Abstract: A fluid mixing system includes a flexible bag having a first end, an opposing second end, and an interior surface bounding a compartment; a retainer coupled to the second end of the flexible bag, the retainer having a retention cavity formed thereon that communicates with the compartment of the flexible bag; and an elongated member having a first end rotatably coupled to the first end of the flexible bag and an opposing second end freely disposed within the retention cavity of the retainer so that the second end of the elongated member can rotate within the retention cavity relative to the retainer.

Abstract: It is described an orbital incubator shaker, which comprises an incubator housing (1) defining an incubation chamber (2), and an orbital shaker (3) configured to shake a shaking table (4). The orbital shaker (3) comprises a drive motor comprising a stator and a rotor (9), and an eccentric bearing mounted to the rotor (9). The orbital shaker (3) is fixed within the incubation chamber (2) or in a mobile version without fixing just being placed inside the incubation chamber (2). The orbital shaker (3) further comprises a bearing (16) configured to support the rotor (9) on a support structure. The rotor (9), the bearing (16) and the support structure are configured to seal the stator from the incubation chamber (2).

Abstract: We disclose an in-toilet urinalysis system which includes a system for collection urine and applying the urine to a urine test strip. The system may include an orifice within a toilet bowl which leads into a channel. The channel may be connected to a capillary which has an orifice at each end. Urine may pass through the orifice, into the channel, then may be moved by capillary action through the capillary. A urine test strip dispenser may move reaction pads on a urine test strip to the distal end of the capillary to load the reaction pads with urine. The reaction pads may absorb the urine from the most distal orifice of the capillary. A measurable chemical reaction may occur in the reaction pads in response to urine analytes.

Abstract: There is provided a urine analysis device for bed side monitoring of a patient, comprising: an inlet sized and shaped for fluid communication with a urine collecting tube that receives urine from a patient; a drip chamber through which the urine flows towards an outlet; at least one sensor that analyzes each drop of urine and estimates a respective volume of each drop; a timing element that measures a reference time for each drop; a program store storing code; and at least one processing unit coupled to the program store for implementing the stored code, the code comprising: code to calculate a urine output flow rate of the urine output flowing through the chamber according to the estimated volume of each drop of the urine and the reference time for each drop; and code to output the urine output flow rate.

Abstract: The invention relates to a method to reduce the electroosmotic flow in a capillary or in a channel and to a method to reduce the attachment of biological species to a surface comprising the step of coating said capillary, channel or surface with a copolymer comprising a surface interacting monomer, a monomer bearing a chemically active group and an ethylenically unsaturated silane monomer.

Abstract: A handheld diagnostic system may include a disposable sample holder for receiving and containing a biological sample and an analysis module having a chip-scale microscope. The sample holder may include a plurality of uniformly spaced tick marks. The analysis module may include a sensor for detecting the tick marks as the sample holder is inserted into the analysis module. The chip-scale microscope may include an image sensor for capturing images of the sample. Each time the sensor detects a tick mark, control circuitry may issue a control signal to the image sensor to capture an image of the biological sample. This type of automated image capture mechanism ensures that images are captured at a uniform spatial distribution even when the sample holder is inserted into the analysis module at variable speed. The analysis module may transmit sample imaging data to a portable electronic device.

Abstract: A device (1, 100) for separating a membrane (81, 91) to analyze from a support (83, 93), the membrane being mounted in a frame (82, 92), itself mounted on a support, having a body (10) comprising a longitudinal recess (11, 110, 120) for translational reception of the assembly constituted by the frame mounted on the support, the recess having a first end (12) and a second end (13) and longitudinal sides (14A, 14B, 111, 121) facing each other between said two ends, the device having bearing means (30, 112, 122) for a first member of the frame/support group between the first and the second end of the recess, which are adapted to serve as a bearing for the first member of the frame/support group once the assembly is disposed in the recess, each of the sides having a ramp (15A, 15B, 112, 122) adapted to engage a gripping member (84, 73) of the second member of the frame/support group when the assembly is translationally moved from the first to the second end, said ramps being adapted to separate the support from t

Abstract: A specimen analyzing method and a specimen analyzing apparatus capable of measuring interference substances before analyzing a specimen. The method comprises a step for sucking the specimen stored in a specimen container (150) and sampling it in a first container (153), a step for optically measuring the specimen in the first container, a step for sampling the specimen in a second container (154) and preparing a specimen for measurement by mixing the specimen with a reagent in the second container, and a step for analyzing the specimen for measurement according to the results of the optical measurement of the specimen.

Abstract: There is described a device for rotatably supporting at least one reaction vessel in a microwave heating apparatus. The described device comprises (a) a base plate comprising at least one through-hole, and (b) at least one tubular member having a longitudinal axis and being adapted to receive a reaction vessel and to be coupled to the base plate in such a way that the longitudinal axis of the at least one tubular member passes through the at least one through-hole, wherein the at least one tubular member comprises metal. Furthermore, there is described a system for performing digestion or synthesis comprising a microwave heating apparatus and a device as described above.

Abstract: An automated, refrigerated specimen management system (ARSIMS) to hold sealed and/or opened sample/specimen tubes and/or containers that can be in the pre-analytical, in-process, or post-analytical phase of processing. The ARSIMS ensures that each sample/specimen tube, whether it is sealed, capped, closed or open, can be stored at an ideal storage temperature according to the particular phase of processing and as appropriate for the combination of sample/specimen type and analyte(s) to be tested.

Abstract: A sample analysis apparatus configured to automatically press a start button upon installation of a sample tube is provided. The sample analysis apparatus includes: a body of the sample analysis apparatus; a door housing which may be provided in an opened state or a closed state, and configured to be coupled to the body of the sample analysis apparatus by a hinge; a tube accommodating unit included in the door housing and configured to accommodate the sample tube; a start button included in the body of the sample analysis apparatus and configured to start analysis of the sample; and an operating member positioned at a first position which is distant from the start button the sample tube is not installed in the tube accommodating unit, and a second position which is configured to operate the start button when a sample tube is installed and the door housing is closed.

Abstract: Microplates, reaction modules and optical detection systems for chemical and/or bio-chemical reactions including polymerase chain reactions.

Abstract: Described is a self-sealing thermal enclosure. In various embodiments, the self-sealing thermal enclosure includes an enclosure having a wall with an opening. The enclosure is configured to surround a temperature-controlled environment. The self-sealing thermal enclosure also includes a porous seal disposed adjacent to the wall at the opening. The porous seal is compressible and is fabricated from an open cell foam material. When the porous seal has absorbed a fluid such as a condensate, the temperature-controlled environment is sealed from an ambient environment such that the flow of air into or out of the enclosure is substantially reduced or eliminated.

Abstract: A process for preparing a reactor (1), said reactor defining an opening (13) for the passage of a device for dispensing solid particles (3) suitable for charging the reactor with solid particles, the process comprising:—providing a sensor support device (2) to which a sensor is attached, said sensor being intended for collecting information on the charging of the reactor,—attaching the sensor support to a component of the reactor (5) different from the device for dispensing solid particles.

Abstract: The present invention is an improved apparatus for sample analysis. The apparatus employs an assay component containing a membrane having one or a plurality of analyte-specific binding agents attached thereto, a means for absorbing liquid, and a piston means for drawing analytes through said membrane into said means for absorbing liquid. The apparatus is configured to be portable and provide a detector for detecting binding of an analyte to an analyte-specific binding agent, a plurality of data acquisition components, and a computer for integrating, analyzing and storing the detected analyte specific binding and acquired data.

Abstract: The invention discloses a blood analyzing device (100) comprising a holder (110) arranged for carrying a container (10) having a cuvette (20) containing a blood sample (30). The container (10) is positioned in the holder (110) so that a longitudinal axis (60) of the cuvette (20) is angled relative a horizontal axis (70). A light source (120) provides light (40) into the sample (30) and a detector (130) detects the output light (50) from a sub-portion of the blood sample (30). Kinetic information indicative of the change in hemoglobin concentration in a measuring volume (32, 34) is determined by a Hb processor (145) from the detected output light (50). An ESR processor (140) determines the erythrocyte sedimentation rate of the sample (30) based on the kinetic information.

Abstract: The present relates to a container and to a device for indirect material cooling and to a method for producing the container according to the invention. Through the present invention a much more efficient indirect heat transfer is facilitated from the exterior of the container into the interior of the container. The improvement of the heat conductivity and of the heat transfer of centrifuge containers yields a reduction of the necessary power of the refrigeration system for cooled centrifuges. Through the higher performance of the centrifuge a higher speed can be run for identical centrifuge temperatures and/or at the same centrifuge temperature and speed, the input power of the refrigeration unit can be reduced.

Abstract: A lab member for use in a laboratory liquid handling system including a pipetting module and a drive system, the pipetting module including first and second pipettors, the first and second pipettors including first and second pipettor shafts, respectively, a first pipetting tip extending from an end of the first pipettor shaft, and a second pipetting tip extending from an end of the second pipettor shaft, includes a lab object and first and second integral adapter structures. The first and second adapter structures are configured to engage the first and second pipettor shafts, respectively. The first adapter structure is configured to releasably secure the lab member to the first pipettor shaft.

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: A container for storing a biological sample is disclosed. The container includes a first chamber having a sidewall extending between an open end and a closed end, defining a first chamber interior adapted to receive a sample holder therein. The container also includes a second chamber having a sidewall extending between an open end and a closed end, defining a second chamber interior adapted to subsequently receive the sample holder therein. The second chamber interior is in fluid isolation from the first chamber interior. A removable closure encloses at least one of the open end of the first chamber and the open end of the second chamber while the sample holder is disposed within one of the first chamber interior and the second chamber interior. A first fluid may be disposed within the first chamber interior, and a second different fluid may be disposed within the second chamber interior.

Abstract: Embodiments of the invention relate to a clinical instrument analyzer system for the automatic analysis of patient samples. In one embodiment, the analyzer may be used to analyze bodily fluid samples, such as blood, plasma, serum, urine or cerebrospinal fluid, for example. Embodiments of the invention relate to an apparatus and method, for example, an immunoassay method, for separating out target molecules in a magnetic field and then analyzing those target molecules with a luminometer.

Abstract: The invention discloses a sample-support element for ultra-high vacuums comprising a main chamber and a supplementary chamber for the sample holder and the heating/cooling elements, which is pumped by a related pump line. This enables the reduction or total elimination of the negative effect related to the alteration of the residual atmosphere in ultra-high vacuums resulting from heating or cooling the surfaces of the sample holder.

Abstract: The present invention relates to a thermowell blocking apparatus for a high-pressure reactor used in a desulfurization process, which can rapidly prevent noxious high-temperature and high-pressure gases from leaking out of a high-pressure reactor when the noxious high-temperature and high-pressure gases leak from the high-pressure reactor due to unexpected damage occurring to a thermowell used for measuring a reaction temperature of a catalyst. The thermowell blocking apparatus can prevent the economic losses caused by the stoppage of the desulfurization process, and can reduce consequential damages to human life, the environment, and the like.

Abstract: A thermal cycling instrument for PCR and other reactions performed on multiple samples with temperature changes between sequential stages in the reaction procedure is supplied with a thermal block to provide rapid changes and close control over the temperature in each sample vessel and a pressure plate incorporated into a motorized lid that detects anomalies in the reaction vessels or in their positioning over the thermal block, and automatically adjusts the plate position to achieve an even force distribution over the sample vessels.

Abstract: The present invention relates to a clamping system comprising two or more grids of springs in a flow module or in a plate reactor. The invention also relates to methods for opening and closing a clamping system, a frame arrangement, a control system for pressure release, and a use of the clamping system as a plate reactor.

Abstract: A dispensing apparatus includes: a dish mounting portion having a mounting surface mounted with a dish having a bottom surface and a side surface surrounding the bottom surface; a syringe, arranged above the dish mounting portion, having a nozzle configured to discharge liquid toward an interior of the dish; and a first driving portion configured to change the syringe in direction with respect to a first axis as a center, wherein the first axis is orthogonal to a normal to the mounting surface of the dish mounting portion.

Abstract: There is disclosed a biometric device (10), comprising a solid support (14) suitable for receiving biological material (S) and for dry storing that material at room temperature the device further comprising a circuit (16) including means for two way radio frequency communication and including writable data storage. Also disclosed is a processing method for such biometric devices, the method including the steps of: a) identifying said device by means of RF communication; b) extracting at least a portion of the biological material from the solid support of the identified device; c) analysing the extracted biological material to obtain biometric data indicative of the biological material; and d) writing said biometric data to the data storage of the biometric device.

Abstract: A biotip according to an embodiment of the invention moves a reaction mixture along a longitudinal direction under the force of gravity. The biotip includes a chamber formed of a transparent material and filled with a liquid having a smaller specific gravity than the reaction mixture and immiscible with the reaction mixture, and a seal that seals the chamber. The liquid has a volume resistivity of greater than 0 ?·cm and 5×1013 ?·cm or less.

Abstract: A sectionable tissue sample support structure including a gel compound formed into a self supporting geometric shape for retention and orientation of at least one tissue sample during a histopathology process including processing, embedding and microtome slicing of the tissue sample. A method of orienting, processing, embedding and microtome slicing a tissue sample using a gel compound preformed into a self supporting geometric shape. A combination including the sectionable tissue sample support structure and a package containing the sectionable tissue sample support structure.

Abstract: A spotter that includes a plurality of spotting heads, each of the plurality of spotting heads having a discharging portion at a tip portion, the plurality of spotting heads form an m×n array (m, n>1) with m spotting heads arranged lengthwise and n spotting heads arranged crosswise; and a pitch varying mechanism configured to vary an array pitch of the plurality of spotting heads arrayed in a lengthwise direction and an array pitch of the plurality of spotting heads arrayed in a crosswise direction.

Abstract: Devices for the preparation of a plurality of samples on mass-spectrometric sample supports are presented, where the samples are prepared by the application of liquids such that they are suitable for ionization in a mass spectrometer, for example ionization by matrix-assisted laser desorption (MALDI). The invention proposes that the dispenser and sample sites are positioned with respect to each other by means of two rotations about two eccentric axes. As acids and aggressive solvents are used, which have to evaporate on the samples, the preparation can be carried out in a closed chamber with air circulation, filter, dispenser and mounting table for the sample support. The drives for positioning the dispenser and sample support relative to each other are preferably kept outside the chamber because the aggressive vapors would very quickly damage the motors and also the complex cross-rails of the XY translation stages used to move the sample supports.

Abstract: A syringe, defined by a cylinder and by a piston slidingly engaged in the cylinder itself, is actuated after having inserted the cylinder within a gripper and having axially fed the syringe through the gripper so as to move an outer flange of the cylinder into contact with the gripper and/or the piston in a stop position within the cylinder.

Abstract: Provided is an immobilization device for fitting a connecting member of a chip and a connecting member of a cover together, where a spatial clearance between the chip and cover is small. The immobilization device includes a substrate (102), a cover means (101) including a fitting means to fit with a chip (103) placed on the substrate (102), a rotating arm means (201) rotatably joined to a first joining means (301) of the substrate (102) and to a second joining means (302) of the cover means (101), and a parallel maintaining means (203) for fitting the fitting means and the chip (103) together with the fitting means and the chip (103) maintained in substantially parallel by the first joining means (301) or the second joining means (302) moving along a chip surface or a plane parallel to the chip surface. The fitting means rotates freely against the chip (103).

Abstract: A fluid sampling apparatus having a container and a splitter disposed in the container. The splitter is operative for dividing an absorbent pad of a sample collector into two portions. The splitter may have a base and clamping arrangement connected to the base. The clamping arrangement is operative for clamping onto a first portion of the absorbent pad so that the first portion of the absorbent pad can be separated from a second portion of the absorbent pad by pulling the sample collector away from the splitter.

Abstract: A laboratory stand for a microplate comprises a base (2), at least one post (3, 4) extending upwardly from the base, a shelf (5) located above the base and supported by the at least one post, and means for adjusting the height of the shelf in relation to the base. The shelf (5) comprises a rear portion (9) which is substantially horizontal and a front portion (10), which is inclined downwards away from the horizontal, which is adapted to retain at least one microplate. The laboratory stand improves pipetting ergonomics.

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: A specimen analyzing method and a specimen analyzing apparatus capable of measuring interference substances before analyzing a specimen. The method comprises a step for sucking the specimen stored in a specimen container (150) and sampling it in a first container (153), a step for optically measuring the specimen in the first container, a step for sampling the specimen in a second container (154) and preparing a specimen for measurement by mixing the specimen with a reagent in the second container, and a step for analyzing the specimen for measurement according to the results of the optical measurement of the specimen.

Abstract: A multidimensional chemical separation and analysis system is described including a prototyping platform and modular microfluidic components capable of rapid and convenient assembly, alteration and disassembly of numerous candidate separation systems. Partial or total computer control of the separation system is possible. Single or multiple alternative processing trains can be tested, optimized and/or run in parallel. Examples related to the separation and analysis of human bodily fluids are given.

Abstract: Installation for treating a biological liquid, including a circulation pump (5), a filter element (9), a container for collecting treated liquid, a first circuit section connecting a source of said biological liquid to an inlet orifice of said filter element (9), including a circuit element adapted to cooperate with said circulation pump (5); a second circuit section, connecting an outlet orifice of said filter element (9) to said treated liquid collecting container; characterized in that said treated liquid collecting container, said first circuit section and said second circuit section are disposable and said installation further includes a first cart (1) carrying said pump (5) and a second cart (2) including a housing (14) for said collecting container, separable from the first cart (1) and adapted to be at least partly nested in said first cart (1).

Abstract: There is provided a retention mechanism for an immersion medium, for use in a device which observes/measures a sample by use of an immersion objective lens, includes a member which retains the immersion medium near a tip portion of the objective lens, wherein the member is configured to include at least first and second materials.

Abstract: There is provided a retention mechanism for an immersion medium, for use in a device which observes/measures a sample by use of an immersion objective lens, includes a member which retains the immersion medium near a tip portion of the objective lens, wherein the member is configured to include at least first and second materials.

Abstract: A portable temperature transfer stand for holding thermo-conductive laboratory devices transferring thermal energy to laboratory devices is provided as well as its methods of use. The temperature transfer stand comprises at least one supporting structure (foot) and a stable stage, both comprising a thermal conductive material. The supporting structure is in direct contact with the stage which is in direct contact with a laboratory device.

Abstract: A pipetting aid device includes a support comprising a face, a plurality of light elements mounted in the support forming a two-dimensional array in the plane of the face, and first and second centering structures. The first and second centering structures are mounted to extend from the face of the support. The first centering structure includes a first and second pair of stop walls, wherein a pair of stop walls forms a corner. The second centering structure includes a third and fourth pair of stop walls. The first and third pairs of stop walls form corners of a first positioning zone of a first type of plate. The second and fourth pairs of stop walls form corners of a second positioning zone of a second type of plate. The first centering structure and the second centering structure are positioned outside both the first positioning zone and the second positioning zone.

Abstract: An indicator for enabling an analytical instrument to positively detect the presence of a vial in respective vial-receiving rack position regardless of whether the vial is oriented in a manner necessary for a code reader to read a code printed on the vial. Translation of a leaf spring upon insertion of a vial into a rack position causes a flag to obscure a code provided adjacent the rack position. An instrument into which the rack is installed interprets the failure of the code reader to detect this code as positive indication that a vial is disposed within the respective rack position.

Abstract: A portable temperature transfer device for transferring thermo energy to and/or from a laboratory culture plate is provided as well as its methods of use. The temperature transfer device comprises a base and a raised stage that comprises a thermal conductive material. The raised stage allows direct contact between individual wells of the laboratory culture plate and the temperature transfer device.

Abstract: The present invention provides a plate for mass spectrometry comprising a support and a PVDF-containing coating (that is, a PVDF-deposited thin layer) thereon, and a method of preparing a plate for mass spectrometry, which comprises coating the support surface with PVDF. The present invention also provides a method of analyte identification comprising subjecting an analyte-containing sample to gel electrophoresis to separate the analyte, blotting the separated analyte from the gel to the above-described plate for mass spectrometry, and subjecting the plate to mass spectrometry, whereby the transferred analyte is analyzed.

Abstract: In a preferred embodiment of the invention, a closure for a container comprises at least two closure members. The relative position of the closure members with respect to each other is altered upon mating of the closure and container. The alteration of the relative position of the closure members may result in one or more of the members approaching the container more closely. The alteration may result in one or more of the members pressing against the container. The pressing may take place in such a way that exit paths for vapor from fluid in the container would require passage through the pressed surfaces.

Abstract: Methods and apparatus for sensing a substrate in a high temperature environment are provided. The invention includes a support frame having one or more apertures; one or more optical devices positioned in and aligned by the one or more apertures and adapted to detect an edge of a substrate. The invention may also include a controller secured adjacent an end of the support frame, coupled to the one or more optical devices, and adapted to receive information from the optical devices, process the information, and determine a center of a substrate based on the processed information. The support frame may be adapted to thermally shield the one or more optical devices and the controller. Numerous other aspects are provided.

Abstract: A microfluidic system including: a substrate, one surface of which is covered with electrodes configured to move, under effect of an electric field, microdrops of a liquid phase including at least one functionalized ionic liquid; and capillaries for introducing a liquid extraction fluid onto the surface and for extracting the liquid extraction fluid from an orifice by forced convection, to obtain an extraction bath located on the surface for extraction of at least one chemical or biological compound from the liquid phase, and the bath is open to a surrounding space on at least two of its opposite sides, for moving, in contact with the surface, the microdrop upstream and downstream of the bath.

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