The present invention relates to a low-cost, thermally reversible valve for paper-fluidic diagnostic devices. In particular, this invention demonstrates a tunable valve mechanism fabricated by wax-ink printing and localized heating via thin-film resistors to sequentially release liquids through a cellulose or nitrocellulose membrane. The wax-ink valve can obstruct fluid flow for a sustained time and are thermally actuated to release a controlled amount of liquid past the valve. This integrated paper-fluidic diagnostic assay device requires minimal user involvement, can be easily manufactured and tuned to meet various fluid delivery timing and incubation needs.

A cartridge has a strip that is provided with the test region and a case in which the strip is accommodated and in which an observation window for observing the test region from an outside is formed in a surface. A emission end portion, through which illumination light for illuminating a test region, is disposed at a position separated from the observation window on a rear surface of the case. A detection unit, that optically detects the color development state of the test region irradiated with the illumination light, is disposed at a position facing the observation window on a surface side of the case. The illumination light is transmitted from the rear surface of the case to an inside of the case, reaches the test region while being diffuse-reflected by an inner surface of the case, and illuminates the test region from the surface side.

A method and system for detecting a target component by using a mobile terminal, and a detection method for simultaneously screening multiple target objects. The method for detecting a target component by using a mobile terminal comprises: detecting a target component by using test strips (100) to obtain chromogenic test strips (100); arranging the test strips (100) around a same circle center at equal angles to obtain an arrangement ring of test strips (100), positioning identifiers being provided on an area outside the test strips (100) on the arrangement ring of the test strips (100); performing image acquisition on the arrangement ring of the test strips (100) by using a mobile terminal, and uploading an acquired image to a data processing center, correcting the acquired image according to the positioning identifiers; determining the positions of a personalized mark area and a result display area of each test strip (100) in the image; performing segmentation to obtain images of the personalized mark area and the result display area of each test strip (100); calculating a chromogenic result of the result display area, and obtaining a test result of the target component; and outputting the test result of the target component and displaying the test result on the mobile terminal.

Embodiments include a reaction vessel having a reaction chamber defined by opposing first and second interior-facing surfaces of the housing; a first light absorbing layer conforming to the first interior-facing surface of the housing component; and a second light absorbing layer conforming to the second interior-facing surface of the housing component; a first energy source configured to direct light through the housing at the first light absorbing layer; and a second energy source configured to direct light through the housing at the second light absorbing layer.

The present invention relates to a whole blood and fingertip blood testing device, including a blood collection structure and a testing chamber connected to and in fluid communication with the blood collection structure. The blood collection structure includes a collection rod, a capillary channel is arranged inside the collection rod, the bottom end of the capillary channel is located at the tail end of the collection rod, and the top end of the capillary channel is located in the middle of the capillary channel; and the collection rod is provided with a communicating hole connected to and communicated with the top end of the capillary channel. Moreover, the present invention also provides a method for collecting and testing a blood sample by using the testing device. Through the integrated structure of the blood collection structure, the testing chamber and the buffer chamber, the whole blood and fingertip blood testing device and method achieve functions of collecting, slowly releasing and testing the blood sample. The operation is easy, which reduces the difficulty of use by the operator. The number of times and time that the operator contacts the sample are effectively reduced, and the infectious possibility of the operator is reduced, so that the testing device is suitable for HIV testing, novel coronavirus testing, etc. The testing device and method have low requirements on the collected amount of the sample, and the collected amount is optimized from the milliliter level to the microliter level.

Provided herein is an integrated sampling and testing device, comprising a sampling device that comprises a syringe and specimen collector, and a testing device that comprises a cap, cylindrical container, and adaptor configured for sampling or testing.

A diagnostic system detects and/or measures hemoglobin variants in blood of subject, such as HbA1c, to determine blood glucose concentration in the subject.

A lateral flow test system having an optical reader, a lateral flow cartridge and a computer system is provided. The lateral flow cartridge includes a porous test strip with a reading window into the porous test strip exposing an exposed zone of the porous strip. The optical reader has a reader housing and a slot for inserting the cartridge into the reader housing. The optical reader has an illumination arrangement adapted for illuminating the exposed zone of the porous strip when the cartridge is inserted into the slot. The optical reader further has a video camera configured for acquiring a series of digital images comprising the exposed zone of the porous strip. The computer system receives sets of pixel data representing the plurality of consecutive digital images and calculates wetting progress along the length of the exposed zone of the porous strip based on the sets of pixels data.

An apparatus for testing a fluid sample including a sample receiving member having an opening for receiving a fluid sample, wherein the sample receiving member comprises at least a first and second sample collection chambers, a sample retention member, in fluid communication with the first sample collection chamber, to retain a portion of the fluid sample, and at least one test strip, in fluid communication with the second collection chamber, to indicate the presence or absence of at least one analyte in the fluid sample, wherein the first collection chamber is not in fluid communication with the second collection chamber.

The invention relates to a testing device with a testing assembly for lateral flow assay. The testing assembly comprises liquid sample receiving interface arranged on a support structure defining a plane. The liquid sample receiving interface is configured to receive a liquid sample. The testing assembly comprises at least one testing strip fluidly connected to the liquid sample receiving interface. The testing strip comprises a capillary wick fluidly connected to the liquid sample receiving interface and including at least one test portion, the test portion comprising at least one respective reacting material configured for reacting in a predetermined manner to at least one specific analyte. The testing device comprises an optical sensor, arranged and configured for detecting light reflected from the at least one test portion and for converting the detected light into an electrical signal representing an intensity and/or a color of the detected light. The testing device further comprises a conversion unit for converting the electrical signal into digital data representing the intensity and/or the color of the detected light, and a transmitter unit for wirelessly transmitting digital data.