The present invention relates to a single-use test strip for the quantitative determination of a concentration of a cationic electrolyte which is not sodium, and of creatinine concentration, and for the subsequent determination of their ratio, and to a non-invasive point-of-care (POC) device for detecting a disorder of electrolyte balance in patient's body. Furthermore, the present invention relates to a method for simultaneously and quantitatively determining a cationic electrolyte concentration and creatinine concentration in a patient's urine sample and to a method of detecting a disorder of electrolyte balance in a patient's body.

A cell picking device for sucking cells from a liquid sample in a sample container includes a sucking member to which a pipette tip is attachable, a driver that moves the sucking member and performs suction through the sucking member and the pipette tip, a work mode switcher that switches a work mode of the driver between a first mode and a second mode, and a controller that controls the driver.

Embodiments may include a rapid test device that provide rapid detection of substances, including those involved in pathogen infection, for example, using Microscale Affinity Chromatography (MAC), indirect ELISA, and optical molecular sensing technology. For example, in an embodiment, an apparatus may comprise a loading bay disposed on the apparatus to receive a cartridge, a door disposed on the apparatus to cover the loading bay, a plurality of prongs disposed on an interior of the door to provide actuation force to dispense blister reservoirs disposed on the cartridge when the door is closed, and a device disposed relative to the cartridge to move at least a portion of contents of the cartridge among chambers of the cartridge.

A cell picking device that sucks cells from a liquid sample in a sample container and accommodates the sucked cells in any of a plurality of wells of an accommodating plate, includes a suction discharger that sucks cells in the sample container and discharges the sucked cells into any of the plurality of wells, the receiver that receives selection of a well in which cells are to be accommodated out of the plurality of wells of the accommodating plate as a selection well, a driver that adjusts a relative positional relationship between the suction discharger and the plurality of wells of the accommodating plate, and a work controller that controls the driver such that the suction discharger discharges cells into the received selection well out of the plurality of wells of the accommodating plate.

Personal diagnostic devices including diagnostic patches (bio-patches) and interactive medical bracelets (bio-bracelets) are provided with a skin/patch interface, at least one analysis layer, a signal processing layer, and a user output interface. Embodiments of the interactive diagnostic devices may include micro-fluidic circuits with reaction chambers, analysis chambers, mixing cambers, and various pre-disposed chemistries or reagents for performing a wide verity of tests by transdermal transport of blood or perspiration. Sample collection chambers for the fluidic circuit may include minimally invasive tubules that penetrate the skin surface to acquire blood samples from capillaries near the epidermis. Alternate implementations of the personal diagnostic device may be equipped with logic processing, input/output devices, acoustic microphones, cryogenic circuits, embedded processors, electrical control circuitry, and battery current sources or photovoltaic sources of electrical power.

A container (100) having a first end (102) a second end (104), and a deformable middle portion (106) and methods for manufacturing the container are disclosed. The container has a collapsed configuration and an expanded configuration. The first and second ends are rigid. The container is configured to store cell culture solution powder. Methods and systems (e.g., a dispenser) for creating culture solution using the container are also disclosed.

A physical quantity detection device including a container that is formed with an accommodation space accommodating a detection object formed of a dielectric, a first electrode and at least one second electrode that face with each other via the accommodation space, and an electrostatic capacitance detector that detects an electrostatic capacitance between the first electrode and the second electrode by applying an alternating current voltage between the first electrode and the second electrode. A frequency of the alternating current voltage applied between the first electrode and the second electrode is 1 kHz or higher.

The present invention relates to a kiosk type urine analyzer and a health monitoring system using the same and relates to a kiosk type urine analyzer capable of analyzing urine of a user in an unmanned manner to provide an analysis result and monitoring health of the user through the analysis result, and a health monitoring system using the same.

An acoustic analyzer system is provided that includes an acoustic analyzer having a reusable glass flow cell positioned within the acoustic analyzer. A disposable card body may be inserted into the acoustic analyzer and deliver sample fluid to the glass flow cell so that acoustic-wave assisted measurements may be performed on the sample fluid. The disposable card body may also deliver wash fluid to the glass flow cell, and receive waste sample fluid and waste wash fluid from the glass flow cell to prepare the glass flow cell for subsequent sample fluids. Numerous other embodiments are provided.

Assay cartridges are described that have a detection chamber, preferably having integrated electrodes, and other fluidic components which may include sample chambers, waste chambers, conduits, vents, bubble traps, reagent chambers, dry reagent pill zones and the like. In certain embodiments, these cartridges are adapted to receive and analyze a sample collected on an applicator stick. Also described are kits including such cartridges and a cartridge reader configured to analyze an assay conducted using an assay cartridge.