Chemistry: analytical and immunological testing – Including sample preparation
Reexamination Certificate
2001-03-02
2003-04-22
Le, Long. V. (Department: 1641)
Chemistry: analytical and immunological testing
Including sample preparation
C436S518000, C435S285200, C435S288400, C435S014000, C422S068100, C422S105000, C422S105000
Reexamination Certificate
active
06551838
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention is in the field of miniaturized devices having reservoirs which contain small devices or device components and/or chemicals.
Microarray systems have been developed that analyze numerous compounds, such as for drug activity or hybridization analysis of nucleotide molecule sequences. For example, U.S. Pat. No. 5,843,767 to Beattie discloses a microfabricated, flowthrough “genosensors” for the discrete detection of binding reactions. The apparatus includes a nanoporous glass wafer having tapered wells in which nucleic acid recognition elements are immobilized. U.S. Pat. No. 6,083,763 to Balch discloses an apparatus for analyzing molecular structures within a sample substance using an array having a plurality of test sites upon which the sample substance is applied. The test sites typically are in microplate arrays, such as microtitre plates. These apparatuses, however, do not provide any means for sealing one or more of the wells or for selectively exposing one or more of the wells, for example, on demand or upon passive exposure to certain conditions.
U.S. Pat. No. 5,797,898 and U.S. Pat. No. 6,123,861 to Santini, et al. describe microchip devices that release drug molecules from reservoirs having reservoir caps that actively or passively disintegrate. It would be advantageous to adapt these devices for use in sensing applications and for use in initiating or measuring chemical reactions in a micro-scale area or volume at specific points in time.
U.S. Pat. No. 5,252,294 to Kroy discloses micromechanical structures having closed cavities for use in storage and handling of substances, for example, in research and testing of the substances. There is no disclosure, however, of selectively controlling exposure of individual cavities without microvalves, nor is there any disclosure of isolating individual sensing means.
It is therefore an object of the present invention to provide miniaturized devices for use in initiating and controlling chemical reactions, analyses, or measurements in a micro-scale area or volume, at specific points in time.
It is another object of the present invention to provide methods of making and using such miniaturized devices.
SUMMARY OF THE INVENTION
Microchip devices are provided to store and protect chemicals and smaller, secondary devices from environmental exposure until such time as exposure is required, for example, to initiate a chemical reaction and/or to perform an analysis or sensing function. In one embodiment, the microchip device includes a substrate having a plurality of reservoirs which contain the secondary device, and at least one barrier layer covering each reservoir to isolate the secondary device from one or more environmental components outside the reservoirs. The barrier layer can be selectively disintegrated or permeabilized to expose the secondary device to the one or more environmental components. The secondary device preferably includes a sensor or sensing component, for example, a biosensor, or a light detection or imaging device, such as an optical fiber. In one variation, the microchip device further includes a reacting component, such as catalyst or reagent, in one or more reservoirs. Alternatively, the sensor or sensing component can be attached to the substrate outside of the reservoir while a reservoir contains a reacting component.
In another embodiment, the microchip device includes a substrate having a plurality of reservoirs which contain a reacting component, and at least one barrier layer covering each reservoir to isolate the reacting component from one or more environmental components outside the reservoirs. The barrier layer can be selectively disintegrated or permeabilized to expose the reacting component to the one or more environmental components. In a preferred variation, the reacting component is a catalyst or enzyme that remains immobilized in the reservoir even after exposure to the environmental components. In some embodiments, swellable materials and osmotic pressure generating materials can be incorporated into reservoirs for use in generating pressure forces effective to rupture the barrier layer.
The microchip device is used to protect chemicals and devices from exposure to the surrounding environment until the exposure is desired, which is particularly useful when the chemicals or devices within the reservoir are sensitive to environmental conditions, for example, when the devices fail or materials foul following prolonged exposure to the environment. In one embodiment, an easily fouled catalyst used to initiate a desired heterogeneous chemical reaction is sealed inside a reservoir of a microchip device to protect it from the surrounding environment. When it is desired to initiate the reaction, the barrier layer on the reservoir is removed or made permeable. The reagents for the reaction present in the surrounding environment pass into the reservoir (e.g., by diffusion), contact the catalyst, react at the catalyst surface, and the products pass out of the reservoir. This heterogeneous reaction continues until the reagents are exhausted or the catalyst becomes fouled. This process may be repeated numerous times by opening additional reservoirs and exposing fresh catalyst.
In another embodiment, the microchip device includes one or more sensors that are located-inside each reservoir. The sensors are protected from the environment until the barrier layer is removed or made permeable. Once the barrier is removed or made permeable, the sensors can detect the presence and/or quantity of molecules or the conditions in or near one or more reservoirs. Such sensors can be used, for example, in controlling and monitoring the release of molecules from other chemical release devices or the release of chemicals from reservoirs in the same device.
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Langer Robert S.
Santini, Jr. John T.
Sheppard, Jr. Norman F.
Young Chung Chang
Counts Gary W.
Le Long. V.
MicroCHIPS, Inc.
Sutherland & Asbill & Brennan LLP
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