Automated System With Sample Fluid Pressure Transport Means Patents (Class 422/81)
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Patent number: 6391263Abstract: To facilitate operations wherein samples from different animal types are assayed in succession, disclosed is the provision of an animal type table wherein correspondences between animal type and identifying information designating the animal type are assigned and stored; an animal type input means for inputting, utilizing the identifying information, animal type of a vital sample to be analyzed; and analysis configuration means for altering analysis condition settings in accordance with inputted animal type. The animal type table settings are best user-configurable to suit the user's running of the automated analyzing system.Type: GrantFiled: February 25, 2000Date of Patent: May 21, 2002Assignee: Sysmex CorporationInventors: Yoshihiro Mishima, Noriyuki Narisada
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Patent number: 6391264Abstract: The instrument includes a cartridge carousel assembly which receives analytical cartridges. The cartridges are self-contained units which incorporate a sample metering/separation system which is operated by centrifugal force. The cartridge carousel is composed of a cartridge rotor plate which includes a center and a plurality of cartridge ports which are located in spaced relation radially outward from the center of the plate. The cartridge ports include a cartridge dock which is shaped to receive the cartridges and a balance weight dock which is located radially inward from the cartridge dock. The cartridge dock is shaped to receive a balance weight. A locking mechanism is provided which holds the cartridge in the cartridge dock during rotation of the cartridge rotor plate. A balancing mechanism is provided which includes a balance weight which is movable to the balance weight dock when a cartridge is inserted into the cartridge dock.Type: GrantFiled: February 11, 1999Date of Patent: May 21, 2002Assignee: Careside, Inc.Inventors: Roger Hammer, William O. Reid, Jr., David Storvick, Richard A. Riedel, James S. Hutchison, Daniel Kennedy, John W. Stoughton, James J. Ramey, Glen T. Mathews
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Patent number: 6387328Abstract: A disposable sampling device for an apparatus for counting particles contained in a liquid, including a solid block-shaped housing connectable in a defined position to the apparatus. The housing has a member for introducing a sample therein, a device for metering a defined volume of the sample, and a chamber for containing a defined volume (V) of a diluting liquid. A diluting chamber is provided together with a device for simultaneously directing the defined volume of a sample and the defined volume of diluting liquid to the diluting chamber for obtaining therein a diluted sample. A device is provided for directing at least a portion of the diluted sample past a particle detecting member, and a signal transmitting member connects the particle detecting member and terminal member located at an outer boundary of the housing in a position corresponding to a location of a terminal member of the apparatus when the housing is connected thereto in the defined position.Type: GrantFiled: December 30, 1999Date of Patent: May 14, 2002Assignee: Boule Medical ABInventor: Ingemar Berndtsson
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Patent number: 6383452Abstract: A chemical analyzer for measuring a concentration of components of a sample liquid, by mixing the sample liquid with reagents, so as to react the reagents upon the components thereof. The chemical analyzer includes a carrier which is constructed on a substrate and has an introducing portion through which the sample liquid is injected, distributing flow passages for distributing the sample liquid injected from the introducing portion, and plural reactor portions, each holding the sample liquid therein to be mixed with the reagent, thereby to react. A movable driver portion is provided for mounting the carrier thereon, and a reagent charging device is provided for ejecting the reagents, which are different for the respective reactor portions of the carrier. Further, a detector is provided for detecting the components after mixing the reagents with the sample liquid.Type: GrantFiled: March 16, 2000Date of Patent: May 7, 2002Assignee: Hitachi, Ltd.Inventors: Ryo Miyake, Naruo Watanabe, Hajime Katou, Takao Terayama, Yasushi Nomura, Hiroshi Mitsumaki
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Patent number: 6379910Abstract: One end of a thin-tube type solid phase in which a receptor specific for a material or an organism to be measured which can induce a pH-change of substrate solution is immobilized is soaked in a sample solution and then taken out therefrom. The one end of the thin-tube type solid phase is disposed in a measurement cell and a sensing portion of a pH electrode disposed in the measurement cell is in the vicinity of the one end of the thin-tube type solid phase. The measurement cell and the thin-tube type solid phase are filled with a substrate solution so that a reaction takes place. Thereafter, the substrate solution in the thin-tube type solid phase is moved to the sensing portion by a solution feed pump. The output of the pH electrode at this timing is detected.Type: GrantFiled: June 4, 1998Date of Patent: April 30, 2002Assignee: Nihon Kohden CorporationInventors: Michihiro Nakamura, Harutoshi Terasawa, Hiroyuki Okada, Hidenori Yukawa, Hidehiro Hosaka
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Publication number: 20020048531Abstract: The present invention is directed to the use of deposited thin films for chemical or biological analysis. The invention further relates to the use of these thin films in separation adherence and detection of chemical of biological samples. Applications of these thin films include desorption-ionization mass spectroscopy, electrical contacts for organic thin films and molecules, optical coupling of light energy for analysis, biological materials manipulation, chromatographic separation, head space adsorbance media, media for atomic molecular adsorbance or attachment, and substrates for cell attachment.Type: ApplicationFiled: December 19, 2000Publication date: April 25, 2002Inventors: Stephen J. Fonash, Sanghoon Bae, Daniel J. Hayes, Joseph Cuiffi
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Patent number: 6372422Abstract: Improved insemination systems particularly adapted to use for sex-selected sperm sorting include systems which achieve superovulation and then multiple embryo production with sexed embryos. These systems combine with other techniques, including techniques for enhanced sheath fluid and other strategies which minimize stress on the sperm cells, and, potentially, a 2.9 percent sodium citrate sheath solution for bovine species and a hepes bovine gamete media for equine species. Improved collection systems and techniques for the process are described so that commercial application of sperms samples as well as the resulting animals may be achieved.Type: GrantFiled: November 24, 1999Date of Patent: April 16, 2002Assignee: Colorado State University through its agent Colorado State University Research Foundation and XY, Inc.Inventors: George Seidel, Lisa Herickhoff, John Schenk
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Patent number: 6368560Abstract: A photometer including an elongated sample cell having a first end, a second end, and a passageway extending between the first end and the second end. Preferably, a ratio of a length of the sample cell to a lateral dimension of the passageway is at least 100 to 1. A first quartz window assembly is located at the first end of the sample cell and has a first port communicating with the passageway proximate to the first end, and a second quartz window assembly is located at the second end of the sample cell and has a second port communicating with the passageway proximate to the second end. An ultraviolet lamp is positioned to emit ultraviolet light through the first quartz window, the passageway, and the second quartz window, and an ultraviolet detector is positioned to receive the ultraviolet light emanating from the second quartz window. Preferably, the sample cell is operated at about ambient temperature, and the volume of the sample cell is no greater than about 0.Type: GrantFiled: March 6, 1999Date of Patent: April 9, 2002Assignee: Trace Analytical, Inc.Inventors: Clinton R. Ostrander, Dale G. O'Harra, II, Chuck McDowell, Steven J. Hartman
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Patent number: 6358745Abstract: A method of and apparatus for flow injection analysis using a reaction chamber having a continuously variable volume, where the volume of the reaction chamber may be varied before, during or after introduction of an analyte solution and reagent solution into the reaction chamber. A microprocessor may be incorporated to control the volume of the reaction chamber and other components, either in a preprogrammed manner or in response to particular data measured by a detection device.Type: GrantFiled: July 20, 2001Date of Patent: March 19, 2002Assignee: University of North FloridaInventor: Stuart Chalk
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Patent number: 6348354Abstract: A method and apparatus for controlling a stream of liquid and air segments wherein the liquid and air segments are selectively aspirated into a first fluid conduit in a plurality of cycles, each cycle beginning with the aspiration of a first air segment and ending with the aspiration of a final air segment. The liquid and air segments are then transferred from the first fluid conduit to a second fluid conduit. The volume of the final air segment of each cycle is then adjusted after the final air segment has moved into the second fluid conduit. Next, the liquid segments and the air segments of each cycle are transferred from the second fluid conduit to a third fluid conduit. The volume of the first air segment of each cycle is then adjusted after the first air segment has moved into the third fluid conduit.Type: GrantFiled: July 6, 1998Date of Patent: February 19, 2002Assignee: Bayer CorporationInventors: Robert Adolfsen, Paul Gherson, David Lightbody
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Patent number: 6346376Abstract: This document describes an optical sensor unit and a procedure for the specific detection and identification of biomolecules at high sensitivity in real fluids and tissue homogenates. High detection limits are reached by the combination of i) label-free integrated optical detection of molecular interactions, ii) the use of specific bioconstituents for sensitive detection and iii) planar optical transducer surfaces appropriately engineered for suppression of non-specific binding, internal referencing and calibration. Applications include the detection of prion proteins and identification of those biomolecules which non-covalently interact with surface immobilized prion proteins and are intrinsically involved in the cause of prion related disease.Type: GrantFiled: May 11, 1999Date of Patent: February 12, 2002Assignee: Centre Suisse d'Electronique et de Mictotechnique SAInventors: Hans Sigrist, Hui Gao, Rino E. Kunz, Jürg Dübendorfer, Carsten Korth, Markus Moser, Bruno Oesch
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Patent number: 6344172Abstract: The invention features an apparatus for the separation and analysis of proteins, which includes a sample input, a first liquid chromatography column, a multiport injection valve connecting the sample input to the column, a pump for providing variable pressure delivery of a solution to the column via the multiport valve, and a program for specifying a sequence of system control programs.Type: GrantFiled: November 3, 1994Date of Patent: February 5, 2002Assignee: PerSeptive Biosystems, Inc.Inventors: Noubar Afeyan, Neal F. Gordon
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Publication number: 20020006359Abstract: Apparatus for forward and reverse transfer of fluids through capillaries, consisting of at least one capillary, a pressure generating or housing means, which preferably includes a box, having first and second means for aligning the capillaries from one set of wells to a second set of wells, and applied pressure differential transfers small amounts of liquid uniformly and in parallel. A method of accurately controlling a desired volume of fluid flow is particularly useful for transferring liquids to and from a microtiter dish to a Capillary Array Electrophoresis Microplate having liquid wells spaced in a radially symmetric configuration, or for maximizing desired transfer of the like or improved novel enhanced patterned arrays.Type: ApplicationFiled: November 25, 1998Publication date: January 17, 2002Applicant: AFFYMETRIX, INC.Inventors: RICHARD A. MATHIES, PETER C. SIMPSON
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Publication number: 20020004637Abstract: A sample suction apparatus including: a first member, a second member and a third member; a drive source; and a suction needle provided on the third member, wherein the drive source reduces a distance between the first member and the third member to perform: a first action of shifting the first member toward the third member to contact the first member with a portion of a specimen vessel; a second action of shifting the second member together with the third member toward the first member to contact the second member with another portion of the specimen vessel so that the specimen vessel is sandwiched between the first and second members; and a third action of shifting the third member toward the first member to bring the third member close to the second member so that the suction needle is inserted in the specimen vessel.Type: ApplicationFiled: July 6, 2001Publication date: January 10, 2002Inventor: Masayasu Sentoh
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Publication number: 20010053336Abstract: The instrument includes a cartridge carousel assembly which receives analytical cartridges. The cartridges are self-contained units which incorporate a sample metering/separation system which is operated by centrifugal force. The cartridge carousel is composed of a cartridge rotor plate which includes a center and a plurality of cartridge ports which are located in spaced relation radially outward from the center of the plate. The cartridge ports include a cartridge dock which is shaped to receive the cartridges and a balance weight dock which is located radially inward from the cartridge dock. The cartridge dock is shaped to receive a balance weight. A locking mechanism is provided which holds the cartridge in the cartridge dock during rotation of the cartridge rotor plate. A balancing mechanism is provided which includes a balance weight which is movable to the balance weight dock when a cartridge is inserted into the cartridge dock.Type: ApplicationFiled: February 11, 1999Publication date: December 20, 2001Inventors: ROGER L. HAMMER, WILLIAM O. REID, DAVID STORVICK, RICHARD A. RIEDEL, JAMES S. HUTCHINSON, DANIEL KENNEDY, JAMES J. RAMEY
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Publication number: 20010051114Abstract: An apparatus for synthesizing polymer chains includes a controller, a plurality of precision fit vials circularly arranged in multiple banks on a cartridge, a drain corresponding to each bank of vials, a chamber bowl, a plurality of valves for delivering reagents to selective vials, and a waste tube system for purging material from the vials. A purging operation can be selectively performed on one or more of the banks of vials. The multiple banks of valves provide an additional number of reagent choices while operating in a serial mode and faster reagent distribution while operating in a parallel mode. The plurality of vials are stored in the cartridge and are divided among individual banks wherein each bank of vials has a corresponding drain. There is at least one waste tube system for expelling the reagent solution from vials within a particular bank of vials when the waste tube system is coupled to the corresponding drain.Type: ApplicationFiled: July 9, 2001Publication date: December 13, 2001Inventors: Gary R. McLuen, Richard J. Hanney, Daniel W. Hugens
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Publication number: 20010048896Abstract: A modular control block for applications in the field of analytical procedures has a plurality of individual elements (2, 5, 15, 19, 20), each having at least one channel for the inflow and for the outflow of fluids, which can be connected to each other by means of suitable connection points. In order to reduce the manufacturing costs of the control block, all individual elements (2, 5, 15, 19, 20) are embodied with the same outer contour and may be arranged in-line or staggered, with different function modes of the control block being achieved by either an in-line or a staggered arrangement of the individual elements (2, 5, 15, 19, 20), or by any desired combination of individual elements (2, 5, 15, 19, 20) arranged in-line and/or staggered.Type: ApplicationFiled: October 29, 1998Publication date: December 6, 2001Inventor: CHRISTOPH HETTINGER
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Publication number: 20010043883Abstract: A method of and apparatus for flow injection analysis using a reaction chamber having a continuously variable volume, where the volume of the reaction chamber may be varied before, during or after introduction of an analyte solution and reagent solution into the reaction chamber. A microprocessor may be incorporated to control the volume of the reaction chamber and other components, either in a preprogrammed manner or in response to particular data measured by a detection device.Type: ApplicationFiled: July 20, 2001Publication date: November 22, 2001Inventor: Stuart Chalk
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Patent number: 6315952Abstract: An apparatus for drawing and supplying multiple samples for rapid processing in flow cytometry. The apparatus comprises a reciprocating valve and at least one syringe. The invention is also a method for rapidly processing multiple samples in flow cytometry using the apparatus.Type: GrantFiled: June 10, 1999Date of Patent: November 13, 2001Assignee: The University of New MexicoInventors: Larry A. Sklar, Bruce Edwards, Frederick W. Kuckuck, III
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Patent number: 6315954Abstract: An apparatus for generating high purity acid or base in an aqueous stream for use in analysis. For generating a base, the aqueous stream is directed through a cation exchange bed having first strongly acidic and second weakly acidic portions. An electrical potential is applied to the bed. Cations on the bed electromigrate into the aqueous stream while hydroxide ions are electrolytically generated to form a base-containing eluent. Analytes to be detected and the generated eluent flow through a detector.Type: GrantFiled: December 23, 1999Date of Patent: November 13, 2001Assignee: Dionex CorporationInventors: Hamish Small, Nebojsa Avdalovic, Yan Liu
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Publication number: 20010039020Abstract: A method is provided for use in solid phase chemical synthesis such as in the synthesis of polypeptides, peptoids, and other molecules synthesized by solid phase methods. The method is used to identify compounds having activity against a selected target, wherein the compounds are present in a mixture obtained from a combinatorial library. A bead distributor probe is also provided. The probe is used to extract beads from a population of beads, and then deliver the bead to a selected location. A capillary bead insert is also provided, as well as a bead distribution system which includes both a bead distributor probe and a capillary bead insert.Type: ApplicationFiled: May 6, 1999Publication date: November 8, 2001Inventors: RONALD ZUCKERMANN, MANOJ DESAI, GAVIN DOLLINGER, TIMOTHY DAWES, PETAR STOJADINOVIC
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Patent number: 6312960Abstract: The invention provides methods for preparing a reaction substrate for use as assay devices comprising parallel printing of arrays of biosites on reaction substrates, wherein each biosite comprises a single type of capture probe bound to the reaction substrate and the array of biosites is deposited on the reaction substrate by a capillary bundle printer device.Type: GrantFiled: December 22, 1998Date of Patent: November 6, 2001Assignee: Genometrix Genomics, Inc.Inventors: William J. Balch, Michael E. Hogan
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Patent number: 6306350Abstract: A method and apparatus of sampling a body of water in which discrete samples are successively withdrawn from a body of water and analyte is extracted from the respective samples while integrating the analyte which is extracted from successive samples. A filter unit in which male and female fittings may be locked together, and unlocked to allow replacement of filter membranes/screens discs or elements.Type: GrantFiled: May 19, 1999Date of Patent: October 23, 2001Assignee: ITT Manufacturing Enterprises, Inc.Inventors: Kay A. Mereish, Michael R. Lewis, John T. Stone, Scott E. Lilienthal, Edward O. Gordon, Claudia L. Randolph
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Patent number: 6299840Abstract: In an automatic testing apparatus comprising, a specimen holder area adapted to hold thereon a specimen substrate for receiving therein a specimen, a reagent injector adapted to inject a reagent toward the specimen in the specimen substrate on the specimen holder area to mix the specimen with the reagent, a mixture reaction device adapted to hold thereon the specimen substrate including the mixture of the specimen and the reagent within a predetermined circumferential condition during a time period, and a transferring device for transferring the specimen substrate relative to the specimen holder area, the mixture reaction device has a take-in area to which the specimen substrate is transferred from the specimen holder area by the transferring device, and the take-in area is arranged adjacent to the specimen holder area.Type: GrantFiled: March 30, 1999Date of Patent: October 9, 2001Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Eiji Watanabe, Kanji Yahiro, Akira Higuchi, Naoki Miyazaki, Kenichi Kuroda, Kenji Ishiyama, Takashi Daikoku, Hideyoshi Kitahara
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Patent number: 6297061Abstract: This invention provides a method and apparatus for detecting the presence of analyte particles in a sample fluid also comprising larger particles, particularly blood. It exploits diffusion to provide simultaneous filtering of the larger particles and reaction of the analyte particles. A sample stream and a reagent stream join on the upstream end of a laminar flow reaction channel and flow in adjacent laminar streams. The reagents can be in solution or immobilized on a bead. The analyte particles diffuse from the sample stream into the reagent stream, leaving behind the larger particles in the residual sample stream. In the reagent stream the analyte particles react with reagent particles and form product particles, thereby creating a product stream. At the downstream end of the reaction channel, the residual sample stream and the product stream are divided. The product particles are then detected, preferably optically, in the product stream.Type: GrantFiled: February 10, 2000Date of Patent: October 2, 2001Assignee: University of WashingtonInventors: Caicai Wu, Bernhard Weigl, Margaret A. Kenny, Paul Yager
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Patent number: 6290910Abstract: A method of and apparatus for flow injection analysis using a reaction chamber having a continuously variable volume, where the volume of the reaction chamber may be varied before, during or after introduction of an analyte solution and reagent solution into the reaction chamber. A microprocessor may be incorporated to control the volume of the reaction chamber and other components, either in a preprogrammed manner or in response to particular data measured by a detection device.Type: GrantFiled: March 3, 1999Date of Patent: September 18, 2001Assignee: University of North FloridaInventor: Stuart Chalk
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Publication number: 20010019843Abstract: A method and apparatus for efficiently analyzing an organic macromolecular component contained in a sample with high precision are provided. The method and apparatus for analyzing the organic macromolecular component are based on a flow analysis method with a measuring system including a sample introducing section, a preparing section, and a measuring section, composed of steps of supplying a sample with a carrier solution into the measurement system through the introducing section, leading the sample to the preparing section and separating an organic macromolecular component in the sample, and leading the separated organic macromolecular component to the measuring section and analyzing. Herein, the step of separating the organic macromolecular component includes steps of the organic macromolecular component in the sample being adsorbed on a resin and introducing an eluant into the preparing section and eluting the organic macromolecular component adsorbed on the resin.Type: ApplicationFiled: March 2, 2001Publication date: September 6, 2001Applicant: MITSUBISHI MATERIALS CORPORATIONInventors: Michiko Tani, Yutaka Hayashibe, Masaaki Kato, Minoru Takeya
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Patent number: 6284548Abstract: A method for performing a dilution step in a blood testing apparatus of a small, defined volume of a blood sample contained in a capillary tube, comprises the steps of providing an adapter for receiving the capillary tube, connecting the adapter to a conduit for diluting liquid, directing a flow of diluting liquid through the conduit and the adapter and at least partly through the capillary tube received therein, and collecting the defined volume of blood sample and the diluting liquid in a vessel. In a blood testing apparatus adapted for performing dilution of a small defined volume of a blood sample contained in a capillary tube, an adapter is inserted in a diluting liquid conduit of the apparatus. The adapter is arranged to receive the capillary tube such that flow of the diluting liquid through the conduit passes at least partly through the capillary tube.Type: GrantFiled: January 29, 1999Date of Patent: September 4, 2001Assignee: Boule Medical ABInventor: Ingemar Berndtsson
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Patent number: 6280688Abstract: A device for rinsing sample processing components of an analytical instruments including an inlet coupleable to a fluid source, an outlet coupleable to sample processing components of an analytical instrument, and a fluid reservoir between the inlet and outlet. The device includes a heater coupled to the fluid reservoir and the fluid reservoir includes at least two reservoir chambers connected in series and separated by a restricted passageway.Type: GrantFiled: November 18, 1998Date of Patent: August 28, 2001Assignee: Tekmar CompanyInventor: Martin B. Motz
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Patent number: 6274087Abstract: The invention relates to a diagnostic medical device, and in particular to a blood cell analyzer which by manual or automatic operation withdraws and analyzes a minimal amount of blood that is stored in open or sealed vials. The analyzer includes a manually operated self cleaning sampling device for open vials and an automated self cleaning sampling device for sealed vials fitted with a pierceable cap.Type: GrantFiled: February 25, 1999Date of Patent: August 14, 2001Assignee: BioChem Immunosystems Inc.Inventors: Charles R. Preston, Peter A. Bourdelle
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Patent number: 6270730Abstract: An apparatus for synthesizing polymer chains includes a controller, a plurality of precision fit vials circularly arranged in multiple banks on a cartridge, a drain corresponding to each bank of vials, a chamber bowl, a plurality of valves for delivering reagents to selective vials, and a waste tube system for purging material from the vials. A purging operation can be selectively performed on one or more of the banks of vials. The multiple banks of valves provide an additional number of reagent choices while operating in a serial mode and faster reagent distribution while operating in a parallel mode. The plurality of vials are stored in the cartridge and are divided among individual banks wherein each bank of vials has a corresponding drain. There is at least one waste tube system for expelling the reagent solution from vials within a particular bank of vials when the waist tube system is coupled to the corresponding drain.Type: GrantFiled: June 16, 1998Date of Patent: August 7, 2001Assignee: Northwest Engineering Inc.Inventors: Gary R. McLuen, Richard J. Hanney, Daniel W. Hugens
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Patent number: 6261847Abstract: The sample dilution module includes an oil filled aspiration probe and mixing chamber that communicate with each other while the mixing chamber is maintained at an angle of approximately 5 to 45 degrees below a horizontal axis. The aspiration probe is maintained in a vertical orientation. A micro-bubble is aspirated between separate aspirations of test sample and diluent to prevent contact between the sample and diluent in the aspiration probe. The test sample and diluent are then drawn from the vertically oriented aspiration probe into the mixing chamber. After the sample and diluent are in the mixing chamber the micro-bubble of air can migrate away from the test sample and diluent to enable the test sample and diluent to contact each other. Mixing of the test sample and diluent is accomplished by moving the test sample and diluent back and forth in the mixing chamber without physical agitation of the mixing chamber and without any mixing element in the mixing chamber.Type: GrantFiled: July 10, 1998Date of Patent: July 17, 2001Assignee: Bayer CorporationInventors: Robert W. Eherts, Evandro S. Denunzio
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Patent number: 6254826Abstract: A work station for simultaneously performing multiple assays includes a base structure, a receptacle rack assembly received within a receptacle rack well formed in the base structure, a pipette tip rack assembly received within a pipette tip rack well formed in the base structure, a multiple conduit substance transfer device, and substance transfer device positioning structure. The receptacle rack assembly holds a plurality of receptacles in which a plurality of individual assays are performed, and the pipette tip rack assembly holds a plurality of contamination limiting pipette tips. The substance transfer device is capable of simultaneously dispensing substances into two or more receptacles or simultaneously removing substances from two or more receptacles. Alternatively, the substance transfer device is capable of simultaneously dispensing substances into two or more receptacles, and, at about the same time, simultaneously removing substances from two or more receptacles.Type: GrantFiled: November 13, 1998Date of Patent: July 3, 2001Assignee: Gen-Probe IncorporatedInventors: Galo F. Acosta, Jeffrey D. Bransky, Robert Case, Gregory J. Foster, Kristi K. Myers, Thomas M. Shimei, Andrew J. Woodhead
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Patent number: 6248595Abstract: The invention relates to apparatus and a method for measuring NOx in biochemical processes, and to apparatus and methods for real time measuring the nitrification and/or denitrification rate of a liquid with or without suspended solids.Type: GrantFiled: April 23, 1999Date of Patent: June 19, 2001Assignee: BioChem Technology, Inc.Inventors: Jaw Fang Lee, Sergey K. Maneshin, Marcus E. Kolb, Xin Yang
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Patent number: 6224830Abstract: An improved absorbance or detection cell for a microfluid device, and in accordance with an aspect of the invention, the absorbance cell comprises a bottom plate having a channel bearing surface in which a channel having a fluid inlet and fluid outlet is defined, a top plate having a channel facing surface bound to the channel bearing surface of the bottom plate and first and second reflecting elements formed on opposed sides of the channel to form a waveguide through which the channel extends such that radiation propagating along the waveguide makes multiple passes across the channel, the waveguide having a radiation input end and a radiation output end.Type: GrantFiled: January 30, 1998Date of Patent: May 1, 2001Assignee: The Governors of the University of AlbertaInventors: D. Jed Harrison, Graham H. McKinnon, Nghia H. Chiem, Gregor Ocvirk, Hossein Salimi-Moosavi, Yutao Jiang
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Patent number: 6221677Abstract: This invention provides a method and apparatus for detecting the presence of analyte particles in a sample fluid also comprising larger particles, particularly blood. It exploits diffusion to provide simultaneous filtering of the larger particles and reaction of the analyte particles. A sample stream and a reagent stream join on the upstream end of a laminar flow reaction channel and flow in adjacent laminar streams. The reagents can be in solution or immobilized on a bead. The analyte particles diffuse from the sample stream into the reagent stream, leaving behind the larger particles in the residual sample stream. In the reagent stream the analyte particles react with reagent particles and form product particles, thereby creating a product stream. At the downstream end of the reaction channel, the residual sample stream and the product stream are divided. The product particles are then detected, preferably optically, in the product stream.Type: GrantFiled: June 18, 1999Date of Patent: April 24, 2001Assignee: University of WashingtonInventors: Caicai Wu, Bernhard Weigl, Margaret A. Kenny, Paul Yager
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Publication number: 20010000322Abstract: A collector and method for collecting samples of liquid from at least one source of liquid for automated analysis of the samples. The collector has at least one receptacle for receiving liquid from the source of liquid and holding a quantity of the liquid for obtaining a sample. Each receptacle has an inlet for delivery of liquid from the respective source of liquid and an open top sized to admit the sample collection device into the receptacle. The collector also has a spillway in fluid communication with the open top of the receptacle for receiving excess liquid spilling over the open top of the receptacle. The collector is constructed so that liquid continuously flows through the collector. A drain of the collector receives liquid from the spillway for draining the liquid from the collector.Type: ApplicationFiled: December 5, 2000Publication date: April 19, 2001Inventors: Kenneth Ruth, Philip Schmidt
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Patent number: 6210640Abstract: A collector and method for collecting samples of liquid from at least one source of liquid for automated analysis of the samples. The collector has at least one receptacle for receiving liquid from the source of liquid and holding a quantity of the liquid for obtaining a sample. Each receptacle has an inlet for delivery of liquid from the respective source of liquid and an open top sized to admit the sample collection device into the receptacle. The collector also has a spillway in fluid communication with the open top of the receptacle for receiving excess liquid spilling over the open top of the receptacle. The collector is constructed so that liquid continuously flows through the collector. A drain of the collector receives liquid from the spillway for draining the liquid from the collector.Type: GrantFiled: June 8, 1998Date of Patent: April 3, 2001Assignee: MEMC Electronic Materials, Inc.Inventors: Kenneth A. Ruth, Philip R. Schmidt
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Patent number: 6200814Abstract: Methods and devices are provided for controlling a fluid flow over a sensing surface within a flow cell. The methods employ laminar flow techniques to position a fluid flow over one or more discrete sensing areas on the sensing surface of the flow cell. Such methods permit selective sensitization of the discrete sensing areas, and provide selective contact of the discrete sensing areas with a sample fluid flow. Immobilization of a ligand upon the discrete sensing area, followed by selective contact with an analyte contained within the sample fluid flow, allows analysis by a wide variety of techniques. Sensitized sensing surfaces, and sensor devices and systems are also provided.Type: GrantFiled: January 20, 1998Date of Patent: March 13, 2001Assignee: Biacore ABInventors: Magnus Malmqvist, Håkan Roos, Stefan Sjölander, Mattias Tidare, Håkan Sjödin, Ralph Stålberg
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Patent number: 6197256Abstract: An analyzing system for analyzing fluid samples includes a measuring buoy immersible in a body of fluid to be tested. The buoy forms a sample chamber in which samples of the fluid are to be tested. The sample chamber communicates with a settling chamber through a chamber opening, and the settling chamber communicates with the body of fluid through a floor opening formed in the buoy below the chamber opening. A gas exchange apparatus communicates with the sample chamber and with a source of air or gas for introducing the air or gas into the sample chamber to drain sample fluid therefrom, and for discharging the air or gas from the sample chamber to admit sample fluid into the sample chamber from the settling chamber. A testing device is disposed in the sample chamber for testing the sample fluid, and is connected to a control and analysis device.Type: GrantFiled: November 16, 1998Date of Patent: March 6, 2001Assignee: ISCO Inc.Inventor: Friedrich Wilhelm Siepmann
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Patent number: 6190919Abstract: A system for controlling the deglycerolization of red blood cells includes a cell sorter having multiple fluid channels each having a unique cross-sectional area for directing a fluid mixture consisting essentially of a saline solution and a plasma solution having glycerized red blood cell products through one or more of the fluid channels based on the sizes of the red blood cell products. An optical energy source illuminates the fluid mixture in the cell sorter, whereupon an optical detector generates a data signal in response to receiving light signals that propagate through the fluid mixture. A processor generates a control signal in response to receiving the data signal that is used by a servo-controlled device to control the ratio of the saline and plasma solutions in the fluid mixture so that the red blood cell products substantially flow only through one or more of the fluid channels having particular cross-sectional areas.Type: GrantFiled: April 21, 1999Date of Patent: February 20, 2001Assignee: The United States of America as represented by the Secretary of the NavyInventors: Gary F. Mastny, Hugh D. Copeland, Andrew E. Patterson
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Patent number: 6180062Abstract: This invention provides a device for analyzing a sample which is capable of performing rapid and precise analysis of a small amount of sample, and whose gradient in a measuring apparatus is not limited. This device comprises approximately a rectangular plate shaped body comprising a base member made of resin and a transparent covering. A first depressed cylindrical concave portion is formed in the upper surface of the base member, and a groove is formed in communication with the first depressed cylindrical concave portion, the groove extending to the end of the protrusion portion 5c, and a second depressed cylindrical concave portion which is smaller than the first depressed cylindrical concave portion is formed in a certain position in the groove, the end of the groove opening to the outside at the end of the protrusion portion 5c. Then, the transparent covering is placed over the upper surface of the base member and then integrated together.Type: GrantFiled: February 22, 1999Date of Patent: January 30, 2001Assignee: Kyoto Daiichi Kagaku Co., Ltd.Inventors: Michio Naka, Kouji Hirayama, Yoshihiko Higuchi, Masufumi Koike, Hisashi Okuda
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Patent number: 6171865Abstract: A reference sensor system is provided for detecting the presence and/or measuring the concentration of analyte particles in a sample stream. The system includes: a) a laminar flow channel; b) three or more inlet means in fluid connection with the laminar flow channel for respectively conducting into the laminar flow channel (1) an indicator stream which may include an indicator substance which indicates the presence of the analyte particles, (2) the sample stream, and (3) a reference stream, which can be a control stream and/or internal standard stream; and, c) wherein the laminar flow channel has a depth and/or width sufficiently small to allow laminar flow of said streams and a length sufficient to allow particles of the analyte to diffuse into the indicator stream to form a detection area. Branching channels may be provided as outlet means for conducting the streams out of the laminar flow channel.Type: GrantFiled: August 4, 1999Date of Patent: January 9, 2001Assignee: University of WashingtonInventors: Bernhard H. Weigl, Mark R. Holl, Diane Zebert, Margaret Kenny, Caicai Wu
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Patent number: 6159739Abstract: The present invention provides a sheath flow module made from a first plate of material having formed therein a laminar fluid flow channel; at least two inlets, each inlet joining the laminar flow channel at a junction, the first inlet junction being wider than the second inlet junction, and an outlet from the flow channel. A second plate, e.g. a transparent cover plate, seals the module and allows for optical measurements. A first inlet allows for introduction of a first fluid into the flow channel. The first fluid is the sheath fluid. A second inlet allows for introduction of a second fluid into the sheath fluid while it is flowing through the flow channel. The second fluid is the center fluid. Because the second inlet junction is narrower than the first inlet junction, the center fluid becomes surrounded on both sides by the sheath fluid. After all fluids have been introduced and sheath flow has been achieved, the depth of the flow channel can be decreased, leading to vertical hydrodynamic focusing.Type: GrantFiled: March 26, 1997Date of Patent: December 12, 2000Assignee: University of WashingtonInventors: Bernhard Weigl, Paul Yager, James P. Brody
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Patent number: 6149882Abstract: The present invention discloses an apparatus and method for rapid analysis of members of a combinatorial library. The apparatus includes a plurality of vessels for containing individual library members and a fluid handling system that apportions a test fluid about equally between each of the vessels. This allows for simultaneous screening of library members by detecting changes in test fluid following contact with individual library members. Fluid flow through each of the vessels is controlled using passive flow restrictors or active flow controllers to ensure that each library member contacts approximately the same amount of test fluid per unit time. The disclosed apparatus is especially useful for screening library members based on their ability to catalyze the conversion of fluid reactants.Type: GrantFiled: June 9, 1998Date of Patent: November 21, 2000Assignee: Symyx Technologies, Inc.Inventors: Shenheng Guan, Lynn Van Erden, Robert C. Haushalter, Xiao Ping Zhou, Xuejun Jason Wang, Ravi Srinivasan
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Patent number: 6150119Abstract: Throughput rates for microfluidic serial analysis systems are optimized by maximizing the proximity and speed with which multiple different samples may be serially introduced into a microfluidic channel network. Devices are included that include optimized parameters based upon desired throughput rates for a given set of reagents, reaction times and the like.Type: GrantFiled: January 19, 1999Date of Patent: November 21, 2000Assignee: Caliper Technologies Corp.Inventors: Anne R. Kopf-Sill, Andrea W. Chow
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Patent number: 6146595Abstract: A closed positive pressure evaporation system for evaporating samples in preparation for analysis comprising a plurality of sample vials where each sample vial has associated therewith an inlet and an outlet. An chamber is provided having a heat source and a holder for positioning and holding the sample vials with reference to the heat source. A distribution manifold is connected via tubing to the inlet of each sample vial for distributing purified inert gas, such as Nitrogen, to each sample vial held by the holder in the chamber. A collection manifold is connected via tubing to the outlet means of each sample vial for collecting purified inert gas, such as Nitrogen, and gases from each sample vial connected to the distribution manifold. The chamber, distribution manifold and collection manifold coacting to expose a sample in each sample vial to only purified inert gas, such as Nitrogen, during the evaporation of the sample.Type: GrantFiled: February 10, 1998Date of Patent: November 14, 2000Assignee: Balazs Analytical LaboratoryInventor: John J. Mikulsky
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Patent number: 6143246Abstract: The present invention relates to apparatus and a method for measuring ammonia in biochemical processes, and more particularly to apparatus for real time measuring the amount of ammonia in a liquid with or without suspended solids.Type: GrantFiled: August 18, 1998Date of Patent: November 7, 2000Assignee: Biochem Technology, Inc.Inventors: Jaw Fang Lee, Sergey K. Maneshin, Marcus E. Kolb, Xin Yang
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Patent number: 6143573Abstract: A modular vial autosampler has a storage area for vials containing samples to be analyzed and at least one modular sampling station. A vial transfer mechanism lifts a sample vial from the storage section, moves it to a station for identification and then to a sampling station, and under central control activates the sampling station for obtaining a sample for analysis. The vial transfer mechanism is movable in x, y, and z directions to capture and move a selected vial. The autosampler has a series of valves operable under central control to selectively introduce two different standards into the sample, and after obtaining the sample, for rinsing and purging the conduits or lines and needles to reduce sample carryover. The modular vial autosampler includes controls to selectively sample either a gas or a liquid using many of the same components.Type: GrantFiled: October 23, 1996Date of Patent: November 7, 2000Assignee: Tekmar CompanyInventors: Prabhakar P. Rao, Edmund T. Lewis, Thomas B. Green
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Patent number: 6133045Abstract: A sample treatment system for automated extraction of compounds is disclosed. The system includes a housing defining an enclosure including a top cover having an open ended well for allowing a sample plate to nest therein, a automated shuttle means for lateral transportation and vertical lifting of both a waste and a collection plate to selectively address an area below the sample plate for the through passage of fluid from the sample plate and a digitally controlled variable speed vacuum pump operatively coupled to said housing for evacuating air from the enclosure to a degree below atmospheric pressure for through passage of fluid from the sample plate to either the waste plate or collection plate. The shuttle means includes motor drives and positive position feedback for precisely laterally and vertically positioning both the waste and collection plates.Type: GrantFiled: February 27, 1998Date of Patent: October 17, 2000Assignee: Hamilton CompanyInventors: James E. Johnson, James M. Salika, Chih-Chung Chen