Abstract: System, apparatuses, and methods for performing automated reagent-based analysis are provided. Also provided are methods for automated attachment of a cap to a reaction receptacle, and automated removal of a cap from a capped reaction receptacle.

Abstract: The present application provides a system (1) that comprises a mobile phone (25) to allow testing of samples from a patient at the point of care or environmental/industrial process monitoring tests to be performed in the field. The system (1) may be easily adapted for use with a variety of different mobile phones (25). The mobile phone (25) comprises an integrated camera (15). The system (1) further comprises an optical module (20) for receiving a sample for testing. The mobile phone (25) is configured to extract the intensity and/or color information from the camera (15).

Abstract: A safer, low-cost practical method of dissolving beryllium or a beryllium compound including beryllium oxide in a sample is disclosed. This method discloses use of acidic solutions under mild heating conditions to dissolve beryllium and its compounds. These solutions may then be used to quantitatively analyze for beryllium so as to be able to determine the amount of beryllium in the sample. These solutions may also be combined with fluorescent dye indicating solutions to determine beryllium by fluorescence. A preferred fluorescent dye indicating solution contains a dye (10-hydroxybenzo[h]quinoline-7-sulfonate) which specifically binds with beryllium under basic conditions.

Abstract: A test tube holder holds various types of test tubes substantially perpendicular, and is structured to be durable against extraction and insertion of the test tubes. The test tube holder includes a housing part having a hollow portion, a holding part positioned on an upper side of the housing part and having an opening portion, which accepts a test tube, and a housing portion, which houses the accepted test tube. An elastic part is formed inside the holding part so as to abut on the housed test tube. The test tube holder has a weight housed inside the hollow portion. The holding part and the elastic part may be integrally formed. Inside the hollow portion of the housing part, besides the weight, an individual identification tag, an electromagnetic wave absorbent, and a support member for a tapered test tube can be housed in accordance with usage.

Abstract: A double-light cabinet for testing a biological sample labeled with fluorochrome includes a case, in which a light unit and a diffusion unit are received. The light unit has two spot light sources to emit spot lights with specified wavelengths according to the test, and the diffusion unit diffuses the spot lights into surface lights, to which that the biological sample is exposed. The present invention further includes an amber filter unit to filter the surface light to enhance the signal of biological samples. Using the lights with specified wavelengths, the present invention may serve both functions of excitation and illumination of the biological sample.

Abstract: A glucose blood monitor that includes a cartridge releasably insertable into an interior cavity of a housing, said cartridge including a plurality of lancet strips vertically disposed therein, each of said plurality of lancet strips including a hollow needle and a test strip, wherein each of said plurality of lancet strips is cycled from a first cavity within the cartridge, to a prime position for use, to a read position for analysis of a collected blood sample, then to a used position within a second cavity in the cartridge, whereby used needles and test strips are interiorly retained within the cartridge for safe disposal of the cartridge as a whole subsequent use of the last of the plurality of lancet strips.

Abstract: A blood sampling device useful for collecting a blood sample from a separate vascular access device is described herein. The blood sampling device includes a body shaped and sized for partial insertion into a separate vascular access device. The body includes a reservoir defined within the body, which has an internal volume sufficient to contain enough blood for use in a diagnostic blood test. The body also includes a gas permeable vent disposed on the body, in which the gas permeable vent is in gaseous communication with the reservoir. When connected to a separate vascular access device the blood sampling device collects a blood sample as blood flows into the reservoir from the separate vascular access device and as gases pass out the reservoir via the gas permeable vent.

Abstract: Microfluidic devices and methods including porous polymer monoliths are described. Polymerization techniques may be used to generate porous polymer monoliths having pores defined by a liquid component of a fluid mixture. The fluid mixture may contain iniferters and the resulting porous polymer monolith may include surfaces terminated with iniferter species. Capture molecules may then be grafted to the monolith pores.

Abstract: A closure device (1) for closing an opening in a container lid and the use of the closure device (1) in a container lid is provided for covering reagent vessel containers in automatic analysis apparatus. The closure device comprises a fastening element (2), a closure element (20), two levers (14), and a plurality of bearings (18, 16, 24).

Abstract: The technology described herein generally relates to systems for extracting polynucleotides from multiple samples, particularly from biological samples, and additionally to systems that subsequently amplify and detect the extracted polynucleotides. The technology more particularly relates to microfluidic systems that carry out PCR on multiple samples of nucleotides of interest within microfluidic channels, and detect those nucleotides.

Abstract: An apparatus for changing relative concentrations of first and second analyte substances in an analyte sample comprises a sample cell defining a sample chamber therewithin, and a semipermeable boundary member disposed in the sample chamber to define first and second sides of the sample chamber. Sample flow input and sample flow output ducts direct an analyte sample containing respective initial concentrations of the first and second analyte substances into the first side of the sample chamber. The semipermeable boundary member permits diffusion therethrough of the first and second analyte substances to the second side of the sample chamber at different rates. An analyte sample in the second side of the sample chamber, and an analyte sample exiting the first side via the sample flow output duct, have respective concentrations of the first and second analyte substances that are different from the initial concentrations.

Abstract: The invention relates to a device and a method for filtering a liquid sample, wherein first capillary-driven filtration occurs and, after initial filling, pressure-operated filtration is performed by applying a vacuum or a positive pressure.

Abstract: An apparatus has a) a flat, flexible test tube holder ring, and b) a mechanism to manipulate the angular orientation of the flat flexible test tube holder ring. The test tube holder ring includes: (1) an outer circumference, (2) an inner circumference, and (3) apertures to hold test tubes, wherein alternate apertures have circumferential walls to enable positioning the test tubes higher compared to their adjacent test tubes. The mechanism includes an engagement mechanism that orients the angle of the test tube holder ring. When the test tube holder ring is at one angle, the test tube holder ring is flat and planar, and when the test tube holder is at a different angle the test tube holder ring has a conical shape.

Abstract: A cover for a biological sample well tray, comprising a cap for sealing a sample well. The cap comprises a well lens for focusing light into the sample well and collecting light from the sample. In another aspect, the cap comprises an elongate portion configured to permit incoming light to pass into the sample well and out of the sample well. Various other aspects comprise a microcard for biological material, and an apparatus for a plurality of sample well strips. A method for testing a biological sample is also provided.

Abstract: The present invention relates to a sampler which is capable of rapidly and easily separating blood corpuscles from blood, being operated conveniently, and directly using extracted plasma. According to one embodiment of the present invention, a sampler includes a chamber and a membrane guide. Here, the chamber includes an insertion unit having an insertion hole on one side, wherein the other side is opened, and an inner side includes a receiving space for receiving a sample. Additionally, one side of the membrane guide is combined to the membrane, and the membrane guide includes a channel wherein filtered materials, which are filtered through the membrane among the samples received in the receiving space, are moved in a gravitational direction.

Abstract: A biological fluid collection cup for use with a centrifuge bucket to separate a biological fluid into its component parts is disclosed. It includes an hourglass shape with a large upper and lower portion and a narrow middle portion. A piston is to slide into and slideably be received in the lower portion and a side port is provided for withdrawal of a fluid from the narrow portion.

Abstract: A vessel including an identification region may be placed in a holder. Through interaction of a positioning feature on the vessel and an orientation feature on the holder, the vessel can be placed into an alignment orientation, e.g., such that the identification region may be reliably read by a reader. The identification region may provides information related to the sample, such as vessel identity, sample volume, processes to be performed on the sample, and so on.

Abstract: System, apparatuses, and methods for performing automated reagent-based analysis are provided. Also provided are methods for automated attachment of a cap to a reaction receptacle, and automated removal of a cap from a capped reaction receptacle.

Abstract: Re-usable ceramic magic angle spinning (MAS) NMR rotors constructed of high-mechanic strength ceramics are detailed that include a sample compartment that maintains high pressures up to at least about 200 atmospheres (atm) and high temperatures up to about least about 300° C. during operation. The rotor designs minimize pressure losses stemming from penetration over an extended period of time. The present invention makes possible a variety of in-situ high pressure, high temperature MAS NMR experiments not previously achieved in the prior art.

Abstract: A microfluidic flow cell subassembly, which may be assembled into a flow cell having fluidic connections outside of the main substrate, is described for encapsulating a sample to allow for subsequent controlled delivery of reagents to the sample, such as multiplexed in situ biomarker staining and analysis. The fluidic connectors are thin film fluidic connectors capable of connecting to a fluid delivery system. The subassembly may be sealed against a solid support to form a flow cell. Methods of use are also disclosed.