Abstract: Methods and devices for the interfacing of microchips to various types of modules are disclosed. The technology disclosed can be used as sample preparation and analysis systems for various applications, such as DNA sequencing and genotyping, proteomics, pathogen detection, diagnostics and biodefense.

Abstract: A method is provided of applying a test sample to a fibrous pad containing growth media which uses unaccelerated dispersion and deposition of the microorganism.

Abstract: Methods of the invention include the isolation of intact, viable microorganism(s) from positive blood culture (“PBC”) samples for use in downstream analyses such as identification and antimicrobial susceptibility testing (“AST”). The methods involve collecting a portion of the PBC sample, adding a choline-containing solution, lysing the blood cells, isolating the viable microorganism, and performing downstream analysis of the isolated, viable microorganism. The methods can be applied to a variety of gram-positive bacteria, gram-negative bacteria, and/or yeast, and particularly to strains of S. pneumoniae.

Abstract: The present invention relates to paper supports for neonatal screening that are used for the storage and further processing of biological materials. The invention is particularly concerned with paper supports which have at least one surface coated with a chemical that enhances the recovery of the biological material from the support. Methods of preparing and using the paper supports are also described.

Abstract: The present invention relates to solid supports that are used for the storage and further processing of biological materials. The invention is particularly concerned with solid supports which have at least one surface coated with a chemical mixture that enhances the recovery of the biological material from the support. Methods of preparing and using the solid supports are also described.

Abstract: The present application discloses methods and apparatus for preparing blood film or smear samples on a fiber surface, staining the test sample, and generating digital cell images of the films or samples for classification and review. The techniques disclosed herein replace conventional microscope slides with fibers when preparing blood film test samples. Using fibers to prepare blood test samples facilitates automation and integration of the various processes involved in hematology analysis. The techniques disclosed herein can be used to improve the accuracy and efficiency of hematology analysis.

Abstract: A device and method for use in taking a sample from an item of medical equipment for the purpose of microbiological testing. The device includes attachment mechanism for attaching about a region of the item of medical equipment in an air-tight manner; and collection mechanism for collecting fluid which emanates from the item of medical equipment.

Abstract: A process for isolating microorganisms is disclosed. The process utilizes a device comprising an inner surface, an outer surface, a first port, and a second port, wherein the inner surface comprises an unmodified, smooth glass substrate and defines a binding chamber providing fluid communication between the first port and second port. Microorganisms in an aqueous solution are contacted with the unmodified, smooth glass substrate, wherein the solution is essentially free of cell precipitants, and the microorganisms are allowed to bind to the glass substrate.

Abstract: Method for transport of suspensions containing mechanically sensitive material with a sample-transporting device comprising transport conduits and at least one system for accelerating a sample or aliquot through the transport conduit from at least two burets.

Abstract: This invention relates to a device and method for engineering microchannel geometries to take advantage of surface tension to guide fluid location. This technology may be used to construct compartmentalized systems of various materials that are added in liquid state, and may be used in a liquid state, or may be solidified, gelled, cross-linked, polymerized, or alternatively may be accumulated through gravity (e.g. cell settling), or centrifugation.

Abstract: The present invention relates to an apparatus for partitioning a sampling region on a solid surface and a method for collecting a microbial sample from a solid surface, in which an optimal sampling region is partitioned on a solid surface using a light source without bringing the solid surface into direct contact with a ruler or a partitioning tool. With the apparatus and method, a solid surface can be prevented from being contaminated during partitioning process, accuracy of sampling operation can be increased, partitioning operation can be continuously performed in a simple manner, and cost of sampling operation can be reduced.

Abstract: The invention mainly relates to the mass spectrometric identification of pathogens in blood cultures from blood-stream infections (septicemia). The invention provides a method with which microbial pathogens can be separated in purified form from blood after a relatively brief cultivation in a blood culture flask, without any interfering human proteins or any residual fractions of blood particles such as erythrocytes and leukocytes, and can be directly identified by mass spectrometric measurement of their protein profiles. The method is based on the use of relatively strong tensides to destroy the blood particles by dissolving the weak cell membranes and most of the internal structures of the blood particles; in spite of the fact that tensides are regarded as strong ionization inhibitors in MALDI and other ionization processes required for mass spectrometric measurements.

Abstract: Provided are methods and compositions for isolating and detecting rare cells from a biological sample containing other types of cells, particularly including debulking that uses a microfabricated filter for filtering samples. The enriched rare cells can be used in a downstream process such as identification, characterization or growth in culture, or in other ways. Also included is a method of determining tumor aggressiveness or the number or proportion of cancer cells in the enriched sample by detecting telomerase activity, nucleic acid or expression after enrichment of rare cells. Also provided is an efficient, rapid method to specifically remove red and white blood cells from a biological sample containing at least one of the cell types, leading to enrichment of rare target cells including circulating tumor (CTC), stromal, mesenchymal, endothelial, fetal, stem, or non-hematopoietic cells et cetera from a blood sample.

Abstract: A system and method for preparing samples to test an environmental surface for an analyte of interest. The system can include a deformable self-supporting receptacle comprising a reservoir, and a loaded substrate positioned in the reservoir of the deformable self-supporting receptacle. The loaded substrate can include a substrate and a source collected from the surface. The method can include combining the loaded substrate and a diluent in the reservoir, and agitating the loaded substrate and the diluent to form a liquid composition comprising the source and the diluent.

Abstract: Microfluidic systems and methods can dispense single or multiple fluid particles (such as a gas or other fluid bubble) or an encapsulated particle (e.g., a bead or biological cell) into a microchannel.

Abstract: The invention relates to a method for isolating at least one fluid sample well laid out in a test card for analyses, said test card including a plate (3) having at least one first main face from which is laid out at least one channel communicating with at least said well, this first face being coated with a membrane (17) provided with an adhesive (18) and which will cover said channel with a covering area (171), the method for isolation including a phase for introducing a fluid sample into at least said well and a phase for isolating said well consisting of exerting a force on at least one portion of the covering area (171) of the adhesive membrane (17) for ensuring displacement of the adhesive into an obturation area for the sample well.

Abstract: The present invention relates to adapters for microplates. The adapters allow sampling from a liquid growth medium in a microplate well after a microorganism has formed a dense layer of biomass on the surface of the growth medium.

Abstract: A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration agent that comprises diatomaceous earth bearing, on at least a portion of its surface, a surface treatment comprising a surface modifier comprising titanium dioxide, fine-nanoscale gold or platinum, or a combination thereof; (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

Abstract: A biosensor based detection of toxins includes enhancing a fluorescence signal by concentrating a plurality of photosynthetic organisms in a fluid into a concentrated region using biased AC electro-osmosis. A measured photosynthetic activity of the photosynthetic organisms is obtained in the concentrated region, where chemical, biological or radiological agents reduce a nominal photosynthetic activity of the photosynthetic organisms. A presence of the chemical, biological and/or radiological agents or precursors thereof, is determined in the fluid based on the measured photosynthetic activity of the concentrated plurality of photosynthetic organisms. A lab-on-a-chip system is used for the concentrating step. The presence of agents is determined from feature vectors, obtained from processing a time dependent signal using amplitude statistics and/or time-frequency analysis, relative to a control signal.

Abstract: A disposable cassette for blood analysis includes a housing having an upper panel and a sampling section having a filling inlet; at least one pair of chambers in a form of depression of the upper panel of the housing and sealed by a diaphragm; portions of the diaphragm over the chambers being flexible; and one or more channels adapted to interconnect the pair of chambers; one of the chambers containing a predetermined amount of a reagent for blood analysis; and a sample outlet disposed next to and connected to the chamber containing the reagent, the sample outlet including an outlet cavity recessed from the upper panel, a divider disposed therein, and a cover covering the outlet cavity; the sample outlet sealing the reagent to the chamber containing the reagent. Further disclosed is the method of using the disposable cassette for measurements of hematology parameters on a blood analyzer.

Abstract: The invention concerns a device and a method for concentrating pathogenic germs potentiaily 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: Particular aspects provide a method of sampling, testing and validating test lots (e.g., single-unit production lots), comprising: assembling a plurality of product portions from each of a plurality of test lots and combining the collected product portions to provide a corresponding set of test lot samples (wherein each test lot sample is attributed to a particular corresponding test lot); enriching the set of test lot samples; removing equal portions of each enriched sample, and combining the removed portions to provide a modular composite sample; and testing of the modular composite sample for the target agent/organism, wherein where such testing is positive, individual test lots may nonetheless yet be validated by further testing of a respective enriched test lot sample and obtaining a negative test result. The methods have broad utility for monitoring all sorts of test lots (e.g., environmental lots, production lots, pharmaceutical lots, etc.

Abstract: The present invention relates to a method for isolating microorganisms and/or microorganisms nucleic acids from a bodily fluid that may comprise or may be suspected to comprise microorganisms and/or host cells and/or host cells debris. Microorganisms nucleic acids may further be isolated by lysing the isolated microorganisms. The present invention also relates to a method for detecting microorganisms in a bodily fluid. The present invention further relates to a saponin formulation and its use.

Abstract: A method of isolating cells includes providing a microfluidic device having at least one microfluidic channel coupled to an inlet and an outlet, the at least one microfluidic channel comprises at least one expansion region disposed along the length thereof. The at least one expansion region is an abrupt increase in a cross-sectional dimension of the at least one microfluidic channel configured to generate a vortex within the at least one expansion region in response to fluid flow. A solution containing a population of cells at least some of which have diameters ?10 ?m flows into the inlet. A portion of cells is trapped within vortex created within the at least one expansion region. The trapped cells may then released from the expansion region.

Abstract: The present invention relates to systems and methods for automated, computer-controlled, tracking and manipulation of motile specimen. The systems and methods of the present invention are suited for tracking and manipulating sperm, particularly for Intracytoplasmic Sperm Injection (ICSI) procedures. The present invention also relates also to devices for holding motile cells, such as sperm, and non-motile cells, such as oocytes. The device of the present invention comprises a sealed chamber having an air outlet, one well for the motile cells, and another well for non-motile cells.

Abstract: There is provided an ultrasonic dissection device for relatively removing a target biological object from other biological objects, the ultrasonic dissection device including an ultrasonic wave generation unit, an ultrasonic wave convergence unit, and a controller to control the ultrasonic wave generation unit.

Abstract: The present invention concerns compositions and methods of extracting infectious pathogens from a volume of blood. In one embodiment, the method includes the steps of creating a fibrin aggregate confining the pathogens and introducing a fibrin lysis reagent to expose the pathogens for analysis. The present invention also concerns materials and methods for removing aurintricarboxylic acid (ATA) from a sample.

Abstract: A microfluidic chamber for use in individual cell assays. The microfluidic chamber includes a cell microchamber having an interior region and front and rear valves, each of which are separately controllable so that they can be selectively opened and closed to thereby permit the transference of an individual cell into and out of the interior region. Cell secretion and contact interaction studies can be carried out using the microchambers, with the valves permitting either complete isolation or perfusion media flow through the microchambers. An internal perfusion wall can be included to partition the microchamber for non-contact perfusion studies of secretion interactions between cells.

Abstract: A device and methods are provided for efficient and quick capture of target cells through a main microchannel having capture elements immobilized thereon and manipulating a velocity profile of a sample as it passes through the main microchannel. The cell capture device may have a main microchannel with a depth slightly larger than the diameter of the target cells and a plurality of side microchannels. The side microchannels may have a depth smaller than the diameter of the target cells. The device and methods may be used for early cancer detection.

Abstract: A biological sample collection and preparation kit includes a container-closure combination and collector including a handle, screen, and probe. The screen includes tapered apertures for separating sample debris from sample constituents collected via floatation. The probe is combined with the handle and screen to provide a disposable collector for safe and convenient sample collection. A vibratory agitation head includes a series of wells to secure containers thereon for sample preparation. The agitation head and containers are keyed to position containers on the agitation head in a desired orientation. The containers, collectors, and agitator head can be combined with a vibrator, preparation liquid, transfer slides and a slide handling, implements into a self-contained mini-lab station sample preparation kit, e.g., for onsite veterinary diagnosis.

Abstract: A method for isolating and processing bone marrow derived stem cells, including the steps of: (a) collecting a biological sample containing adherent bone marrow stem cells in a receptacle with interior walls coated with a cell-adherent substrate; (b) incubating the bone marrow cells on the adherent substrate so that a layer of adherent bone marrow stem cells adheres to the substrate; (c) washing any non-adherent cells from the substrate; and (d) collecting the bone marrow stem cell layer. Isolation kits and use of bone marrow cells harvested for cell therapies are also described.

Abstract: Methods of the invention include the isolation of intact, viable microorganism(s) from positive blood culture (“PBC”) samples for use in downstream analyses such as identification and antimicrobial susceptibility testing (“AST”). The methods involve collecting a portion of the PBC sample, adding a choline-containing solution, lysing the blood cells, isolating the viable microorganism, and performing downstream analysis of the isolated, viable microorganism. The methods can be applied to a variety of gram-positive bacteria, gram-negative bacteria, and/or yeast, and particularly to strains of S. pneumoniae.

Abstract: The present invention generally relates to compositions and methods of delivering substances in a dry mode. In one embodiment, the substance can be bacteria, enzymes, other microorganisms, or combinations thereof. The compositions that are in accordance with various embodiments of the present invention have varied uses, which can include delivering microorganisms to remove contaminates, such as oil, chemical, waste, or sewage, from soil, water, or air. In other embodiments, the substances can include liquid food, liquid food additives, liquid biotech agricultural ingredients, conventional liquid agricultural ingredients, liquid human wellness and dietary supplements, and liquid fragrances and beauty products.

Abstract: An automatic device for inoculating a sample on a substrate with a dilution mechanism formed by a head that holds a stylus in cooperation with a first dilution tank and a second dilution tank to dilute an original sample in at least one sub-sample and for inoculating the sub-sample on a substrate.

Abstract: A method for transferring a filter membrane (130) bearing a retentate to a reagent pad (310), in which the membrane is mounted in a support frame (120) having a shoulder (121) and a skirt (122) projecting from the shoulder, the pad being mounted on a cassette (300) of complementary form to said skirt, the skirt being adapted to slide sealingly on the cassette until it comes into abutment formed by the shoulder, the method comprising the steps of sealingly engaging the skirt of the membrane support frame on the cassette, establishing a pressure difference between the cassette and the membrane support frame such that the membrane adopts the shape of a dome pointing towards the pad, while maintaining the pressure difference, applying a force on the frame so as to make the skirt slide on the cassette until contact is established between the end of the dome and the pad, maintaining a force on the frame so as to move it downward until it comes into abutment formed by the shoulder while maintaining the pressure diff

Abstract: A microfilter comprising a polymer layer formed from epoxy-based photo-definable dry film, and a plurality of apertures each extending through the polymer layer. A method of forming a microfilter is also disclosed. The method includes providing a first layer of epoxy-based photo-definable dry film disposed on a substrate, exposing the first layer to energy through a mask to form a pattern, defmed by the mask, in the first layer of dry film, forming, from the exposed first layer of dry film, a polymer layer having a plurality of apertures extending therethrough, the plurality of apertures having a distribution defined by the pattern, and removing the polymer layer from the substrate.

Abstract: This present invention relates to an automatic fluid sample preparation module and method for use thereof, for automatically preparing a fluid sample for detecting micro-organisms and/or biological substances. The invention further relates to an automatic analysis system. The automatic fluid sample preparation module comprises:—an inlet for automatically obtaining a sample directly from a fluid or fluid stream to be analyzed; —preparation means for preparing the fluid sample from the sample, comprising first coupling means for coupling with the inlet; and—an outlet for discharge of prepared fluid to measurement means, wherein the preparation means are provided such that micro-organisms and/or biological substances from one or multiple samples are accumulated in the prepared fluid sample.

Abstract: A microfluidic method and device for testing and analyzing chemotaxis by providing a stable, static fluid gradient. The device includes a sink reservoir for receiving biological cellular material and a source reservoir for receiving a chemoattractant. The biological cellular material migrates through a low fluid volume microfluidic gradient channel located between the source and sink reservoirs. The fluid in the gradient channel is static and stable due to a high fluid volume closed circuit bypass microfluidic channel also in fluid communication with the source and sink reservoirs, whereby the bypass channel relieves any pressure differential imparted across the gradient channel.

Abstract: Inoculation loop devices having an angled end are disclosed. Methods of making and using inoculation loop devices having an angled end are also disclosed.

Abstract: Exemplary embodiments provide bioaerosol detection systems and methods for detecting bioaerosols. In one embodiment, the bioaerosol detection system can include a humidifier to increase the humidity of a continuously flowing sample volume of a bioaerosol sample using a biologically compatible liquid medium, and an amplifier to deposit vapor on the bioaerosol sample for a particle size amplification process. Bioaerosol(s) can thus be detected and sampled while simultaneously maintaining their viability. The disclosed bioaerosol detection systems and the methods can provide high efficiency for sampling and detecting ultrafine bioaerosol(s) such as viruses and proteins, which can be smaller than 0.3 ?m in diameter and can be as small as 20 nm.

Abstract: The present invention provides a method of isolating motile cells from an animal tissue, the method comprising implanting in the animal tissue a cell trap comprising a chamber with an inlet for ingress of motile cells and a porous matrix located in the chamber comprising a chemotactic factor, for a time sufficient for the motile cells to migrate into the cell trap; removing the implanted cell trap; and retrieving the motile cells from the cell trap.

Abstract: The present invention relates to an apparatus (1) for automated exploitation of cells from a sample, comprising a plurality of dispensing containers (2) for the separated storage of fluid media, each dispensing container comprising an outlet (21) wherein a media delivery arrangement (3) is associated to each of the dispensing containers (2) and a first valve (22) is connected to each of the outlets (21), a plurality of collecting containers (4) for the collection of fluid media, each collecting container (4) comprising an inlet (41) wherein a second valve (42) is connected to the inlet (41) of each collecting container, and a mounting device (5) for mounting the sample, the mounting device comprising an inlet (51) being connected to the first valve (22), and an outlet (52), wherein the outlet (52) of the mounting device is connected to the second valve (42). Further, the present invention enables a method for automated cell exploitation from a sample by the use of the apparatus (1).

Abstract: A method for environmental monitoring and bioprospecting includes the steps of: (a) utilizing a testing device having: (i) a container having a fluid inlet and outlet, (ii) a plurality of capillary microcosms situated within the container, each of these capillaries having an inlet and outlet that are configured so as to allow for fluid flow through the capillaries, each of these capillaries further having a means for covering its inlet and outlet so as to prevent flow through the capillary, (iii) a pump connected to the container outlet, the pump being configured so as to draw fluid from the surrounding environment into the container's inlet and through the capillaries, (iv) connected to the outlet of the container, a means for collecting the flow through the container, and (v) a check valve connected downstream of the container to prevent the backflow of fluid into the container, (b) adding specified test substances to the device's capillaries, wherein these substances are to be analyzed for their ability to

Abstract: In a microdissection method and a microdissection system, first and second objects are transported from a preparation to first and second collection devices, respectively, so that a position of the second collection device relative to the first collection device substantially corresponds to a position of the second object relative to the first object in the preparation.

Abstract: Disclosed is a method of studying floating living cell by confining the cells floating in an aqueous medium in picowells located on a bottom surface of a top wall of a chamber. Disclosed is also a picowell-bearing device for the study of cells comprising a chamber having at least one picowell on a bottom surface of the chamber. Also disclosed is a picowell-bearing device for the study of cells comprising a chamber having at least one picowell on an internal surface and at least one moveable wall, a force applicator configured to removeably apply a substantially uniformly distributed force around the periphery of the moveable wall in a direction to retain the moveable wall secured to the chamber.

Abstract: A liquid testing assembly for testing a liquid, the assembly comprising a test vessel and a stopper adapted to fit into a free end of the vessel. The stopper substantially hermetically seals the test vessel from the ambient. Further, the assembly includes a support coated with one or more identifying materials for identifying one or more constituents of the liquid. The support is fixed in the stopper and/or the vessel and extends into its interior for a predetermined distance. The liquid testing assembly when assembled is pre-evacuated to a predetermined vacuum sufficient to draw a predetermined volume of liquid to be sampled into the test vessel. The predetermined volume is of such an amount that it wets the one or more identifying materials ensuring identification of one or more constituents present in the liquid. A kit employing the liquid testing assembly is also discussed.

Abstract: A method and the relevant instrumentation to fractionate living, adherent stem cells, particularly of human origin, from different sources is disclosed, said method is based on the non-equilibrium, dynamic fractionation of cells assisted by the Earth gravity field.

Abstract: A disposable cassette for blood analysis includes a housing having an upper panel and a sampling section having a filling inlet; at least one pair of chambers in a form of depression of the upper panel of the housing and sealed by a diaphragm; portions of the diaphragm over the chambers being flexible; and one or more channels adapted to interconnect the pair of chambers; one of the chambers containing a predetermined amount of a reagent for blood analysis; and a sample outlet disposed next to and connected to the chamber containing the reagent, the sample outlet including an outlet cavity recessed from the upper panel, a divider disposed therein, and a cover covering the outlet cavity; the sample outlet sealing the reagent to the chamber containing the reagent. Further disclosed is the method of using the disposable cassette for measurements of hematology parameters on a blood analyzer.

Abstract: The invention provides methods for purifying one or more cells based on the level of one or more products secreted by the cells.

Abstract: A device for measuring an extracellular potential of a test cell includes a substrate having a well formed in a first surface thereof and a first trap hole formed therein. The well has a bottom. The first trap hole includes a first opening formed in the bottom of the well and extending toward a second face of the substrate, a first hollow section communicating with the first opening via a first connecting portion, and a second opening extending reaching the second surface and communicating with the first hollow section via a second connecting portion. The first connecting portion has a diameter smaller than a maximum diameter of the first hollow section, greater than a diameter of the second connecting portion, and smaller than a diameter of the test cell. The device can retain the test cell securely and accept chemicals and the test cell to be put into the device easily.