Chemical apparatus and process disinfecting – deodorizing – preser – Control element responsive to a sensed operating condition
Reexamination Certificate
2001-03-09
2003-02-11
Warden, Jill (Department: 1743)
Chemical apparatus and process disinfecting, deodorizing, preser
Control element responsive to a sensed operating condition
C422S063000, C422S065000, C422S105000, C206S438000, C206S443000, C436S047000
Reexamination Certificate
active
06517783
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to reaction receptacles useful for containing chemical or biological substances.
BACKGROUND OF THE INVENTION
Reaction receptacles or test tubes are commonly used in the chemical and biological arts to perform a variety of types of assays in a contained space. Assays that commonly have one or more steps performed in reaction receptacles include chemical reactions, immunoassays, and nucleic acid-based assays. Examples of such reactions and assays are thoroughly described in the available literature and are well known to those skilled in the art. While reaction receptacles are generally manufactured and sold as individual units or test tubes, it is common for practitioners to use holding racks to conveniently and collectively organize a group of reaction receptacles for performing multiple assays simultaneously or sequentially. In some instances, multiple reaction receptacles are assembled as a unitary piece.
With most assays, a substance transfer device is used to dispense solutions into or remove solutions from reaction receptacles. The most familiar substance transfer devices are pipettes and aspirators including one or more tubular elements through which fluids are dispensed or withdrawn. When substance transfer devices are used in conducting a group of independent assays at about the same time or in close proximity to one another, there is always the concern that a substance transfer device will inadvertently serve as a vehicle in transferring substances or contaminants between reaction receptacles. An additional concern is that the practitioner will improperly add substances into or remove substances from a reaction receptacle. To minimize the risk of cross-contamination and pipetting and aspirating errors, practitioners must carefully monitor substance transfers and exercise nearly flawless precision when pipetting substances into or aspirating substances from reaction receptacles. Avoiding cross-contamination and pipetting and aspirating mistakes is particularly important when the assay is diagnostic in nature or is designed to provide information concerning the progress of a patient's disease over time or the success of a treatment regimen.
One way to limit opportunities for cross-contamination is to reduce the amount of surface area on the substance transfer device that can come into contact with the contents of a reaction receptacle. This objective can be achieved by using a contact-limiting element, such as a pipette tip, which essentially serves as a barrier between the outer surface of the pipette and the contents of a reaction receptacle. And by selecting a pipette tip of sufficient length and volume, contact between the pipette and contents of a reaction receptacle can be substantially eliminated. This is because substances from the reaction receptacle will be drawn into a portion of the pipette tip which falls below the bottom surface of the pipette of course, in most instances, it will also be important to have a single pipette tip dedicated to each reaction receptacle.
Where a number of pipette tips are used to perform multiple assays simultaneously or sequentially, practitioners typically need to position a supply of pipette tips at a location that can be conveniently accessed by at least one pipette. Providing a sufficient quantity of pipette tips becomes more complicated when the substance transfer device functions robotically in an automated (or partially automated) assay instrument. In an automated format, a large reserve of pipette tips may need to be placed in the instrument at a site that is accessible by the pipette, but which limits the total amount of space required. Accordingly, there is a need for pipette tips that are readily accessible by a robotic pipette without requiring the pipette to engage in complicated movements or to travel over substantial distances.
Another problem presented by conventional reaction receptacles is that they come packaged as individual test tubes that are not amenable to manipulation by an automated assay instrument. Individual reaction receptacles hinder throughput efficiency since the practitioner and instrument must each handle the reaction receptacles separately. And because conventional reaction receptacles are not provided with any structure that permits them to be manipulated by an automated instrument, reaction receptacles are generally stationed at one situs within the instrument and are not afforded any automated mobility. This lack of movement imposes certain architectural limitations and assay inefficiencies since the instrument must be designed around the positioning of the reaction receptacles. Accordingly, there is a need for a reaction receptacle apparatus which can be manipulated by an automated assay instrument, where the apparatus may include one reaction receptacle or plurality of reaction receptacles coupled together as a single operative unit.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a reaction receptacle apparatus that meets one or more of the needs set forth above. Thus, a reaction receptacle apparatus according to the present invention can be used to perform chemical or biological assays and comprises at least one reaction receptacle for containing substances used in performing such assays. When the reaction receptacle apparatus includes a plurality of reaction receptacles, the reaction receptacles are operatively coupled to one another, either directly or indirectly, and are capable of interacting with a substance transfer device that dispenses substances into or withdraws substances from some or all of the plurality of reaction receptacles making up the reaction receptacle apparatus.
So that the substance transfer device can safely and efficiently dispense substances into or withdraw substances from the reaction receptacles, one embodiment of the present invention provides for one or more contact-limiting elements associated with the reaction receptacle apparatus. The contact-limiting elements of this embodiment are constructed and arranged to be operatively engaged by the substance transfer device to limit potentially contaminating contact between at least a portion of the substance transfer device and a potentially contaminating substance that is dispensed into or withdrawn from a reaction receptacle by the substance transfer device. One or more contact-limiting elements are associated with each of one or more of the reaction receptacles of the reaction receptacle apparatus.
When the present invention includes contact-limiting elements, the reaction receptacle apparatus is outfitted with one or more contact-limiting element holding structures, each contact-limiting element holding structure being preferably associated with a different contact-limiting element. Each of the contact-limiting element holding structures is constructed and arranged to (i) receive and removably hold the associated contact-limiting element in an operative orientation in proximity to the associated receptacle so as to be operatively engageable by the substance transfer device, and (ii) allow the associated contact-limiting element to be removed from the associated contact-limiting element holding structure when the associated contact-limiting element is operatively engaged by the substance transfer device.
Because this embodiment of the reaction receptacle apparatus is supplied with its own contact-limiting elements, an automated assay instrument can be constructed so that the substance transfer device avoids complex motions and conveniently engages the contact-limiting elements when the reaction receptacle apparatus is brought into an operative position within the instrument. An additional benefit of this embodiment is that the instrument does not have to be configured to receive a store of contact-limiting elements, and practitioners are spared having to monitor the volume of contact-limiting elements in an instrument while assays are being run.
A further embodiment of the present invention is a reaction receptacle appara
Horner Glenn A.
Johnson Shirley J.
Schneider Robert E.
Smith Robert J.
Tseo Gus
Cappellari Charles E.
Gen-Probe Incorporated
Quan Elizabeth
Wydeven Richard
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