Abstract: Lateral flow devices and methods of use for a molecular diagnostic assay are provided. The method is suitable for detection or monitoring of targets, including biological, chemical, and material targets that exist in very low concentrations in biological samples. The methods and devices of the present application are amenable to power source-free point of care testing.

Abstract: The present invention discloses a method of real-time quantification of a target nucleic acid in a sample by constructing a reference table of copy number vs. designated parameter from reference samples which sharing the same nucleic acid sequences with the target nucleic acid. The method includes (a) constructing a reference table of copy number vs. designated parameter from reference samples; (b) amplifying the target nucleic acid; (c) monitoring and detecting the amplification of the target nucleic acid in real-time; (d) analyzing the detected signals to get the designated parameter of the target nucleic acid; and (e) looking up and interpolating to the reference table to get the copy number of the target nucleic acid.

Abstract: The present invention disclose a method for detection CPV 2a, 2b, and 2c in a sample by detecting VP2 gene. The signals can be detected by both fluorescent detection system and lateral flow immunochromatographic assay. The second object of this present invention is to provide a method to discriminate the wild type from the vaccine type. The first approach to achieve this object is discriminating wild type from vaccine type by SNP 36, which could be used on both fluorescent detection system and lateral flow immunochromatographic assay. The second approach to achieve this object is discriminating wild type from vaccine type by SNP 899 and SNP 963.

Abstract: A mixing device for operating biological, chemical or biochemical materials used in an assay includes a mixing member formed with a plurality of chambers, each having a sealable port provided along an edge of the mixing member. The mixing device also includes one or more compartments that are movable along the edge of the mixing member between selected ones of the sealed chambers. This compartment is operable to receive materials from and transfer materials between the chambers. Selected ones of the chambers include associated processing elements, for example, including heating and cooling elements, magnetic elements, membranes and lateral flow devices. The mixing device is also pivotable, for example, to facilitate the application of gravity force in the transfer of materials between the chambers and one or more compartments. The mixing device may operate manually by hand-held unit. Also, this mixing device may operate automatically with at least one driving unit.

Abstract: The present invention disclose a method for detection CPV 2a, 2b, and 2c in a sample by detecting VP2 gene. The signals can be detected by both fluorescent detection system and lateral flow immunochromatographic assay. The second object of this present invention is to provide a method to discriminate the wild type from the vaccine type. The first approach to achieve this object is discriminating wild type from vaccine type by SNP 36, which could be used on both fluorescent detection system and lateral flow immunochromatographic assay. The second approach to achieve this object is discriminating wild type from vaccine type by SNP 899 and SNP 963.

Abstract: The present invention provides a method of using a two-stage nucleic acid reaction and detection tube. First, a reaction and detection tube is provided. Then a reaction is performed by using a liquid in the storing space of the second tube, following by putting the dipstick into the dipstick fixing space of the connector. The first tube, the second tube and the connector is assembled together, wherein the dipstick is placed both in the dipstick fixing space of the connector and the detection space of the first tube. The reaction and detection tube is rotated from bottom to top, thus making the liquid in the storing space of the second tube flow into the liquid collection space through the diversion unit and then contact the dipstick in the dipstick fixing space. A detection result is then observed from the dipstick.

Abstract: The present invention discloses a method of real-time quantification of a target nucleic acid in a sample by constructing a reference table of copy number vs. designated parameter from reference samples which sharing the same nucleic acid sequences with the target nucleic acid. After that, obtain the designated parameter of the target sample and get the copy number by looking up and interpolating to the reference table. The object of the present invention is in particular provide methods for the quantification of the target nucleic acid which the target nucleic acid is quantified independently without comparing it to the standard controls by using a calibration curve. This invention will not only provide a new quantifying method, but will also propose a new standard operational method that eliminates the variations accompanying amplification efficiency, polymerase activity, primer concentrations, and instrument variations.

Abstract: A mixing device for operating biological, chemical or biochemical materials used in an assay includes a mixing member formed with a plurality of chambers, each having a sealable port provided along an edge of the mixing member. The mixing device also includes one or more compartments that are movable along the edge of the mixing member between selected ones of the sealed chambers. This compartment is operable to receive materials from and transfer materials between the chambers. Selected ones of the chambers include associated processing elements, for example, including heating and cooling elements, magnetic elements, membranes and lateral flow devices. The mixing device is also pivotable, for example, to facilitate the application of gravity force in the transfer of materials between the chambers and one or more compartments. The mixing device may operate manually by hand-held unit. Also, this mixing device may operate automatically with at least one driving unit.

Abstract: The present invention discloses a two-stage reaction and detection tube comprises a first tube, a second tube and a connector. The first tube comprises a detection space for placing a dipstick and a detection space for the test result. The second tube comprises a storing space for the PCR or RT-PCR reagents and the target gene segments. The connector comprises a first portion and a second portion which connect to the first tube and the second tube respectively. The connector further comprises a diversion unit, a liquid collection space, and a dipstick fixing space, where the liquid collection space is connected to the dipstick fixing space. The target gene amplification and detection could be directly processed in the same tube without any liquid transfer.

Abstract: The present invention is related to a portable apparatus for performing uni-directional convective qPCR or qRT-PCR in a mixing reagent containing a target nucleic acid and a fluorescence dye including denaturation, annealing and extension processes. The apparatus includes at least a temperature controlling unit which comprises at least one heat source and one temperature sensor, a circulation-enabling container, a light source, a photo-detector, a filter, a set of optical elements, and a processor.

Abstract: The present invention relates to a kit and a device for measuring nucleic acid amplification through colour differentiation wherein said kit contains at least one pH indicator dye, one or more contained amplification reagents. The kit and device of the present invention also are used to detect, measure and/or record enzymatic reactions that result in pH changes. The kit and device provide a mechanism to detect pH change by utilizing a pH indicator dye, thus making it observable with the un-aided eye. The kit contains a device for carrying out said reactions. The device contains at least one container, reagents, a pH indicator, a heating or cooling means where needed and a magnetic component.

Abstract: The present invention relates to assay test devices, and methods and kits for use to monitor, sense, read and display results by using devices with printed electronics, such as batteries, reading devices, and other circuitry and/or using colorimetric means for testing by using a sensitive indicator pH dye, or both.

Abstract: Lateral flow devices and methods of use for a molecular diagnostic assay are provided. The method is suitable for detection or monitoring of targets, including biological, chemical, and material targets that exist in very low concentrations in biological samples. The methods and devices of the present application are amenable to power source-free point of care testing.

Abstract: Lateral flow devices and methods of use for a molecular diagnostic assay are provided. The method is suitable for detection or monitoring of targets, including biological, chemical, and material targets that exist in very low concentrations in biological samples. The methods and devices of the present application are amenable to power source-free point of care testing.

Abstract: Lateral flow devices and methods of use for a molecular diagnostic assay are provided. The method is suitable for detection or monitoring of targets, including biological, chemical, and material targets that exist in very low concentrations in biological samples. The methods and devices of the present application are amenable to power source-free point of care testing.

Abstract: Lateral flow devices and methods of use for a molecular diagnostic assay are provided. The method is suitable for detection or monitoring of targets, including biological, chemical, and material targets that exist in very low concentrations in biological samples. The methods and devices of the present application are amenable to power source-free point of care testing.