Abstract: Embodiments described herein relate to separating and/or concentrating target cells from a carrier fluid that may include other non-target cells. Embodiments include a cell separator with a flow surface having indentations formed thereon. The indentations are configured to capture target cells by physical and/or chemical interactions. The indentations may also include a layer of support molecules that assist in releasing captured cells for collection.

Abstract: A microwell device is provided. The device includes a plate having a upper surface. The upper surface has first and second recesses formed therein. Each recess has an outer periphery. First and second portions of microwells are formed in upper surface of the plate. The first portion of microwells are spaced about the outer periphery of the first recess and the second portion of microwells spaced about the outer periphery of the first recess. A first barrier is about a first portions of the microwells for fluidicly isolating the first portion of the microwells and a second barrier about a second portions of microwells for fluidicly isolating the second portion of the microwells.

Abstract: Disclosed herein is an optical detector at least including: a first substrate in which a plurality of wells are formed; a second substrate in which a heating section is provided to heat the wells; a third substrate in which a plurality of photoirradiation sections are provided in alignment with the wells; and a fourth substrate in which a plurality of photodetection sections are provided in alignment with the wells.

Abstract: The device permitting an early detection, without measurement of the fluorescence, of colonies resulting from the multiplication of micro-organisms present in a sample to be tested, includes a substantially flat and horizontal detection surface, on which at least one support for growing the micro-organisms in the form of colonies is arranged immobile. The support is of the type membrane or agar medium. There is a detection system, such as a linear scanner, mounted movable and flat for scanning the whole or part of the surface, including at least one CCD sensor associated with an optical system comprised of at least one lighting and at least one optical device, such as a lens. The CCD sensor has a resolution higher than or equal to 2400 dpi. The detection system images colonies having a diameter smaller than 50 [mu]m through a useful magnification higher than or equal to 60.

Abstract: A bioreactor assembly, including: a housing internally defining a plurality of reaction chambers; a medium flow supply line associated with each of the plurality of reaction chambers, wherein the medium flow supply line associated with each of the plurality of reaction chambers is operable for delivering a medium flow to each of the plurality of reaction chambers; and one or more framed membrane cartridges selectively disposed within each of the plurality of reaction chambers, wherein each of the one or more framed membrane cartridges disposed within each of the plurality of reaction chambers is operable for holding a biochemically active material that is reacted when exposed to the medium flow.

Abstract: The present invention relates to methods for analyzing degradation of a biomass material at a high dry weight percentage.

Abstract: A device is described including a lid, a collection portion support, and a collection portion with a surface for receiving a biological sample, the lid includes a window and a window holder, the surface defines a first plane, the collection portion includes a first, a second, and a third position markers, each position marker indicates a center point marker, the center points define a second plane that has a line of intersection with the first plane, the device has an interior volume defined partially by the collection portion support, the collection portion, the window, and the window holder, the window allows visual inspection of the position markers, the collection portion support has a fluid inlet and a fluid outlet with a fluid path from the fluid inlet to the fluid outlet via the interior volume.

Abstract: Disclosed is an apparatus for monitoring airborne microorganisms composed of: a chassis, which has a fan for flowing the air therein from the outside at a portion thereof and of which inside is spatially segmented by partition plates for performing a plurality of steps; a perforated plate, which is disposed at a portion of the chassis and has a plurality of nozzles for focusing split air flows passing through a plurality of spaces in a given direction; a capturing plate, which has a plurality of trapping surfaces at the positions opposite to the plurality of nozzles of the perforated plate; a capturing plate control part, which moves the capturing plate relative to the perforated plate; and an optical detection part for fluorescence generated from the microorganisms on the trapping surface of the capturing plate.

Abstract: There is disclosed apparatus and a system for effecting testing on a sample, such as for medical testing. The apparatus includes a sample chip (30) provided with at least two chambers (48, 50) within which analyte and a sample to be tested can be located, one chamber being a mixing chamber (48) and the other a detection chamber (50), the latter being provided with a sensor or means to enable sensing of one or more parameters pertaining to the sample. A detector unit (70, 170) includes a slot (76) for holding a sample carrier (30), drive means (94) for moving parts of a sample from the mixing chamber (48) to the detection chamber (50), such as by electromagnetic force, sensing means (60) for sensing the one or more parameters, a diagnostic unit (84) for analyzing the sensed parameters and a display unit (72) for displaying the results of the test to a user. The test unit (70, 170) is preferably handheld, which the sample carrier (30) is preferably in the form of a disposable chip.

Abstract: A method of identifying inhibitors of epithelial-mesenchymal transition (EMT). The method may comprise comparing different sets of image data obtained from one or more cell colonies before (T1) and after (T2) exposure to a possible inhibitor of epithelial-mesenchymal transition. The method may further comprise measuring the cell number and a spreading coefficient value in the one or more cell colonies for determining cell count ratio (CCR) and normalized cell dispersion ratio (CDR) for the one or more colonies. The possible inhibitor may then be identified to be an inhibitor of EMT if the determined CCR and CDR indicates that the possible inhibitor i) does not or marginally inhibit growth and inhibits EMT, or ii) inhibits growth and inhibits cell dispersion and optionally inhibits also EMT, or iii) is cytotoxic and inhibits cell dispersion and optionally inhibits also EMT.

Abstract: The present invention includes devices and methods for transfecting a cell or cell population and dynamic monitoring of cellular events. A variety of microelectronic devices are provide that incorporate functions such as electroporation, modulation of a transmembrane potential and dynamic monitoring of cellular functions and mechanisms.

Abstract: The present invention provides systems and methods for assessing migration behavior of biological particles, such as neutrophils, under the effect of a gradient. The systems can include one or more migration chambers, one or more gradient sources configured to generate particular gradients, e.g., of chemokines or the like across the width of the migration chamber, and a detection arrangement that is configured to determine spatial profiles across the migration chamber that indicate the extent of migration.

Abstract: A stackable pipette tip tray is described. The pipette tip tray includes a deck having first and second opposing longitudinal side edges. A plurality of shaft apertures is arranged into a plurality of longitudinal rows on the deck. Each of the shaft apertures has a first size or shape configured to receive a shaft of a pipette tip. The deck also includes a plurality of tip apertures that is also arranged into a plurality of longitudinal rows such that at least one of the longitudinal rows of tip apertures is located between an adjacent pair of longitudinal rows of shaft apertures. Each of the plurality of tip apertures has a second size or shape, different from the first size or shape, and is configured to receive a distal tip end of a pipette tip when one tray of pipette tips is stacked above another tray of pipette tips.

Abstract: The application relates to improved optical containment structures, methods of manufacture and use, and systems for employing same. The optical containment structures generally comprise zero-mode waveguide structures having non-reflective walls. The non-reflective walls allow the preparation of optical containment regions in which the optical containment dimensions can be decoupled from the solution containment dimensions. The application also relates to methods for producing islands of functionality within nanoscale apertures.

Abstract: A testing device uses a selectively deformable substrate to capture and retain spherical beads for genetic experimentation. A method of fabricating the device is described in which a silicon substrate can be coated with a photosensitive, bio-compatible polymer for photolithographic patterning using a single mask exposure. The polymer is patterned with a matrix of wells, each well capable of expansion to accept placement of a bead in the well, and contraction to secure the bead in the well. The polymer can exhibit piezoelectric properties that cause it to respond mechanically to a selected electrical excitation.

Abstract: The present invention relates to the diagnosis and treatment of cancer, and in particular breast cancer. Specifically, in some embodiments the invention relates to methods of diagnosing cancer, and in particular breast cancer, using an antibody specific for a gene product that localizes selectively to the endoplasmic reticulum of the cancer cell(s). In some embodiments, the invention relates to methods of treating cancer, and in particular breast cancer, by administering a composition comprising an RNA interference sequence (e.g., shRNA, RNAi and/or siRNA molecule) characterized by an ability to inhibit an mRNA molecule, which mRNA molecule is encoded by the C43 gene (SEQ ID NO: 1). The invention additionally relates to methods for detecting cancer cells by detecting reduced methylation of the C43 promoter, and methods for reducing cancer metastasis by using demethylation inhibitors that result in increased methylation of the C43 promoter.

Abstract: A microfluidic device for mitochondria analysis includes an inlet coupled to a first access channel, an outlet coupled to a second access channel, and a plurality of trapping channels fluidically coupled at one end to the first access channel and fluidically coupled at an opposing end to the second access channel, each trapping channel has a cross-sectional dimension about 2 ?m in one direction and a cross-sectional dimension between about 0.45 and about 0.75 ?m in a second direction.

Abstract: A cell culture apparatus has four sections, including a cell culture chamber, refrigerator, control unit, and intermediate chamber. The cell culture chamber includes a culture vessel base as a holding member for holding and installing a culture vessel, a microscope for photographing a cell image within the culture vessel, and a drive base which has drive mechanisms such as a pump and a valve to be connected to a flow channel having a closed structure including a tank. With the drive base within the cell culture chamber as the center, the rotatable culture vessel is arranged in the horizontal direction and the refrigerator in which the culture medium base containing the cell fluid and culture medium is installed is arranged in the vertical direction. The arrangement configuration is space-saving and provides a short distance between the instruments.

Abstract: A multi-well plate can be loaded with a range of compliant substrates. Commerically-available assays can be used to test cellular responses across a plate with shear modulus from 50 to 51200 Pascals. Cells can be grown in the plates, and can be manipulated and analyzed. Hydrogels can be attached to the bottom of a well. The plates can support the attachment and growth of different cell types and can be compatible with standard 96-well and 384-well plate assays. The mechanical properties of the hydrogels can be reproducible and stable to increase the shelf life of the substrate. The hydrogel can be compatible with growth of a variety of cell types, various attachment ligands such as collagen I, collagen IV, fibronectin, vitronectin, laminin, or RGD peptides and can be coupled to the gel surface.

Abstract: A MEMS-based system and a method are described for separating a target particle from the remainder of a fluid stream. The system makes use of a unique, microfabricated movable structure formed on a substrate, which moves in a rotary fashion about one or more fixed points, which are all located on one side of the axis of motion. The movable structure is actuated by a separate force-generating apparatus, which is entirely separate from the movable structure formed on its substrate. This allows the movable structure to be entirely submerged in the sample fluid.

Abstract: An apparatus for detecting an object capable of emitting light. The apparatus comprises a light source and a waveguide. The waveguide comprises a core layer and a first cladding layer. At least one nanowell is formed in at least the first cladding layer. The apparatus further comprises a light detector. The light detector can detect a light emitted from a single molecule object contained in the at least one nanowell.

Abstract: An apparatus for detecting an object capable of emitting light. The apparatus includes a light source and a waveguide. The waveguide includes a core layer and a first cladding layer. At least one nanowell is formed in at least the first cladding layer. The apparatus further includes a light detector. The light detector can detect a light emitted from a single molecule object contained in the at least one nanowell.

Abstract: Screening assays and methods of performing such assays are provided. In certain examples, the assays and methods may be designed to determine whether or not two or more species can associate with each other. In some examples, the assays and methods may be used to determine if a known antigen binds to an unknown monoclonal antibody.

Abstract: The present invention includes but is not limited to a specimen collection device that includes a chamber capable of collecting a specimen, a specimen passage slot, a reservoir, a reservoir seal, and a test device. A sample or specimen added to the chamber flows through the specimen passage slot into the reservoir. Flow into the reservoir may be limited by the reservoir seal. The test device positioned within the reservoir detects the presence or concentration of an analyte within the sample or specimen.

Abstract: The present invention relates to a method for detecting the presence of expanded-spectrum ?-lactamase (?-lactamase hydrolyzing expanded-spectrum cephalosporin)-producing bacteria in a sample, said method comprising the steps of: a) performing cell lysis on a test sample in order to obtain an enzymatic suspension; b) reacting a fraction of the enzymatic suspension obtained in step a) with a reagent kit, said reagent kit comprising—expanded-spectrum ?-lactamase substrate selected from the group consisting of cephalosporins, aztreonam, and cephamycins, —a pH color indicator which will change color when the pH of the reaction mixture is comprised between 6.4 and 8.4, wherein a color change after step b) indicates the presence of expanded-spectrum ?-lactamase-producing bacteria in the test sample. The invention also relates to a reagent kit, to a microtiter plate and to their uses in detecting the presence of expanded-spectrum ?-lactamase producers in a test sample.

Abstract: The present invention pertains to an apparatus for holding cells. The apparatus comprises a mechanism for incubating cells having a dynamically controlled environment in which the cells are grown, which are maintained in a desired condition and in which cells can be examined while the environment is dynamically controlled and maintained in the desired condition. The apparatus also comprises a mechanism for determining the state of the cells. The determining mechanism is in communication with the incubating mechanism. The present invention pertains to a method for holding cells. The method comprises the steps of incubating the cells in a dynamically controlled environment which is maintained in a desired condition and in which the cells can be examined while the environment is dynamically controlled and maintained in the desired condition. Additionally, there is the step of determining the state of the cells.

Abstract: Disclosed herein are methods and kits which are useful for detecting presence of an enzyme in a test sample based upon the intrinsic enzymatic activity of such test sample. The present invention provides the ability to evaluate cell culture conditions and optimize the desired glycoform content of recombinantly prepared enzymes.

Abstract: A particle processing device includes a substrate and at least one fluidic path. The substrate is rotatable with respect to the middle region thereof. The fluidic path is provided in the substrate to extend from the middle region to a peripheral region. The fluidic path transfers a fluid having a particle from an input portion to an output portion of the fluidic pather by using a centrifugal force of the rotation of the substrate. A capturing region is formed between the input portion and the output portion of the fluidic path to have a changeable sectional shape for capturing the particle.

Abstract: A device for characterizing the biological properties of cells can include a plurality of dual-compartment assay chambers wherein the compartments of each chamber are separated by a cell layer across which ions can flow. The biological properties of the cell layer in the presence or absence of experimental compounds can be determined by measuring an electrical gradient across the layer. A individual dual-compartment chamber of this type may be referred to as an “Ussing chamber.

Abstract: A system and method for measuring at least one bioprocess parameter utilizes a barrier that separates an external sensor from a culture medium. The barrier allows analytes to diffuse in and out of the culture vessel, thereby allowing the bioprocess parameter to be measured non-invasively by the external sensor.

Abstract: The present invention includes an apparatus and methods for detecting cancer cell metastasis, the apparatus comprising: a multi-well plate for growing cells in tissue culture; one or more shafts, cones, or fins that fit within one or more of the wells of the multi-well plate and that can be positioned in close proximity to the bottom of the one or more wells; a rotational motor connected to drive the one or more shafts, cones, or fins to rotate, such that rotation of the shafts, cones, or fins creates fluid flow within the one or more wells; and a detector capable of measuring cells within the wells.

Abstract: This invention is in the field of medical devices. Specifically, the present invention provides portable medical devices that allow real-time detection of analytes from a biological fluid. The methods and devices are particularly useful for providing point-of-care testing for a variety of medical applications.

Abstract: This disclosure describes the development of a sample preparation, measurement, and analysis method that permits accurate characterization of red blood cells, platelets, and white blood cells, including a 3-part differential of the white blood cells count, to be performed on small volumes of a biological sample. This method is compatible with compact and portable instrumentation that permits the sample collection to be performed in a subject's home and analysis to be performed elsewhere by transmission of the data to a laboratory or doctor's office.

Abstract: A cell incubation system and methods for using a cell incubation system are described. The incubator system comprises an incubation compartment for receiving a microplate for processing samples. The microplate comprises a plurality of wells, each of the plurality of wells including a collection chamber, and a plurality of fluidic structures coupled to the plurality of wells. The microplate further comprises a plurality of sensors coupled to the plurality of wells.

Abstract: Screening assays and methods of performing such assays are provided. In certain examples, the assays and methods may be designed to determine whether or not two or more species can associate with each other. In some examples, the assays and methods may be used to determine if a known antigen binds to an unknown monoclonal antibody.

Abstract: Screening assays and methods of performing such assays are provided. In certain examples, the assays and methods may be designed to determine whether or not two or more species can associate with each other. In some examples, the assays and methods may be used to determine if a known antigen binds to an unknown monoclonal antibody.

Abstract: A genetic detection and determination apparatus which detects or determines genetic information, provided with a reaction container having a reaction vessel, including: a container set portion on which the reaction container is set; a moving mechanism which moves the container set portion along a track; a reaction vessel dividing portion which divides the reaction vessel into a plurality of reaction chambers by deforming the reaction vessel; a heating and cooling portion which heats and cools the reaction container; and a measuring portion which is movable above the container set portion in parallel to an upper surface of the reaction container provided on the container set portion and which measures a reaction within each of the reaction chambers.

Abstract: A culture apparatus for microscopic viewing enables effective microscopic viewing at high magnification of samples such as cells suspended in a culture solution while the samples are maintained at a uniform temperature. The apparatus is used to microscopically view a sample placed on a microscope stage, and is provided with a housing unit that houses the vessel containing a culture solution and the sample; a lid that closes the aperture on the upper surface side of the housing unit; a transparent sheet top heater provided in the portion of the lid that corresponds to the viewing area; and a temperature detecting means where a thin wire detection unit penetrates into the interiors of the housing unit and a well plate to directly measure the temperature of the culture solution. Based on the temperature information, a controller controls the temperature of the transparent sheet top heater using a feedback method.

Abstract: A disposable cartridge is described which is compatible with a MEMS particle sorting device. The disposable cartridge may include passageways which connect fluid reservoirs in the cartridge with corresponding microfluidic passageways on the MEMS chip. A flexible gasket may prevent leakages and allow the fluid to cross the gasket barrier through a plurality of holes in the gasket. Vents and septums may also be included to allow air to escape and fluids to be inserted by hypodermic needle. A MEMS-based particle sorting system using the disposable cartridge is also described.

Abstract: The invention concerns a device and a method for concentrating pathogenic germs potentially present in blood products or derivatives and for detecting said germs comprising the following steps: (a) subjecting a sample of said blood product to a blood cell aggregating treatment, (b) eliminating the aggregates formed at step (a) by passing the treated sample over a first filter allowing through the contaminating germs but not the cell aggregates, (c) selectively lyzing the residual cells of the filtrate obtained at step (b), (d) recuperating the contaminating germs by passing the lysate of step (c) over a second filter to detect the contaminating germs possibly trapped.

Abstract: Cell stimulation, staining, and visualization are common techniques in both clinical and research settings. The invention is directed to microfluidic devices for in situ cell stimulation, staining, and/or visualization, and related methods for applying one or more stimuli to the cells, and fixing and staining of cells in situ. The device allows for high-throughput screening of living cells using a minimal quantity of reagents where the fate of individual cells can be followed over time.

Abstract: The invention relates to a device and method for non-invasive detection of an analyte in a fluid sample. In one embodiment, the device comprises: a collection chamber containing an absorbent hydrogel material; a fluidic channel connected to the collection chamber; a sensing chamber connected to the fluidic channel, wherein the device is comprised of a compressible housing that allows transfer of fluid collected by the collection chamber to be transferred to be extracted and withdrawn to the sensing chamber upon compression of the device, wherein the sensing chamber contains a material that specifically detects the analyte and wherein the sensing chamber is operably linked to a processor containing a potentiostat that allows detection of the analyte using electrochemical sensing.

Abstract: A dialysis cell is provided for the measurement of free thyroxine. The dialysis cell preferably includes a polyhedral housing including a top, a bottom and four sides. The dialysis cell is made up of a buffer portion and serum portion. The buffer portion includes a cavity and the serum portion includes a cavity which, when the buffer portion and serum portion are assembled together, form a central chamber. The central chamber is divided by a vertically aligned dialysis membrane held in place by two O-rings. Buffer is introduced into the dialysis cell's buffer portion through a buffer inlet extending from the dialysis cell's top side to the buffer portion's cavity. Similarly, serum is introduced into the serum portion through an inlet which extends from an opening formed on the dialysis cell's top to the serum portion's cavity.

Abstract: The invention provides a photo bioreactor comprising an aqueous liquid comprising a photosynthetic culture and light distributors (30). Each light distributor has a surface arranged to receive light and a tapered surface arranged to emit at least part of the received light. At least part of the tapered surface is submerged in the aqueous liquid comprising the photosynthetic culture. Light may be distributed efficiently in the aqueous liquid comprising the photosynthetic culture by relatively simple and cheap means. The reactor allows a high illuminated volume fraction.

Abstract: A multiple cuvette strip comprises a plurality of wells and a reversible interlocking device. The well strips can be reversibly interlocked to other well strips to form a sample holder system. One embodiment of a well strip comprises a flange and a slot to form a reversible interlocking device.

Abstract: The invention relates to compositions and methods for multiplex decoding of microsphere array sensors.

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 or 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: A sample processing apparatus includes a sample carrier receiving region configured to receive sample carrier carrying one or more samples for processing by the sample processing apparatus, and a thermal control system that controls a thermal cycling of the one or more samples for processing by the sample processing apparatus by selectively varying a pressure over a fluid in substantial thermal communication with the sample carrier, thereby varying a boiling point temperature of the fluid.

Abstract: The present invention discloses a vessel for culturing cells which includes: a bottom including a base with an upwardly extending wall at least partially bounding the base of the bottom; a top including a base with a downwardly extending wall at least partially bounding the base of the top; a tubular neck with an opening defined therein; and, one or more shelves, wherein, each shelf includes a base with an upwardly extending wall at least partially bounding the base of the shelf. The upwardly extending wall of a first shelf adjoins the downwardly extending wall of the top with the first shelf being located intermediate the bottom and the top. The base of each of the shelves having at least one aperture formed therein. The bottom, the top and the one or more shelves collectively define an enclosed volume for culturing cells. The tubular neck extends from the vessel with the enclosed volume being accessible by the opening in the tubular neck.

Abstract: Screening assays and methods of performing such assays are provided. In certain examples, the assays and methods may be designed to determine whether or not two or more species can associate with each other. In some examples, the assays and methods may be used to determine if a known antigen binds to an unknown monoclonal antibody.