Abstract: Computational methods and systems are described which accept input, identify one or more CYP450-family enzymes, identify one or more modulators of the CYP450-family enzymes, and communicate treatments to at least one system user, wherein the treatments include one or more of the identified at least one modulator.

Abstract: A microfluidic device comprising a first surface portion and a first sample retaining element, which have differing affinities to a fluid, and a method comprising supplying a sample to such a device. In some embodiments, the differing affinity is a result of plasma, ion embedding, surface charging, chemical, optical, electronic and/or electromagnetic treatment. Also, a microfluidic device comprising at least one microcapillary device having a sample retaining element, at least one surface of which exhibits hydrophobicity, hydrophilicity, electromagnetic force exertion and electrostatic force exertion. Also, a microfluidic device comprising a first element having a hydrophilic pattern comprising at least a first sample retaining element. Also, a method comprising supplying a sample to a channel between a first element and a second element, and inducing in the first element at least one hydrophilic pattern by electrets or by internal or external electrodes to provide a charged surface.

Abstract: The invention is directed to a method and device for simultaneously testing a sample for the presence, absence, and/or amounts of one or more of a plurality of selected analytes. The invention includes, in one aspect, a device for detecting or quantitating a plurality of different analytes in a liquid sample. Each chamber may include an analyte-specific reagent effective to react with a selected analyte that may be present in the sample, and detection means for detecting the signal. Also disclosed are methods utilizing the device.

Abstract: The invention refers to a handling kit for analyzing a liquid sample, especially by nucleic acid amplification, comprising a disposable sample holding and processing device (1) dimensioned for use in an apparatus for analyzing a liquid sample, and a sample transfer tip (12) for transferring liquid into the disposable device (1), the disposable device (1) having a sample preparation chamber (10) which has an outlet (9) and an insertion opening (16) which is adapted to receive the sample transfer tip (12), the insertion opening and the sample transfer tip (12) being dimensioned in such a way that inserting the sample transfer tip (12) into an insertion position in the sample preparation chamber (10) causes a tight seal between an outer wall (40) of the sample transfer tip (12) and an inner wall (41) of the sample preparation chamber (10), the disposable device (1) having a vent (31) for venting the sample preparation chamber (10).

Abstract: The invention is directed to a method and device for simultaneously testing a sample for the presence, absence, and/or amounts of one or more a plurality of selected analytes. The invention includes, in one aspect, a device for detecting or quantitating a plurality of different analytes in a liquid sample. The device includes a substrate which defines a sample-distribution network having (i) a sample inlet, (ii) one or more detection chambers, and (iii) channel means providing a dead-end fluid connection between each of the chambers and the inlet Each chamber may include an analyte-specific reagent effective to react with a selected analyte that may be present in the sample, and detection means for detecting the signal. Also disclosed are methods utilizing the device.

Abstract: An immunodiagnostic test card includes a plurality of transparent chambers wherein each chamber includes a quantity of testing material that combines with a patient sample, when mixed, to produce an agglutination reaction. A plurality of indicia are disposed to aid in the manufacture and determining the usability of the cards prior to test and also in objectively grading the agglutination reactions that are formed or lack of agglutination.

Abstract: Sample processing devices with variable valve structures and methods of using the same are disclosed. The valve structures allow for removal of selected portions of the sample material located within the process chamber. Removal of the selected portions is achieved by forming an opening in a valve septum at a desired location. The valve septums may be large enough to allow for adjustment of the location of the opening based on the characteristics of the sample material in the process chamber. If the sample processing device is rotated after the opening is formed, the selected portion of the material located closer to the axis of rotation exits the process chamber through the opening. The remainder of the sample material cannot exit through the opening because it is located farther from the axis of rotation than the opening.

Abstract: A one- or two-dimensional arrangement of flow cells is provided, as part of an array of sample compartments, with at least one inlet and outlet for each sample compartment, formed by a base plate and a body, with an arrangement of spatial recesses corresponding to the (geometrical) arrangement of the sample compartments, combined with the base plate. The arrangement allows for supplying to or removing from the sample compartments, which can be arranged at a high quantity on a small base area, even very small amounts of samples or reagents.

Abstract: Ellipsometry systems for imaging binding events between analytes in a sample and an array of ligands in an evanescent field generated by a beam of light reflected from the plane of the ligands is adapted to a multiwell plate structure in common use. In one example, a film of prism arrays is affixed to the underside of the plate with each prism array located in registry with a well and ligand arrays being immobilized on the (planar) bottom surface of the wells. The prism array may be formed in a film and juxtaposed with the bottom surface of the plate or a prism array can be made integral with the plate bottom of a multiwell plate.

Abstract: Electrokinetic devices and methods are described with the purpose of collecting assayable agents from a dielectric fluid medium. Electrokinetic flow may be induced by the use of plasma generation at high voltage electrodes and consequent transport of charged particles in an electric voltage gradient. In one embodiment, the agents are directed electrokinetically to the sample collection assay device with no intermediate transfer steps. The agents are directed by creation of an electrokinetic potential well, which will effect their capture on to an assay device. Environmental agents such as biowarfare agents, pathogens, allergens or pollutants are collected autonomously on to the assay device, without any human intervention. The dielectric fluid medium, such as air, is sampled by electrokinetic propulsion with no moving parts or optionally, by transporting the dielectric fluid by a fan, pump or by breath.

Abstract: A microsphere-based analytic chemistry system is disclosed in which self-encoding microspheres having distinct characteristic optical response signatures to specific target analytes may be mixed together while the ability is retained to identify the sensor type and location of each sensor in a random dispersion of large numbers of such sensors in a sensor array using an optically interrogatable encoding scheme. An optical fiber bundle sensor is also disclosed in which individual microsphere sensors are disposed in microwells at a distal end of the fiber bundle and are optically coupled to discrete fibers or groups of fibers within the bundle. The identities of the individual sensors in the array are self-encoded by exposing the array to a reference analyte while illuminating the array with excitation light energy.

Abstract: An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.

Abstract: The present invention includes devices, systems, and methods for assaying cells using cell-substrate impedance monitoring. In one aspect, the invention provides cell-substrate impedance monitoring devices that comprise electrode arrays on a nonconducting substrate, in which each of the arrays has an approximately uniform electrode resistance across the entire array. In another aspect, the invention provides cell-substrate monitoring systems comprising one or more cell-substrate monitoring devices comprising multiple wells each having an electrode array, an impedance analyzer, a device station that connects arrays of individual wells to the impedance analyzer, and software for controlling the device station and impedance analyzer. In another aspect, the invention provides cellular assays that use impedance monitoring to detect changes in cell behavior or state. In some preferred aspects, the assays are designed to investigate the affects of compounds on cells, such as cytotoxicity assays.

Abstract: A device and method for enhancing rapid confirmatory immunological testing (“RCIT”) in chromatography strip-type rapid IVD devices useful in, for example, clinical, point-of-care, laboratory or over-the-counter settings. The device drives a flow fluid, primarily under the force of gravity alone, through a first chamber having a porous dam structure to enhance and substantially complete the first affinity binding reaction between a source of mobilizable labeled binding members and an analyte in the fluid. Flow through the dam causes a delay, mixing and trapping of the typically chemically disuniform initial fluid front so that fluid exiting the dam exhibits a more uniformly high degree of first affinity binding and decreased non-affinity binding.

Abstract: The introduction of genetic material or molecules of biological interest into cells is a procedure with an increasing interest both for experimental and application purposes, so that electroporation is a widely used technique, but the electroporation of single adhering cells is still impaired. The present application describes an apparatus for the electroporation of any kind of cell adhering to a substrate at any stage of development, where an electrical signal can be driven and applied to a single adhering cell in culture in order to obtain its electroporation. The method to electroporate a single adhering cell with the apparatus of the invention is also described.

Abstract: An integrated proteomics sample preparation device and method for in-gel digestion of proteins and for desalting and concentrating samples prior to further analysis such as by MALDI TOF and/or electro-spray ionization (ESI) mass spectrometry. The device in accordance with an embodiment of the present invention includes a plurality of wells in fluid communication with a an outlet or drainage opening containing a three dimensional structure comprising a plurality of sorptive particles entrapped in a porous polymer matrix so as to form a device capable of carrying out solid phase extraction. In a preferred embodiment, the wells are configured so as to prevent a sample carrier present in the wells from clogging the outlet when subjected to a driving force such as vacuum. The device also reduces or eliminates overflowing of a well in the event a drain becomes clogged during automated operation.

Abstract: A nonhemolytic sensor for determination of analytes in erythrocyte-containing biological fluids is disclosed that comprises an optical material having a deposit on a surface thereof, where this deposit includes an analyte-reactive reagent and a particulate means for suppressing hemolysis of erythrocytes in an erythrocyte-containing biological fluid, such as whole blood. Thus, a porous array of negatively charged particles, e.g., polymeric beads having a plurality of carboxylate surface groups, are disposed on a sampling surface of an optical sensor, and suppress hemolysis of erythrocytes coming into contact with the sampling surface. In the case of an optical sensor, such particles can simultaneously enhance reflectance of a light beam transmitted through the optical material to the sampling surface site.

Abstract: The present invention relates to a method of imaging structures and features using plasmonic emissions from metallic surfaces caused by chemiluminescence based chemical and biological reactions wherein imaging of the reactions is enhanced by the use of microwave energy and further enhanced by using metallic geometric structures for spatially and temporally controlling the biological and chemical reactions.

Abstract: An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.

Abstract: An integrated proteomics sample preparation device and method for in-gel digestion of proteins and for desalting and concentrating samples prior to further analysis such as by MALDI TOF and/or electro-spray ionization (ESI) mass spectrometry. The device and method of the present invention allow for digestion, desalting and concentration of sample prior to analysis. More specifically, the device in accordance with an embodiment of the present invention includes a plurality of wells in fluid communication with a an outlet or drainage opening containing a three dimensional structure comprising a plurality of sorptive particles entrapped in a porous polymer matrix so as to form a device capable of carrying out solid phase extraction. In a preferred embodiment, the wells are configured so as to prevent a sample carrier present in the wells from clogging the outlet when subjected to a driving force such as vacuum.

Abstract: The present invention relates to a method for identifying transparent objects, for example measurement cuvettes, with the aid of their absorption spectrum and therefore makes it possible to protect articles against forgery or imitation.

Abstract: The device comprises reaction unit cuvettes (22) for different types of tests, a vertical axis rotor (7) which is associated with a rotation drive means and provided with a horizontal gear-teeth crown (8) delimiting radially outwardly open cavities for receiving the reaction unit cuvettes (22), a device (20) for supplying the gear-teeth crown with the reaction unit cuvettes (22), a device (6) for supplying cuvettes with analyzable biological liquid samples, stations (13, 19) arranged around the crown for carrying out measurements and/or analysis and an automation for managing the sequences of a desired process for each cuvette.

Abstract: An embodiment of the invention relates to a device for detecting an analyte in a sample. The device comprises a fluidic network and an integrated circuitry component. The fluidic network comprises a sample zone, a cleaning zone and a detection zone. The fluidic network contains a magnetic particle and/or a signal particle. A sample containing an analyte is introduced, and the analyte interacts with the magnetic particle and/or the signal particle through affinity agents. A microcoil array a mechanically movable permanent magnet is functionally coupled to the fluidic network, which are activatable to generate a magnetic field within a portion of the fluidic network, and move the magnetic particle from the sample zone to the detection zone. A detection element is present which detects optical or electrical signals from the signal particle, thus indicating the presence of the analyte.

Abstract: Disclosed is a detection method for detecting a specific cell in a sample containing multiple cells including the specific cell. Specifically disclosed is a detection method for detecting a specific cell in a sample containing multiple cells including the specific cell, which comprises the following steps (1) and (2): (1) retaining cells contained in the sample on a microarray chip which comprises multiple microchambers, wherein each of the microchambers can contain multiple cells; and (2) confirming the presence or absence of the specific cell in the cells retained on the microarray chip.

Abstract: A biochemical reaction cartridge includes an injection port for injecting a specimen, a chamber for containing the specimen therein, a chamber for containing a reagent for treating the specimen, nozzle ports for applying or reducing pressure by using fluid. In the cartridge, the specimen is subjected to a biochemical reaction by controlling the fluid. The cartridge is mounted in a biochemical reaction apparatus.

Abstract: A microreactor includes a shell structure (2, 3), having a bottom wall (2) and a peripheral wall (3); a layer (5), accommodated in the shell structure (2, 3) and having cavities (9, 10) formed therein, the cavities being accessible form outside the shell structure (2, 3); reagents (17), arranged between the bottom wall (2) and the layer (5), at locations corresponding to the cavities (9, 10). The layer (5) is made of a meltable material that is solid at room temperature, has a melting point (TMP) lower than a maximum operative temperature (TMAX) required by reactions performable through the microreactor (1) and is not miscible with water. The melting point (TMP) may be between 50° C. and 70° C. In one embodiment, the melting point (TMP) is lower than a minimum operative temperature (TMIN) required by reactions performable through the microreactor (1).

Abstract: An assembly is disclosed that is to be used for the culturing of specimens such as embryos and gametes for use in in vitro fertilization. The assembly includes an annular ring which is affixed to the stage of an optical viewing instrument, such as a microscope. The viewing instrument is focused on a point which lies inside of the ring at a predetermined distance from the center of the ring. Circular specimen dishes having a plurality of specimen wells in which the specimens in question are cultured or grown is removably positioned inside of the ring. The specimen wells have bottom walls which are configured so as to ensure that the specimens in the wells will gravitate to the same predetermined position in each of the wells. That position coincides with the focus point of the viewing instrument.

Abstract: An implantable medical device is provided for use with an external detector to detect an analyte in vivo. In one embodiment, the device consisting essentially of a substrate; a plurality of discrete reservoirs located in the substrate, each reservoir having at least one opening; a reacting component contained in each reservoir; and at least one non-degradable barrier layer covering each reservoir opening, the barrier layer being permeable to an analyte to be detected, wherein the reacting component remains inside the reservoirs and can react with the analyte to be detected, and wherein the device is adapted for implantation into the body of a patient.

Abstract: Each well of a multiwell plate adapted to accept a plurality of biological samples for testing for the presence of analytes in the sample is further adapted herein for immobilizing on the side walls of a well a 3D arrangement of ligand arrays. A well is formed with planar side walls and a stack of sample separators is placed within a well in positions so as to not come in contact with ligand spots in the array(s). The spacing between each pair of adjacent separators in a stack forms a sample chamber in a position corresponding to an array of the 3D arrangement of ligand arrays.

Abstract: The invention concerns a group of reagent carriers that is combined to form a composite, each one of said carriers having at least one test region located in a shallow trough-like depression, where the reagent carriers in the composite are held together exclusively by interconnected protective covers for the test regions.

Abstract: A device and methods for monitoring status of at least one cell, wherein the cell has a membrane forming a substantially enclosed structure and defining an intracellular space therein. In one embodiment of the present invention, the device includes a first substrate having a first surface and an opposite second surface, a second substrate supported by the first substrate, the second substrate having a first surface, an opposite second surface, a body portion between the first surface and the second surface, a first side surface and an opposite second side surface, wherein the body portion defines a first passage between the first side surface and the second side surface and an opening on the first surface of the second substrate and in fluid communication with the first passage, and sidewalls positioned above the first surface of the second substrate.

Abstract: A bioreactor for cultivating living cells in a liquid medium. In one embodiment of the present invention, the bioreactor has a first substrate having a first surface and an opposite second surface, defining a chamber therebetween for receiving the cells and the liquid medium. The bioreactor further has a barrier dividing the chamber into a first subchamber and a second subchamber, wherein the barrier has a porosity to allow the first subchamber and the second subchamber in fluid communication and allow at least one predetermined type of cells to permeate between the first subchamber and the second subchamber.

Abstract: The present invention relates to a device, a system and a method for performing monitoring and/or cultivation of microscopic objects. Microscopic objects are in particular microscopic organisms like bacteria and cell cultures, such as cultivation objects like tissue samples and embryos, providing optimal and safe cultivation conditions for incubation during embryo development and for facilitating the selection of optimal embryos to be used in in vitro fertilization (IVF) by facilitating embryo handling for automated digital imaging and time-lapse microscopy.

Abstract: Disclosed is a testing device and methods for the identification of an analyte of interest in a sample. In a preferred embodiment, the testing device includes a front panel having at least one sample application aperture; a rear panel having at least one solvent application aperture; a sample collection matrix disposed between the rear panel and the front panel, the sample collection matrix being in communication with the sample and solvent application apertures of the front and rear panels; and at least one insertable test strip containing a reagent enabling detection of the analyte of interest.

Abstract: The present invention relates to an exposure device for living cell cultures, the device having a medium chamber common to a plurality of cell culture chambers and medium directing means. The medium chamber, cell culture chambers and the medium directing means may be arranged so as to provide substantially contemporaneous medium exchange at the cell culture chambers.

Abstract: A microplate is provided herein having a plate body with at least one well formed therein, the well having a first open end, a second end, an aperture being formed in the second end, and a side wall extending between the first end and the second end. The microplate further has a dialysis membrane extending at least partially across the aperture formed in the second end. Advantageously, with the subject invention, a microplate is provided with a dialysis membrane which allows not only for removal of certain solutes from a solution (high or low molecular weight solutes), but also allows for separation of macromolecular mixtures. Accordingly, a solution may be manipulated with the subject invention to have its concentration altered, to be desalted, and/or to be fractionated.

Abstract: A cell co-culture apparatus and a method of co-culturing and isolating cells using the cell co-culture apparatus to research interactions between cells by direct contact between the cells are provided. The cell co-culture apparatus includes a first substrate including a substrate portion and a plurality of projections provided on a surface of the substrate portion, each of the projections having a top surface for culturing cells, a second substrate including a same number of first channels as a number of the projections such that the channels fit with the projections and substrate surfaces formed between the first channels, and a third substrate including a plurality of second channels corresponding with the top surfaces and a plurality of third channels corresponding with the substrate surfaces.

Abstract: A sensor probe suited for implanting into the skin of a person includes a sensor body which may be formed from a polymer which includes 2-hydroxyethyl methacrylate (HEMA). A sensing system is supported by the body. The sensing system exhibits a detectable change when the probe is exposed to the analyte in the fluid. The sensing system may include an enzyme capable of catalyzing a reaction of the analyte to form a reaction product and a dye system which absorbs in the infrared region of the spectrum in response to the reaction product.

Abstract: The concentration of analytes in a complex mixture can be ascertained by spectroscopic measurement, even if the spectra of substances other than the analyte overlap with that of the analyte. Both independently measured concentrations of the analyte in a training set and of the analyte spectrum are used. Variances in the spectral data attributable to the analyte are isolated from spectral variances from other causes, such as compositional changes associated with different samples that are independent of the analyte. For the special case of noninvasive glucose measurements on the skin of biological organisms, the volume averaged glucose in the sample is predicted from the blood glucose. A test for over-fitting of the data is also described.

Abstract: In the present invention cells are placed in a multiwell plate and grown. When the assay is to be performed, one uses gravity to wash away any unbound ligands rather than vacuum or centrifugation. The cells are then examined to detect the bound ligand. To perform the washing step(s) the plate is placed into a carrier plate having open wells in register with the wells of the filter plate or one may use a wicking device or an underdrain attached to the bottom of the filter plate. Sufficient wash liquid is added to allow for filtration by the effect of gravity to occur. Cells are retained within the wells at a rate of 4 times that of other rapid methods.

Abstract: The present invention relates to methods and devices for adhering cells in a specific and predetermined position with an adhesive control of internal cell organization, methods for preparing such devices, methods for studying modifications of cell shape and global internal cell organization such as the distribution of cellular compartments, centrosome centering, spindle orientation, internal compartmentalization and internal transports, methods for screening compounds of interest which enhance or inhibit specific cell functions.

Abstract: The present invention relates to a process for detecting one or more analytes in one or more samples of biological origin having complex composition. The present invention also relates to a microarray for quantitative determination of one or more analytes in samples of biological origin having complex composition which are immobilized in measurement ranges of microarray, and also to a quantitative detection method based thereon.

Abstract: The invention relates to a miniaturized microtiter plate which has a body made of plastic and a base made of glass, 1000 to 4000 vessels (wells) (3), and a cover (4) which prevents evaporation. The diameter of the vessels (wells) (d) is approximately 1.0 to 1.8 mm. The base of the microtiter plate (2) has a layer thickness ranging from 0.07 to 0.2 mm and the distance of the outermost vessels (wells) from the edge of the glass base ranges from 4 to 11 mm.

Abstract: Devices and methods for detecting the constituent parts of biological polymers are disclosed. A molecular analysis device comprises a molecule sensor and a molecule guide. The molecule sensor comprises a single electron transistor including a first terminal, a second terminal, and a nanogap or at least one quantum dot positioned between the first terminal and the second terminal. A nitrogenous material disposed on the at least one quantum dot is configured for an interaction with an identifiable configuration of a molecule. The molecule sensor develops an electronic effect responsive to the interaction. The molecule guide is configured for guiding at least a portion of the molecule substantially near the molecule sensor to enable the interaction.

Abstract: The invention herein described relates to an assessment device comprising an assay part and a detachable recording part. The assessment device facilitates the rapid assaying and processing of tissue/fluid samples by healthcare workers. Also, advantageously, the result of the assay is only apparent to the healthcare worker after interrogation of the recording part at a processing facility.

Abstract: The device comprises reaction unit cuvettes for different types of tests, a vertical axis rotor which is associated with a rotation drive means and provided with a horizontal gear-teeth crown delimiting radially outwardly open cavities for receiving the reaction unit cuvettes, a device for supplying the gear-teeth crown with the reaction unit cuvettes, a device for supplying cuvettes with analyzable biological liquid samples, stations arranged around the crown for carrying out measurements and/or analysis and an automation for managing the sequences of a desired process for each cuvette.

Abstract: A sensor unit is retained on an assay stage of a surface plasmon resonance (SPR) assay apparatus. The sensor unit includes a prism having a sensing surface, disposed on an upper surface thereof, for detecting reaction of a sample. A flow cell is secured to the upper surface, and has a flow channel for flow of sample fluid containing the sample to the sensing surface. The sensor unit is set removably on the assay apparatus for optically measuring reaction of the sample. In sensor holding, the sensor unit is set on a stage surface of the assay stage by directing down the prism. In a pushing step, a lower surface of the prism is pushed on the stage surface in a first direction upright relative to the stage surface. Two holders push an upper face of the first and second ridges of the prism in the first direction.

Abstract: Devices, systems and methods of using same where hybrid substrate materials are provided with a substantially uniform surface to provide uniformity of properties, including interaction with their environments. Uniform surfaces are applied as coatings over, e.g., hybrid metal/silica, metal/polymer, metal/metal surfaces to mask different chemical properties of differing regions of the surface and to afford a protective surface for the hybrid structure.

Abstract: An apparatus and method for thermal cycling including a pasting edge heater. The pasting edge heater can provide substantial temperature uniformity throughout the retaining elements during thermal cycling by a thermoelectric module.

Abstract: Devices, systems and methods of using same where hybrid substrate materials are provided with a substantially uniform surface to provide uniformity of properties, including interaction with their environments. Uniform surfaces are applied as coatings over, e.g., hybrid metal/silica, metal/polymer, metal/metal surfaces to mask different chemical properties of differing regions of the surface and to afford a protective surface for the hybrid structure.