoir through at least one port which extends through a common barrier between the first and second circumferential reservoirs, and wherein said common barrier physically and circumferentially supports a cap member placed on said substrate.
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Abstract
The present invention relates to optical bio-disc systems and related methods and to immobilizing receptor molecules. When a sample is injected into a fluidic circuit, the target agent binds to a capture probe bound in a capture zone. A signal is generated from tags attached to a reporter probe that has specific affinity to the target agent. The assays and methods of the present invention are implemented on an optical bio-disc. The optical bio-disc includes a flow channel having capture zones and in fluid communications with a mixing chamber, and a peripheral waste reservoir. The optical bio-disc is implemented on an optical bio-disc that has information encoding format such as CD. An disc drive assembly is employed to rotate the optical bio-disc, read and process any encoded information, and analyze the samples in the flow channel of the optical bio-disc.
98 Citations
18 Claims
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1. An optical bio-disc, comprising:
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a substantially circular substrate having a center and an outer edge; a metal layer in operable connection with the substrate; a target zone disposed between the center and the outer edge; an active layer formed on the surface of said metal layer; at least one capture agent that binds to said active layer such that the capture agent is immobilized on said active layer within the target zone to thereby form a capture zone, wherein the capture zone is located within the optical bio-disc; a first circumferential reservoir located near the outer edge of said substrate and extending around the periphery of said substrate; and a second circumferential reservoir located adjacent to and extending around an interior edge of the first circumferential reservoir, wherein the second circumferential reservoir is in fluid communication with the first circumferential reservoir through at least one port which extends through a common barrier between the first and second circumferential reservoirs, and wherein said common barrier physically and circumferentially supports a cap member placed on said substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An optical bio-disc, comprising:
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a substantially circular substrate having a center and an outer edge; a target zone disposed between the center and the outer edge; at least one capture probe located within the target zone, wherein the capture probe is configured to immobilize a target agent from a sample within the target zone; a first circumferential reservoir located near the outer edge of said substrate and extending around the periphery of said substrate; and a second circumferential reservoir located adjacent to and extending around an interior edge of the first circumferential reservoir, wherein the second circumferential reservoir is in fluid communication with the first circumferential reservoir through at least one port which extends through a common barrier between the first and second circumferential reservoirs, and wherein said common barrier physically and circumferentially supports a cap member placed on said substrate. - View Dependent Claims (12, 13, 14)
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15. An optical bio-disc, comprising:
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a substantially circular substrate having a center and an outer edge; a metal layer in operable connection with the substrate; a target zone disposed between the center and the outer edge of said substrate; an active layer formed on the surface of said metal layer; at least one capture agent that binds to said active layer such that the capture agent is immobilized on said active layer within the target zone to thereby form a capture zone, wherein the capture zone is located within the optical bio-disc, and wherein the active layer is formulated to immobilize a pellet formed by an enzyme reaction; a first circumferential reservoir located near the outer edge of said substrate and extending around the periphery of said substrate; a second circumferential reservoir located adjacent to and extending around an interior edge of the first circumferential reservoir, wherein the second circumferential reservoir is in fluid communication with the first circumferential reservoir through at least one port which extends through a common barrier between the first and second circumferential reservoirs wherein said common barrier physically and circumferentially supports a cap member placed on said substrate; and a drying agent or desiccant in fluid communication with the first circumferential reservoir and configured to absorb moisture so as to preserve functional activity of reagents deposited in the optical bio-disc.
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16. An optical bio-disc, comprising:
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a substantially circular substrate having a center and an outer edge; a metal layer in operable connection with the substrate; a target zone disposed between the center and the outer edge; an active layer formed on the surface of said metal layer; a plurality of fluidic channels in fluid communication with the active layer; at least one capture agent located in at least one of the fluidic channels, wherein said capture agent binds to said active layer such that the capture agent is immobilized on said active layer within the target zone to thereby form a capture zone, wherein the capture zone is located within the optical bio-disc; a first circumferential reservoir located near the outer edge of said substrate and extending around the periphery of said substrate; and a second circumferential reservoir located adjacent to and extending around an interior edge of the first circumferential reservoir, wherein the second circumferential reservoir is in fluid communication with the first circumferential reservoir through at least one port which extends through a common barrier between the first and second circumferential reservoirs, wherein said common barrier physically and circumferentially supports a cap member placed on said substrate, and wherein the second circumferential reservoir is in fluidic communication with said plurality of fluidic channels. - View Dependent Claims (17, 18)
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Specification
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Current AssigneeVindur Technologies, Inc.
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Original AssigneeBurstein Technologies, Inc.
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InventorsKrutzik, Siegfried Richard
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Primary Examiner(s)Le, Long V.
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Assistant Examiner(s)LUM, LEON YUN BON
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Application NumberUS10/194,396Publication NumberTime in Patent Office1,600 DaysField of Search422/50, 422/55, 422 57- 58, 422/64, 422/68.1, 422/82.05, 422/82.09, 422/72, 435/4, 435/7.1, 435 74- 792, 435/287.1, 435/287.9, 435/288.7, 435/6, 435/287.2, 435/288.4, 435/288.5, 436/63, 436/164, 436/501, 436/45, 436/518, 436/524, 436/525, 436/43US Class Current435/288.5CPC Class CodesG01N 2021/6439 with indicators, stains, dy...G01N 2800/52 Predicting or monitoring th...G01N 33/553 Metal or metal coatedG01N 35/00069 whereby the sample substrat...
