Patent application number | Description | Published |
20080254444 | Immunoassay Devices and Use Thereof - An immunoassay device has a housing defining a first opening for receiving a solution and a second opening through which a liquid sample is deposited, a strip of sorbent material having a test site with immobilized antigen or antibody for the ligand to be tested, and a filter for filtering the sample. The filter is located at the second opening and directly above the test site. The sorbent material defines a horizontal flow path in the housing for the solution from the first opening to the test site. In use, the sample is first applied via the filter to the test site, and then, after the ligand has been captured, a buffer added through the first opening is used to cause a secondary specific binder conjugated to a marker to migrate horizontally by capillary action to the test site where it can bind to the already captured ligand. This immunoassay offer several advantages over the traditional chromatographic immunoassays. | 10-16-2008 |
20100022916 | Method and Apparatus for Collecting and Preparing Biological Samples for Testing - A kit and a method are disclosed for collecting and preparing a biological sample for testing where the sample is to be mixed with a buffer prior to being tested. | 01-28-2010 |
20100173397 | Dual Path Immunoassay Device - The systems of the invention include test cells with a first sorbent material defining a first flow path for a solution, a second sorbent material defining a second flow path distinct from the first flow path for a sample, and a test line or test site with immobilized antigens or antibodies or other ligand binding molecules such as aptamers, nucleic acids, etc. located at the junction of the first and second sorbent materials. The first and second sorbent strips touch each other at the test site location. | 07-08-2010 |
20110151584 | Dual Path Immunoassay Device - The systems of the invention include test cells with a first sorbent material defining a first flow path for a solution, a second sorbent material defining a second flow path distinct from the first flow path for a sample, and a test site with immobilized antigens or antibodies or other ligand binding molecules such as aptamers, nucleic acids, etc. located at the junction of the first and second sorbent materials for identifying one or more ligands. The first and second sorbent strips touch each other at the test site location. The test cell may be used to test for pregnancy, HIV (including different HIV antigens or peptides), tuberculosis, prion, urin-analysis/drug, cardiac markers, cancer markers, Chagas, Chlamydia, dental bacteria (SM/LC), influenza A, influenza B, adenovirus, rotavirus, strep A, other bacteria or viruses, etc., and veterinary applications such as CPV, FIV, FeLV, heartworm, etc., although it is not limited to those applications. | 06-23-2011 |
20110172560 | Method and Apparatus for Collecting and Preparing Biological Samples for Testing - A kit and a method are disclosed for collecting and preparing a biological sample for testing where the sample is to be mixed with a buffer prior to being tested. | 07-14-2011 |
20120003727 | Immunoassay Device for Detecting Antibodies and Antigens - A fourth generation immunoassay device includes first, second, third, and fourth sorbent or bibulous materials defining first, second, third and fourth horizontal flow paths. The first and second flow paths are for migration of first and second conjugates while the third and fourth flow paths are for the migration of a liquid sample. A first test area for detecting the presence of one or more different antibodies is located at the juncture of the first and third flow paths, and a second test area for detecting the presence of one or more different antigens is located at the juncture of the second and fourth flow paths. A housing is optionally provided for the sorbent materials with an opening for receiving a sample, one or more openings for receiving buffer solution or a conjugate-buffer subcomplex. The housing may also have viewing windows above the detection areas. | 01-05-2012 |
20120165699 | Method and Apparatus for Collecting and Preparing Biological Samples for Testing - A kit and a method are disclosed for collecting and preparing a biological sample for testing where the sample is to be mixed with a buffer prior to being tested. | 06-28-2012 |
20120208299 | Reduced Step Dual Path Immunoassay Device and Method - Test cells have a first sorbent strip with a sample receiving location and defining a first migration path, a distinct second sorbent strip which receives buffer solution and at least partially defines a second migration path distinct from and elongated relative to the first migration path, conjugate supported by the second strip, a test site located at a junction of the first and second strips and having an immobilized ligand-binding mechanism, and a divider which directs a first amount of the buffer to the first strip to move the sample to the test site and a second amount to the second strip to move the conjugate to the test site. The first and second migration paths have first and second lengths chosen so that ligand in the sample reaches the test site and binds to the immobilized ligand-binding mechanism prior to the conjugate reaching the test site. | 08-16-2012 |
20140045172 | Dual Path Immunoassay Device - Systems include test cells with sorbent material in a T-shape and defining a first flow path for a solution and a second flow path for a sample, and a test line or test site with immobilized antigens or antibodies or other ligand binding molecules located at the junction of the T. A housing houses the sorbent material and defines a first hole adjacent an end of the first flow path for receiving the solution and a second hole adjacent an end of the second flow path for receiving the sample. | 02-13-2014 |
20150056688 | Dual Path Immunoassay Device - Systems include test cells with sorbent material in a T-shape and defining a first flow path for a solution and a second flow path for a sample, and a test line or test site with immobilized antigens or antibodies or other ligand binding molecules located at the junction of the T. A housing houses the sorbent material and defines a first hole adjacent an end of the first flow path for receiving the solution and a second hole adjacent an end of the second flow path for receiving the sample. | 02-26-2015 |
20150285795 | Immunoassay Utilizing Trapping Conjugate - Test devices are provided for determining the presence of a first ligand in a sample. In some embodiments depletion conjugates are used to deplete the ligands different from but related to the first ligands from the sample. In some embodiments, interim binding agents are used to enhance the test signal. | 10-08-2015 |
20150285799 | Immunoassay Methods Utilizing Trapping Conjugate - Methods are provided for determining the presence of a first ligand in a sample. In some embodiments depletion conjugates are used to deplete the ligands different from but related to the first ligands from the sample. In some embodiments, interim binding agents are used to enhance the test signal. | 10-08-2015 |
Patent application number | Description | Published |
20080318341 | Dual Path Immunoassay Device - The systems of the invention include test cells with a first sorbent material defining a first flow path for a solution, a second sorbent material defining a second flow path distinct from the first flow path for a sample, and a test site with immobilized antigens or antibodies or other ligand binding molecules such as aptamers, nucleic acids, etc. located at the junction of the first and second sorbent materials for identifying one or more ligands. The first and second sorbent strips touch each other at the test site location. The test cell may be used to test for pregnancy, HIV (including different HIV antigens or peptides), tuberculosis, prion, urin-analysis/drug, cardiac markers, cancer markers, Chagas, Chlamydia, dental bacteria (SM/LC), influenza A, influenza B, adenovirus, rotavirus, strep A, other bacteria or viruses, etc., and veterinary applications such as CPV, FIV, FeLV, heartworm, etc., although it is not limited to those applications. | 12-25-2008 |