Devices, systems, and methods for detecting molecules of interest within a collected sample are described herein. In certain embodiments, self-contained sample analysis systems are disclosed, which include a reusable reader component, a disposable cartridge component, and a disposable sample collection component. In some embodiments, the reader component communicates with a remote computing device for the digital transmission of test protocols and test results. In various disclosed embodiments, the systems, components, and methods are configured to identify the presence, absence, and/or quantity of particular nucleic acids, proteins, or other analytes of interest, for example, in order to test for the presence of one or more pathogens or contaminants in a sample.

A parallel preceding system for processing samples is described. In one embodiment, the parallel processing system includes an instrument interface parallel controller to control a tray motor driving system, a close-loop heater control and detection system, a magnetic particle transfer system, a reagent release system, a reagent pre-mix pumping system and a wash buffer pumping system.

Example paper substrate diagnostic apparatus and related methods and systems are disclosed herein. An example apparatus includes a hydrophobic substrate having a first end and a second end opposite the first end. The apparatus includes a detection zone on a first surface of the substrate, the detection zone defining an area to sense an analyte in a sample, the detection zone comprising a first electrode and a second electrode disposed on the first surface of the substrate and a layer of hydrophilic ink disposed on the two electrodes and an area between the first and second electrodes. The apparatus also includes a channel comprising hydrophilic ink disposed on the first surface of the substrate, the channel having an inlet section adjacent the first end of the substrate, a middle section, and an outlet section in contact with the layer of hydrophilic ink. The channel is to transfer a fluid sample from the inlet section to the layer of hydrophilic ink.

A mobile device based multi-analyte testing analyzer for use in medical diagnostic monitoring and screening, and a method of manufacturing the same are disclosed. A reflectance based, colorimetric test strip reader for use with a mobile device having a jack plug receiving socket, said test strip reader adapted for removably receiving a test strip having a test strip longitudinal axis, comprising a housing; a jack plug operably coupled to and extending from said housing and adapted for operable coupling with said jack plug receiving socket; a test strip adapter including structure defining a test strip receiving channel; a light source oriented within said housing for directing light toward said test strip receiving channel to illuminate a test strip arranged within said test strip adapter; and a light sensor oriented within said housing to sense light reflected from a test strip carried by said test strip receiving channel.

Provided are a microfluidic chip and a manufacturing method thereof, and a microfluidic device. The microfluidic chip comprises a first substrate structure comprising a plurality of pin areas comprising a first and a second pin area, a detection area, and a grounding trace. The detection area comprises a plurality of first scan lines extending along a first direction, each of which being connected to the first pin area through a corresponding first scan trace; a plurality of first data lines extending along a second direction, each of which being connected to the second pin area through a corresponding first data trace; a plurality of detection units, each of which comprising a first switching transistor connected to a corresponding first scan line and data line, a driving electrode, and a first hydrophobic layer. The grounding trace is connected to at least one detection unit and one of the pin areas.

Diagnostic systems, methods, and devices employing low-cost handheld components are disclosed herein. A diagnostic system can include a diagnostic device that is configured to perform one or more assays on a fluid sample, such as a whole blood sample, in one or more microfluidic channels or chambers. The diagnostic device can move the fluid sample into or through the one or more microfluidic channels or chambers without using any electrical power, for example, using manual actuation to generate a positive or negative pressure within the diagnostic device. The diagnostic device can have a connector for interfacing with a separate handheld unit that can provide power and data processing. For example, the separate handheld unit can be a smartphone or PDA, and the connector can interface with an existing input/output port of the unit to draw power and/or transmit data.

A gene analyzer has a structure in which a metal block, a heater installed on an outer surface of the metal block, and a heat insulator applied onto an outer surface of the heater are integrally formed, thereby miniaturizing the gene analyzer. Further, parts for light measurement, such as a light source element, a light-receiving element, a light source filter, a fluorescent filter, a light source lens, a fluorescent lens, and the like, are installed in a heat insulator light source path and a heat insulator fluorescent path formed in the heat insulator, and the paths formed in the heat insulator are aligned with a block light source path and a block fluorescent path of the metal block.

A device for analyzing a liquid sample. The device includes an inlet for receiving the sample, a reaction chamber, an analysis module, and at least one pump for moving fluid within the one or more flow paths. The device includes one or more flow paths arranged so as to provide a fluid flow path between the inlet and the reaction chamber, and a fluid flow path between the reaction chamber and the analysis module. The device may be used for analyzing a liquid sample, such as, but not limited to nipple aspirate fluid (NAF).

A fluid ejection device may include a blank cassette that includes a substrate, a die coupled to the substrate, a number of assigned electrical traces formed on the substrate, and a number of unassigned electrical traces formed on the substrate. At least one wirebond may couple at least one of the unassigned electrical traces to the die thereby assigning at least one function to the fluid ejection device.

A test tube for containing a liquid and electrically connected to a blockchain network is provided. The test tube includes a tube body, a cover, at least one overlay unit, a chipset and a detection module. The tube body contains the liquid. The cover is disposed at the top of the tube body and including at least one drip tube. The overlay unit covers the drip tube. The chipset is disposed on the tube body and includes a blockchain tracer. The blockchain tracer records the source of the liquid and a transportation history of the test tube in the blockchain network for tracing. The detection module is disposed on the tube body and electrically connected to the chipset, for measuring a liquid property of the liquid.