Device for collection and assay of oral fluids

Chemical apparatus and process disinfecting – deodorizing – preser – Analyzer – structured indicator – or manipulative laboratory... – Sample mechanical transport means in or for automated...

Reexamination Certificate

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C422S070000, C436S162000

Reexamination Certificate

active

06303081

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to the assay of oral fluids typically in lateral flow chromatography. A single unit, continuous in-line, one step rapid assay format suitable for oral specimen collection and testing is disclosed. More particularly, a hydrophilic capillary matrix is disclosed as a transport for oral fluids to a lateral chromatographic strip. This enables rapid assay of oral fluids while a disposable testing device is held in a patient's mouth.
BACKGROUND OF THE INVENTION
Numerous analytical methods have been developed for determining the presence or absence and/or quantifying the amount of various analytes in tissues and fluids of organisms. Currently most diagnostic testing is done with blood, urine, fecal material, or tissue biopsy. Testing based on these materials, however, entails substantial invasion of privacy and poses a significant safety hazard (particularly with the testing of blood). In contrast, the collection of oral fluid including saliva and/or mucosal transudate for testing entails relatively little invasion of privacy, is relatively safe, and can be accomplished rapidly with relative ease.
The use of oral fluid for detection purposes has been discussed in scientific and clinical research for some time. A multitude of researchers have investigated using oral fluid as a possible clinical specimen for diagnosis of specific disease states or altered metabolic activity (see, e.g.,
Annl. New York Acad. Sci
., Vol. 694
: Saliva as a Diagnostic Fluid
, Malamud and Tabak, eds., N.Y. Acad. Sci. Pub. (1993)). There is a preponderance of evidence that suggests that oral fluids might be extremely useful samples for the detection of certain analytes. The basic technological premise is that analytes present in blood will pass through the oral mucosa and/or salivary glands into the oral cavity where they can be detected. Further it is assumed that the concentration of analyte in oral fluid will be indicative of the blood concentration. There is thus considerable interest in the development of devices for the collection, transport, and sample handling of oral fluids and in the development of oral fluid-based assays; in particular assays for various antibodies and metabolites.
Typically in tests performed with samples such as blood, urine, or fecal material, there is an ample supply of test material and high volumes of analytes are available for assay. In addition, since assays of such materials are performed outside the body, there is no issue of contamination of the body with assay reagents.
This is illustrated, for example, in the assay device described by de Zoeten et al., U.S. Pat. No. 5,611,995, issued Mar. 18, 1997. In this device an absorbing body is supplied with a handle and held in the stream of urine being expelled from the body. When the absorbing body is saturated, it is then inserted into a holding device having a test strip. The saturated pad comes into contact with a test strip, is compressed, and deposits urine to be tested on the test strip. A gap at the side of the hold device holding the test strip assures evaporation of excess fluid to prevent backflow along the test strip.
Previously described assays of biological samples, in particular assays for analytes in oral fluid, have typically required at least two different actions. First the sample, e.g., blood, or urine is collected. Then the collected sample is either stored, e.g., for later assay in a laboratory, or is assayed in or by an assay device which is typically a device other than the collection device. Such assays, requiring multiple components, are often expensive to manufacture and cumbersome for home use.
Moreover, particularly with respect to assaying oral fluid samples, oral fluid is often in short supply, particularly under circumstances where the test subject is stressed (e.g., when testing for drugs of abuse or life-threatening illnesses, which may make it difficult to use such multi-component assays).
When typical absorbent pads are used to recover oral fluid, the pads must typically be compressed to release the trapped oral fluid. The manipulations associated with the compression step can result in sample contamination. In addition, such Atraditional pads have a significant void volume requiring that the sample often be collected in a volume significant greater than is actually required for analyte assay itself.
SUMMARY OF THE INVENTION
This invention provides improved devices and methods for one-step collection of oral fluid for detection and/or quantification of analytes in the oral fluid. The devices and methods require extremely low volumes of oral fluid, and require no subsequent sample manipulation after collection. Adequate sample collection is immediately verified and the risk of sample contamination is minimized. The assays are direct, rapid, and require no complicated steps. The devices and methods are therefore ideally suited for use in homes, in work or office settings, and generally do not require the presence of trained medical personnel.
Unlike prior art oral fluid collection devices that typically utilize an absorbent pad made of paper, cellulose, cotton or sponge and which require compression or centrifugation of the collection pad to release the oral fluid sample, the devices of this invention utilize a relatively rigid capillary matrix also referred to as a capillary matrix. The capillary matrix, when inserted into the oral cavity of a mammal (e.g., a human) rapidly wicks up oral fluid (e.g., via capillary action) and delivers it to the receiving area of a lateral flow chromatography strip. The oral fluid is rapidly released from the capillary matrix to the lateral flow chromatography strip without any manipulation (e.g., compression) of the matrix.
In one embodiment this invention provides an apparatus for lateral flow chromatography of an oral fluid. The apparatus comprises a capillary matrix having exposed a surface for insertion into an oral cavity; and a lateral flow chromatography strip where the lateral flow chromatography strip is attached to the capillary matrix such that when the capillary matrix is contacted to an oral mucosa in an oral cavity, the capillary matrix wicks up oral fluid and delivers the oral fluid to a receiving area of a lateral flow chromatography strip. In another embodiment, the apparatus comprises a capillary matrix having exposed a surface for receiving oral fluid; and a lateral flow chromatography strip where the lateral flow chromatography strip is in communication with the capillary matrix such that when the capillary matrix receives oral fluid, the capillary matrix wicks up the oral fluid and delivers the oral fluid to a receiving area of the lateral flow chromatography strip.
In a preferred embodiment, the capillary matrix is composed of a material different from the material comprising the lateral flow chromatography strip or the receiving area or sample pad of such a strip. The capillary matrix is composed of a material such that saturation of the capillary matrix with an oral fluid does not substantially alter the morphology of the capillary matrix. Thus, neither the average pore size nor the void volume of the capillary matrix is substantially altered. In addition, the volume of the capillary matrix is substantially constant. Saturation of the capillary matrix typically effects less than 30%, preferably less than 25%, more preferably less than 20% and most preferably less than about 15%, 10%, 5% or less than about even 1%. The capillary matrix preferably has an average pore size ranging from about 40 &mgr;m to about 250 &mgr;m, more preferably from about 60 &mgr;m to about 200 &mgr;m, and most preferably from about 80 &mgr;m to about 120 &mgr;m and a void volume of less than about 60 &mgr;L/cm
3
. Particularly preferred porous matrix materials have pore sizes that range from about 45 &mgr;m to about 90 &mgr;m, from about 90 &mgr;m to about 130 &mgr;m, or from about 80 &mgr;m to about 120 &mgr;m. Preferred capillary matrix materials are plastics (e.g., porous matrices of a high density polyethyl

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