Abstract: Described herein are automated, integrated microfluidic device comprising a chemical reaction chip comprising for performing chemical reaction, a microscale column integrated with the chip and configured for liquid flow from the column to at least one flow channel, and wherein the fluid flow into the column is controlled by on-chip valves; and comprising at least two on-chip valves for controlling fluid flow in the microfluidic device.

Abstract: A limited-use blood glucose meter includes a printed circuit board assembly that includes a power source, a strip port, a strip reading device, a controller device, a bi-stable display, and a display controller. The strip reading measures a reaction between a blood sample present on the blood glucose test strip and the blood glucose reagent, generates a blood glucose signal, and calculates a blood glucose level. The controller device receives the blood glucose level from the strip reading device. The controller device provides display instructions to the display controller and the display controller provides drive voltages to the bi-stable segments such that the bi-stable segments persistently display the most-recent blood glucose level. The strip reading device performs a predetermined number of blood glucose tests and calculates a blood glucose level only for blood glucose strips associated with the disposable blood glucose meter.

Abstract: Method and system embodiments of the present invention control the ascorbate concentration in produce treatments and particularly are exemplified in fresh cut fruit and vegetable treatments via measured refractivity and/or electrical conductivity of, and/or calcium ions present in, the treatment solution.

Abstract: Method and system embodiments of the present invention control the ascorbate concentration in produce treatments and particularly are exemplified in fresh cut fruit and vegetable treatments via measured refractivity and/or electrical conductivity of, and/or calcium ions present in, the treatment solution.

Abstract: Method and system embodiments of the present invention control the ascorbate concentration in produce treatments and particularly are exemplified in fresh cut fruit and vegetable treatments via measured refractivity and/or electrical conductivity of, and/or calcium ions present in, the treatment solution.

Abstract: The present invention provides a method for determining at least one evaluation parameter of a blood sample, comprising the following steps: providing (S4) at least one blood gas parameter; providing (S5) at least one hemostasis parameter; and determining (S6 . . . S10?) the at least one evaluation parameter as a function of the blood gas parameter and/or the hemostasis parameter.

Abstract: Photomultiplier tubes differ in performance between individual products, and deteriorate over time. To appropriately use a nonlinear calibration curve, it is desirable that changes in signal level be strictly equalized. This invention includes means for, prior to sensitivity adjustment of a photomultiplier tube by application of high voltages, measuring a same sample under a plurality of high-voltage conditions, determining, from linear relationships between logarithms of each high voltage and those of signal levels, an optimal voltage for a measuring operation of predetermined order of execution in the plurality of measuring operations, and recording identification information for identifying each linear relationship; the invention assessing a healthiness level of the photomultiplier tube by assessing the linear relationship.

Abstract: A non-invasive, calorimetric infection detector is provided, comprised of a substrate, and one or more indicator compositions disposed upon or incorporated therein. These indicator compositions exhibit a persistent change color when exposed to gaseous oxides of nitrogen and acids formed therefrom, providing a means of detecting NO production in a wound, which has been found to occur at a high level at the onset of infection in a wound. In addition, a bandage is provided, comprised of the detector, as well as a porous portion, and preferably a hydrophobic barrier layer to protect the detector from contamination by water and other fluids draining from the wound. The non-invasive, calorimetric infection detector, and bandage containing same, can be utilized to provide a convenient, easily utilized colorimetric means of detecting the onset of wound infection, thereby enabling caregivers to effectively and timely treat infections.

Abstract: An integrated cartridge for sample processing and analysis is disclosed. The integrated cartridge contains a sample preparation chamber having a sample inlet and a sample outlet, and a sample purification chamber adapted to receive a replaceable sample purification unit containing a housing and an extraction filter inside the housing. The extraction filter specifically binds to a molecule of interest. The sample purification chamber has a sample inlet that is in fluid communication with the sample outlet of the sample preparation chamber. Also disclosed is a microarray-based sample analysis (MBSA) system.

Abstract: A kit for determining the gender of an unborn fetus. The kit comprises a container holding a solid composition therein, the solid composition including a basic salt and a transition metal. An atmosphere in the container is substantially free of water.

Abstract: The invention describes methods that use nanostructures and quantum confinement to detect and manipulate chemical and biochemical molecules. To increase selectivity and sensitivity nanostructures are built to have the density of states similar to that in analyte that will be detected and operated. Using device that incorporates such nanostructures, measuring electrical and optical properties of nanostructures and analyte or charge and energy transfer between the nanostructures and analyte a rapid and sensitive continuous detection in fluids can be achieved. Detection can be further enhanced by controlling external environmental parameters and applying external fields. In addition to be detected analyte can be positioned, moved, separated, extracted, and controlled.

Abstract: Embodiments of apparatuses, systems, and methods for label-free detection of biomolecules. In one embodiment, a system includes a light source configured to emit broadband Gaussian light. The system may also include an optical fiber coupled to the light source. Additionally, the system may include an optical sensor. The optical sensor may include a fiber-interface surface configured to be coupled to the optical fiber and to receive broadband Gaussian light from the optical fiber. The optical sensor may also include a sensor body coupled to the fiber-interface surface, the sensor body having a refractive index different from a refractive index of the optical fiber, such that at least a portion of light received by the fiber-interface surface is reflected back to the optical fiber during use; and a binder-interface surface coupled to the sensor body, the binder-interface surface configurable to receive a chemical binder layer.

Abstract: A solid composition for determining the gender of an unborn fetus, comprising a first layer comprising a basic salt, a second layer comprising a transition metal, and a third layer comprising a neutral filler separating the first and second layers.

Abstract: Device (1) for optoelectronically characterizing samples by means of electrochemiluminescence (ECL), in which an electric voltage applied across a counter electrode (6) and a working electrode (2) on which the sample spots are disposed excites the sample to luminescence and a reading of the luminescence is taken using an optoelectronic component, characterized in that the optoelectronic component comprises an image detection component (4) with a photoactive layer (10) made from organic semiconductors between two electrode layers (11,14).

Abstract: An automated system for preparing a plurality of cytological specimens from a plurality of fluid samples in vials includes an apparatus for collecting a monolayer of cells from each sample and transferring the cells to a microscope slide for fixing, staining, and inspection. The system includes a first loading station for receiving the sample vials, a second loading station for receiving consumables such as filter membranes, a slide dispenser, and an unloading area for removing completed specimen slides. To maintain one-to-one correlation between the samples and specimens produced therefrom, the system includes a subsystem for identifying each sample and permanently marking each slide with corresponding indicia prior to transferring the specimen thereto.

Abstract: Disclosed herein is a centrifugal rotor for delivering and analyzing biological sample. Chambers within the centrifugal rotor is used to split a biological sample, which comprises biological cellular components and biological fluids, into separate parts under centrifugal force after the biological sample being diluted, metered and distributed by the centrifugal rotor.

Abstract: A method of determining a kind of a sample, in a method for analyzing a substance by the steps of supplying the sample to be analyzed to a reaction system by a supplying means comprising a transparent region composed of a transparent material, reacting a reagent for detecting the substance with the sample in the reaction system, and analyzing a signal derived from a product obtained by the reaction, characterized by irradiating the transparent region with light in the supplying step, and analyzing an optical intensity of the light.

Abstract: A sample preparation assembly includes a torch configured for use with an inductively coupled plasma spectroscopy instrument. The torch includes at least two approximately cylindrical tubes arranged substantially concentrically. The sample preparation assembly also includes an injector configured for use with the inductively coupled plasma spectroscopy instrument. The injector includes an injection nozzle and a spray chamber. The sample preparation assembly further includes a heat sink element. The heat sink element includes a securing element. The securing element is configured to mate with a mounting element of the torch to mechanically support the heat sink element.

Abstract: In one example, a method of examining contents of an object is disclosed comprising scanning an object by first and second radiation beams at least first and second angles, detecting radiation at the first and second angles, and determining whether the object at least potentially comprises high atomic number material, which may be nuclear material or shielding material, based, at least in part, on the detected radiation. In one example, the detected radiation at both angles must be indicative of a region of high atomic number material by the presence of corresponding high density regions, in order for it to be concluded that high atomic number material that may be nuclear material may be present. The determination may be further based on the size of a high density region in one of the images. Systems are also disclosed.

Abstract: The present invention provides an innovative means for efficient and secure component assembly and for ensuring secure electrical connections in a small diagnostics device where available space for fasteners is limited. In one embodiment, principles of leverage are employed to produce a force at a location where space is available. The force is transferred to a different location of the assembly where it is used to maintain secure connections between components.