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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Применить Всего найдено 4982. Отображено 100.

12-01-2012 дата публикации

Multilayer Hydrodynamic Sheath Flow Structure

Номер: US20120009025A1

Автор: Bernard Bunner, John R. Gilbert, Manish Deshpande

Принадлежит: Cytonome ST LLC

A microfabricated sheath flow structure for producing a sheath flow includes a primary sheath flow channel for conveying a sheath fluid, a sample inlet for injecting a sample into the sheath fluid in the primary sheath flow channel, a primary focusing region for focusing the sample within the sheath fluid and a secondary focusing region for providing additional focusing of the sample within the sheath fluid. The secondary focusing region may be formed by a flow channel intersecting the primary sheath flow channel to inject additional sheath fluid into the primary sheath flow channel from a selected direction. A sheath flow system may comprise a plurality of sheath flow structures operating in parallel on a microfluidic chip.

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Номер записи: 1

02-02-2012 дата публикации

Mixing device and mixing method for mixing small amounts of liquid

Номер: US20120028293A1

Автор: Achim Wixforth, Christoph Gauer

Принадлежит: Beckman Coulter Inc

The invention relates to a mixing method for mixing at least one small quantity of liquid, in which a quantity of liquid is applied, in a reaction region and at least one surface sound wave is reacted with the quantity of liquid. The invention relates further to a mixing device for mixing at least one quantity of liquid for performing the method of the present invention, a use of the device, and a method of analysis for bond strengths on surfaces.

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Номер записи: 2

16-02-2012 дата публикации

System and method for automated generation and handling of liquid mixtures

Номер: US20120040472A1

Автор: Krzysztof Churski, Marcin Izydorzak, Piotr Garstecki, Piotr Korczyk, Sławomir Jakieła, Sylwia Makulska, Tomasz Kamiński

Принадлежит: INSTYTUT CHEMII FIZYCZNEJ POLSKIEJ AKADEMII NAUK, PZ CORMAY SA

The invention relates to a system ( 1 ) for supplying a microfluidic subsystem with liquids, comprising a first valve ( 14, 29, 46 ) and a first fluidic duct ( 10, 25, 28 ), for connecting said first valve ( 14, 29, 46 ) with said microfluidic subsystem and supplying a first liquid, and a second fluidic duct ( 11 ), for connecting with said microfluidic subsystem and supplying a second liquid characterized in that said first valve ( 14, 29, 46 ) is suitable for closing with time resolution not worse than 100 msec, and parameters of said first fluidic duct ( 10, 15, 28 ) are chosen such that the value of X 1 [Pa −1 ], defined as: X 1 [Pa −1 ]=(0.5×10 −9+1/ E 1 )(α R1 L 1 2 /A 1 ) is lower than 10 4 Pa −1 , where E 1 is the Young modulus of the material, of which said first fluidic duct ( 10, 25, 28 ) is made, L 1 is the length of the said first fluidic duct ( 10, 25, 28 ), A 1 is the surface area of the lumen of the said first fluidic duct ( 10, 25, 28 ) and α R1 is a constant characterizing the geometry of the said first fluidic duct ( 10, 25, 28 ) in an equation for the hydraulic resistance R 1 of the said first fluidic duct: R 1 =α R1 ( L 1 μ/A 1 2 ) with μ denoting the dynamic viscosity coefficient of the fluid filling the said first fluidic duct ( 10, 25, 28 ) in the measurement of R 1 . The invention relates also to a method for producing microdroplets on demand in such a system.

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Номер записи: 3

08-03-2012 дата публикации

Process for treating and/or forming a non-newtonian fluid using microchannel process technology

Номер: US20120058063A1

Автор: Anna Lee Tonkovich, David Kilanowski, Eric Daymo, Ravi Arora

Принадлежит: Individual

The disclosed invention relates to a process, comprising: conducting unit operations in at least two process zones in a process microchannel to treat and/or form a non-Newtonian fluid, a different unit operation being conducted in each process zone; and applying an effective amount of shear stress to the non-Newtonian fluid to reduce the viscosity of the non-Newtonian fluid in each process zone, the average shear rate in one process zone differing from the average shear rate in another process zone by a factor of at least about 1.2.

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Номер записи: 4

29-03-2012 дата публикации

Thermal Microvalves

Номер: US20120077231A1

Автор: Brian N. Johnson, Mark A. Burns, Michael Chen

Принадлежит: University of Michigan

The movement and mixing of microdroplets through microchannels is described employing silicon-based microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. The discrete droplets are differentially heated and propelled through etched channels. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.

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Номер записи: 5

10-05-2012 дата публикации

Integrated Microfluidic Device and Methods

Номер: US20120115738A1

Автор: Benjamin W. Thomas, Gwendolyn Spizz, Lincoln C. Young, Peng Zhou, Todd Roswech, Travis Lee, Zongyuan Chen

Принадлежит: Rheonix Inc

A microfluidic device for analyzing a sample of interest is provided. The microfluidic device can comprise a microfluidic device body, wherein the microfluidic device body comprises a sample preparation area, a nucleic acid amplification area, a nucleic acid analysis area, and a network of fluid channels. Each of the sample preparation area, the nucleic acid amplification area and the nucleic acid analysis area are fluidly interconnected to at least one of the other two areas by at least one of the fluid channels. Using the microfluidic device, sample preparation can be combined with amplification of a biologically active molecule, and a suitable biological sample can be provided for analysis and/or detection of a molecule of interest. The small-scale apparatus and methods provided are easier, faster, less expensive, and equally efficacious compared to larger scale equipment for the preparation and analysis of a biological sample.

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Номер записи: 6

31-05-2012 дата публикации

Variable Volume Mixing and Automatic Fluid Management for Programmable Microfluids

Номер: US20120136492A1

Автор: Ahmed Mohamed Eid Amin, Han-Sheng Chuang, Mithuna Shamabhat Thottethodi, Stephen C. Jacobson, Steven T. Wereley, Terani Nadadoor Vijaykumar

Принадлежит: PURDUE RESEARCH FOUNDATION

A microfluidic arrangement including a fluid channel configured to receive a first fluid from a first inlet and a second fluid from a second inlet, and a mixer connected to the fluid channel, the mixer including a mixer channel configured to receive a volume of the first fluid and a volume of the second fluid from the fluid channel, the mixer channel defining a mixer capacity, wherein the mixer is (i) configured to mix the volume of the first fluid and the volume of the second fluid in order to provide a mixture of the first fluid and the second fluid when the combined volume of the first fluid and the second fluid is less than the mixer capacity, and (ii) further configured to mix the volume of the first fluid and the volume of the second fluid in order to provide a mixture of the first fluid and the second fluid when the combined volume of the first fluid and the second fluid is equal to the mixer capacity.

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Номер записи: 7

12-07-2012 дата публикации

Microfluidic reactor system

Номер: US20120177543A1

Автор: C. Frederick Battrell, Isaac Sprague, John Clemmens

Принадлежит: Micronics Inc

A compact device for operatively coupling a solid planar substrate, for example a glass slide, to a microfluidic circuit and performing a reaction or reactions on organic matter bound to the face of the planar substrate. Typical reactions include binding, staining and/or labeling reactions. In use, a sealed reaction chamber is formed, the chamber enclosing the organic matter and at least a part of the solid substrate. Headspace in the sealed chamber between the solid substrate is generally of microfluidic dimensions, and diaphragm pump members are used to inject, exchange and/or mix the fluids in the chamber.

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Номер записи: 8

26-07-2012 дата публикации

Test device, reaction apparatus and reactive test method

Номер: US20120190129A1

Автор: Kenichi Miyata, Kusunoki Higashino, Yasuhiro Sando

Принадлежит: KONICA MINOLTA INC

A test device having a micro flow channel including a reaction part where a reactant that is reactive to a tested chemical dispersed in a tested fluid is fixed, and at least one actuator for actuating the tested fluid to move in at least one of two opposite sides of the micro flow channel so as to homogenize a density distribution of the tested chemical in the tested fluid. The tested fluid is sent in the micro flow channel a plurality of times.

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Номер записи: 9

02-08-2012 дата публикации

Three-dimensional (3d) hydrodynamic focusing using a microfluidic device

Номер: US20120196314A1

Автор: Ahmad Ahsan Nawaz, Tony Jun Huang, Xiaole Mao

Принадлежит: PENN STATE RESEARCH FOUNDATION

A microfluidic device comprises inlets for a sample flow and an out-of-plane focusing sheath flow, and a curved channel section configured to receive the sample flow and out-of-plane focusing sheath and to provide hydrodynamic focusing of the sample flow in an out-of-plane direction, the out-of-plane direction being normal to a plane including the curved channel. Examples of the invention also include improved flow cytometers.

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Номер записи: 10

13-09-2012 дата публикации

Devices and methods for interfacing microfluidic devices with macrofluidic devices

Номер: US20120230887A1

Автор: Piero Zucchelli

Принадлежит: SpinX Inc

The present disclosure is directed generally to devices and methods with the purpose of interfacing microfluidic devices with macrofluidic devices. Specifically, the present disclosure includes the de-

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Номер записи: 11

11-10-2012 дата публикации

System and Methods for Making and Processing Emulsions

Номер: US20120258516A1

Автор: Brian Reed, John Nobile, Jonathan Schultz, Prasanna Thwar, Todd Roswech

Принадлежит: Life Technologies Corp

An automated on-touch template bead preparation system is provided and includes a membrane-based emulsion generation subsystems, an emulsion PCR (ePCR) thermocycling plate and subsystem, and a continuous centrifugation emulsion breaking and templated bead collection subsystem. The emulsion generation subsystem provides uniformity in the preparation of an inverse emulsion and may be used to create large or small volume inverse emulsions rapidly and reproducibly. An emulsion-generating device is provided that can supply a continuous stream of an inverse emulsion to a thermocycling subsystem, in automated fashion. The ePCR subsystem can continuously thermocycle an inverse emulsion passed therethrough and includes static temperature zones and a consumable thermocycling plate. The continuous centrifugation subsystem can continuously break a thermally cycled inverse emulsion and collect template beads formed in the aqueous microreactor droplets of the inverse emulsion.

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Номер записи: 12

25-10-2012 дата публикации

Microfluidic mixing apparatus and method

Номер: US20120269027A1

Автор: Huanming Xia, Zhiping Wang

Принадлежит: Agency for Science Technology and Research Singapore

A microfluidic mixing device for mixing at least two fluids to form a mixed fluid comprising; a first mixing chamber ( 420 ) for receiving the fluids from at least two fluid paths ( 385, 410 ); a mixing zone ( 380 ) upstream from the mixing chamber ( 420 ) having a first and second fluid path; said first and second fluid paths overlapping at first and second discreet points so as to provide mutual fluid communication between the first and second paths at said discreet points.

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Номер записи: 13

29-11-2012 дата публикации

Microchemical nanofactories

Номер: US20120298037A1

Автор: Brian Kevin Paul, Chih-Hung Chang, Vincent Thomas Remcho

Принадлежит: Oregon State Board of Higher Education, State University

Embodiments of an apparatus, system, and method for chemical synthesis and/or analysis are disclosed. One embodiment of a disclosed apparatus comprises a laminated, microfluidic structure defining a reactor and a separator. Such apparatuses, or portions thereof, generally have dimensions ranging from about 1 micrometer to about 100 micrometers. To implement synthetic processes, disclosed embodiments of the apparatus generally include at least one unit operation, such as a mixer, a valve, a separator, a detector, and combinations thereof. Individual apparatuses may be coupled both in series and in parallel to form a system for making chemical compounds. An individual apparatus or a system also can be used in combination with known devices and processes.

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Номер записи: 14

13-12-2012 дата публикации

Device, fluidic module and method for producing a dilution series

Номер: US20120314528A1

Автор: Guenter Roth, Oliver Strohmeier, Roland Zengerle

Принадлежит: Albert Ludwigs Universitaet Freiburg

A device for producing a dilution series from a solution to be diluted, which contains a substance to be diluted, and a dilution solution, includes a body of rotation, a drive configured to subject the body of rotation to rotations having different rotation protocols, and a controller configured to control the drive so as to subject the body of rotation to the different rotational frequencies. A first mixing chamber and a second mixing chamber are connected via a fluidic connection which enables producing, in the first mixing chamber, a first mixture having a first dilution ratio, transferring a partial volume of the first mixture into the second mixing chamber, and there producing a second mixture having a second dilution ratio.

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Номер записи: 15

14-02-2013 дата публикации

Isolation and cultivation of stem/progenitor cells from the amniotic membrane of umbilical cord and uses of cells differentiated therefrom

Номер: US20130039893A1

Автор: Toan-Thang Phan

Принадлежит: CellResearch Corp Pte Ltd

The present invention relates to the generation of a mucin-producing cell using stem/progenitor cells obtained from the amniotic membrane of umbilical cord and therapeutic uses of such mucin-producing cells.

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Номер записи: 16

21-03-2013 дата публикации

Method and Apparatus for a Microfluidic Device

Номер: US20130068310A1

Автор: Albert Folch, Christopher Sip

Принадлежит: University of Washington Center for Commercialization

An microfluidic device and methods for its use, where the microfluidic device comprises: (a) a porous membrane, (b) a gradient layer defining a plurality of gradient micro-channels, where the gradient layer is coupled to a top surface of the membrane, (c) a distributor layer defining a plurality of distributor micro-channels, where the distributor micro-channels are coupled to the plurality of gradient micro-channels, where the distributor layer defines at least one inlet opening and at least one outlet opening, each inlet opening and outlet opening are coupled to the plurality of distributor micro-channels, and (d) self-supporting means coupled to one or more of the porous membrane, the gradient layer and the distributor layer.

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Номер записи: 17

28-03-2013 дата публикации

Device for Forming Drops in a Microfluidic Circuit

Номер: US20130078164A1

Автор: Charles Baroud, Remi Dangla

Принадлежит: ECOLE POLYTECHNIQUE

The invention relates to a device ( 1 ) for forming droplets in a microfluidic circuit, the device comprising a chamber ( 3 ) containing a first fluid and defined by two opposite walls ( 10, 11 ) that diverge relative to each other in at least one given direction, and a microchannel ( 8 ) containing a second fluid and leading into a zone of said chamber ( 3 ) that is upstream relative to the given direction, the outlet of the microchannel ( 8 ) into the chamber ( 3 ) constituting an enlargement in the flow section for the second fluid, and the enlargement giving rise to droplets ( 14 ) of the second fluid forming within the first fluid.

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Номер записи: 18

02-05-2013 дата публикации

Architectural layout for dilution with reduced wastage in digital microfluidic based lab-on-a-chip

Номер: US20130105319A1

Автор: Bhargab B. Bhattacharya, Krishnendu Chakrabarty, Sudip Roy

Принадлежит: Indian Statistical Inst

Systems and methods are provided for producing fluids with desired concentration factors. According to one embodiment, an arrangement of digital microfluidic (DMF) based electrode platforms are provided. The arrangement may be configured to carry out a sequence of mix steps that may demand storage of resultant fluid mixtures produced in intermediate mix steps. Such sequences of mix steps may be desirable as a result of the decreased demand for initial fluid samples, and reduced wastage.

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Номер записи: 19

09-05-2013 дата публикации

Dilution method for digital microfluidic biochips

Номер: US20130115703A1

Автор: Bhargab B. Bhattacharya, Krishnendu Chakrabarty, Sudip Roy

Принадлежит: Indian Statistical Inst

Systems and methods are provided for producing fluids with desired concentration factors. According to one embodiment, a sequence of mix steps comprises mixing a resultant solution of a preceding mix step with one of the input solutions of the preceding mix step depending on a concentration factor of the resultant solution. If the concentration factor of the resultant solution is higher than the target concentration factor, then the resultant solution is mixed with the input solution having the lower concentration factor. If the concentration factor of the resultant solution is lower than the target concentration factor, then the resultant solution is mixed with the input solution having the higher concentration factor.

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Номер записи: 20

30-05-2013 дата публикации

Co-current mixer, apparatus, reactor and method for precipitating nanoparticles

Номер: US20130136687A1

Автор: Christopher James Tighe, Jawwad Darr, Robert Gruar

Принадлежит: UCL BUSINESS LTD

A high pressure tubular reactor for production of nanoparticles by precipitation has unidirectional fluid flows of precursor and supercritical water directed from inner and outer coaxial inlets to an outlet via a reaction zone immediately downstream of the inlets. The inner inlet is for supercritical fluid, and the outer inlet is for a precursor.

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Номер записи: 21

18-07-2013 дата публикации

Microfluidic device, microfluidic dosing system and method for microfluidic flow measurement and dosing

Номер: US20130183209A1

Автор: Martin Richter, Sebastian KIBLER

Принадлежит: Fraunhofer Gesellschaft zur Forderung der Angewandten Forschung eV

A microfluidic device for detecting a flow parameter, includes a channel configured within a base body, the channel including a first inlet for feeding a first fluid and a second inlet for feeding a second fluid so as to form a fluid stream having the first and second fluids within the channel, and further including an output for providing the fluid stream on the output side, a first feeder including a micropump associated with the first inlet for selectively feeding the first fluid to the channel, a second feeder associated with the second inlet for feeding the second fluid to the channel; and a detector for detecting, on the basis of a different physical property of the first fluid and the second fluid within the channel, a measurement value dependent on a current flow parameter of the first or second fluid.

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Номер записи: 22

18-07-2013 дата публикации

Microfluidic devices

Номер: US20130183659A1

Автор: Darren R. Link, David Marran, Jonathan M. Rothberg, Michael Weiner

Принадлежит: Raindance Technologies Inc

The present invention provides novel microfluidic substrates and methods that are useful for performing biological, chemical and diagnostic assays. The substrates can include a plurality of electrically addressable, channel bearing fluidic modules integrally arranged such that a continuous channel is provided for flow of immiscible fluids.

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Номер записи: 23

25-07-2013 дата публикации

Reversible Blender Jug

Номер: US20130188443A1

Автор: Christina Ruth Alvarez

Принадлежит: Individual

The reversible blender jug is one embodiment of a blender jug, comprising a vessel with dual and opposing openings, a plurality of lids (some having attached agitators), and a means for securing said lids to said vessel. The reversible blender jug can be operated in an upright or inverted position. Inverting the blender jug imparts vertical movement to the contents, creating more frequent contact between the agitators and the contents.

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Номер записи: 24

29-08-2013 дата публикации

Three-dimensional digital microfluidic system

Номер: US20130220810A1

Автор: Gary Chorng-Jyh Wang

Принадлежит: Individual

A three-dimensional digital microfluidic system comprises a first plate with a first electrode, a second plate with a second electrode, and a microfluidic drop in between the first and the second electrode. The electrodes are able to be actuated in sequence such that the microfluidic drop is able to be transported. A bridge plate is able to be included.

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Номер записи: 25

19-12-2013 дата публикации

Microfluidic device for high-throughput cellular gradient and dose response studies

Номер: US20130337486A1

Автор: Alexander Groisman, Andre Levchenko, Saurabh Paliwal

Принадлежит: JOHNS HOPKINS UNIVERSITY, UCSD Tech Transfer Office

The ability to form and maintain gradients is essential for the study of response of cells to various stimuli. The invention includes devices and methods for the high-throughput, reproducible formation of gradients for the study of living cells. The invention includes microfluidics device with a lest chamber having a depth flanked by flow-through channels having a deeper depth. Flow of two different fluids through the flow-through channels results in the creation of a gradient by diffusion across the test chamber having essentially no flow.

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Номер записи: 26

07-01-2021 дата публикации

Microdroplet/bubble-producing device

Номер: US20210001340A1

Автор: Naotomo TOTTORI, Takasi Nisisako

Принадлежит: Tokyo Institute of Technology NUC

The invention provides a microdroplet- or bubble-producing device that does not require separate through-holes for different liquid droplet/air bubble-producing flow channels. The droplet-producing flow channels are configured in a three-dimensional manner unlike in a conventional device where they are configured in a two-dimensional plane, and therefore the flow channels can be provided in a more high-density configuration than the prior art. In the microdroplet/bubble-producing device comprising slit(s) and the row of the plurality of microflow channels, the slit(s) is/are a continuous phase supply slit, a dispersion phase supply slit and a discharge slit, the plurality of microflow channels are configured so that the ends of the slit(s) and the two supply ports on both sides or the supply port and discharge port on either side are mutually connected, and at the sites of connection between the microflow channels and the slit(s), the dispersion phase undergoes shear with the continuous phase flow as the driving force, producing droplets or air bubbles of the dispersion phase, which are recovered from the discharge port.

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Номер записи: 27

05-01-2017 дата публикации

Manipulation of Beads in Droplets and Methods for Manipulating Droplets

Номер: US20170003282A1

Автор: Allen Eckhardt, Michael G. Pollack, Ramakrishna Sista, Vamsee K. Pamula, Vijay Srinivasan

Принадлежит: ADVANCED LIQUID LOGIC INC

The invention provides a method of circulating magnetically responsive beads within a droplet in a droplet actuator. The invention also provides methods for splitting droplets. The invention, in one embodiment, makes use of a droplet actuator with top and bottom substrates, a plurality of magnetic fields respectively present proximate the top and bottom substrates, wherein at least one of the magnet fields is selectively alterable, and a plurality of droplet operations electrodes positioned along at least one of the top and bottom surfaces. A droplet is positioned between the top and bottom surfaces and at least one of the magnetic fields is selectively altered.

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Номер записи: 28

14-01-2016 дата публикации

Methods and Systems for Enhanced Microfluidic Processing

Номер: US20160008811A1

Автор: Amy Droitcour, Daniel Laser, Hailemariam NEGUSSIE, William BEHNKE-PARKS

Принадлежит: WAVE 80 BIOSCIENCES Inc

Methods and systems are provided for a microfluidic cartridge including a high performance actuator useful for analyte detection, labeling and analysis. Microfluidic processing systems are to carry out chemical or biochemical reactions, or sequences of reactions, with small volumes (typically between 1 microliter and 10 milliliters) of reactants and products. A microfluidic processing system can comprise a network of tubes interfaced with discrete components such as valves and sensors, or an integrated device made of plastic, glass, metal, or other materials, or a combination of materials, with components such as valves and sensors built into the device and connected by flow passageways formed in the material.

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Номер записи: 29

12-01-2017 дата публикации

Sequencing of nucleic acids via barcoding in discrete entities

Номер: US20170009274A1

Автор: Adam R. Abate, Adam R. SCIAMBI, Freeman Lan, John Halliburton

Принадлежит: UNIVERSITY OF CALIFORNIA

Microfluidic methods for barcoding nucleic acid target molecules to be analyzed, e.g., via nucleic acid sequencing techniques, are provided. Also provided are microfluidic, droplet-based methods of preparing nucleic acid barcodes for use in various barcoding applications. The methods described herein facilitate high-throughput sequencing of nucleic acid target molecules as well as single cell and single virus genomic, transcriptomic, and/or proteomic analysis/profiling. Systems and devices for practicing the subject methods are also provided.

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Номер записи: 30

10-01-2019 дата публикации

Bead incubation and washing on a droplet actuator

Номер: US20190011443A1

Автор: Arjun Sudarsan, Michael G. Pollack, Ramakrishna Sista, Vamsee K. Pamula

Принадлежит: ADVANCED LIQUID LOGIC INC

Methods are provided for separating magnetically responsive beads from a droplet in a droplet actuator. Droplet operations electrodes and a magnet are arranged in a droplet actuator to manipulate a bead-containing droplet and position it relative to a magnetic field region that attracts the magnetically responsive beads. The droplet operations electrodes are operated to control the droplet shape and transport it away from the magnetic field region to form a concentration of beads in the droplet. The continued transport of the droplet away from the magnetic field causes the concentration of beads to break away from the droplet to yield a small, concentrated bead-containing droplet immobilized by the magnet.

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Номер записи: 31

18-01-2018 дата публикации

Diagnostic device

Номер: US20180015457A1

Автор: Chantelle Domingue, Jeremy Sells, Manish Giri, Nicholas McGuinness

Принадлежит: Hewlett Packard Development Co LP

A microfluidic diagnostic device may comprise a fluid inlet to receive a fluid from a fluidic slot, a main microfluidic channel fluidly coupled to the fluid inlet, and a main microfluidic pump interposed between the fluid inlet and the main microfluidic channel to continuously circulate a fluid through the fluidic slot, fluid inlet, and main microfluidic channel wherein the width of the fluid inlet is different from the width of the main microfluidic channel. A diagnostic device, comprising a fluidic slot, a fluid inlet fluidly coupled to the fluidic slot, a main channel fluidly coupled to the fluid inlet, and an inlet pump interposed between the fluid inlet and channel wherein the cross-sectional area of the fluid inlet is relatively larger at least one point than the cross-sectional area of the channel.

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Номер записи: 32

17-04-2014 дата публикации

Twist flow microfluidic mixer and module

Номер: US20140104975A1

Автор: Mikhail Sergeevich Chivilikhin

Принадлежит: Corning Inc

A multilayer microfluidic module ( 10 ) contains a micromixer ( 12 ) comprising, in order along an internal fluid path ( 14 ), a first fluid channel ( 16 ) lying within a first layer ( 51 ) of the module ( 10 ) along a first direction ( 15 ) with the first layer having a lower boundary ( 21 ); at least one additional fluid channel ( 17 ) lying within the first layer ( 51 ) of the module ( 10 ) along an additional direction ( 19 ); a first injection passage ( 20 ) extending from a first injection passage inlet ( 22 ) in the lower boundary ( 21 ) of the first layer ( 51 ) of the module ( 10 ) through a second layer ( 52 ) of the module ( 10 ) to a first injection passage outlet ( 24 ), the first injection passage inlet ( 22 ) being fluidically connected to the first fluid channel ( 16 ) and to the additional fluid channel ( 17 ) either individually through the lower boundary ( 21 ) of the first layer ( 51 ) or via a manifold ( 25 ) within the first layer ( 51 ); and a second fluid channel ( 26 ) lying within a third layer ( 53 ) of the module ( 10 ), the third layer ( 53 ) having an upper boundary ( 30 ), the second fluid channel having a width W 26 ; wherein the first direction ( 15 ) and the additional direction ( 19 ) are non-collinear, and wherein the first injection passage outlet ( 24 ) is centered within the second fluid channel ( 26 ) in the direction of the width W 26 , and has a length L 24 along the second fluid channel ( 26 ) and a width W 24 in the direction of the width W 26 , and wherein the width W 24 is narrower than the width W 26 , and wherein the first injection passage outlet (24) has a length-to-width ratio L 24 /W 24 of greater than 1:1.

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Номер записи: 33

23-01-2020 дата публикации

Portable digital diagnostic device

Номер: US20200023359A1

Автор: Yoel EZRA

Принадлежит: Efa - Engineering For All Ltd

A computerized device provides microscopy and electrochemistry tests, performed in dual channels. The device can be brought to the field, for on-site testing with instant results. The dual channels include an imaging channel and a signal channel.

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Номер записи: 34

23-01-2020 дата публикации

Fluid Flow Device

Номер: US20200023361A1

Автор: David John Brockwell, Nikil KAPUR, Sheena Elizabeth Radford

Принадлежит: UNIVERSITY OF LEEDS

A micro-fluidic flow device and method. The device includes a conduit having an inlet and an outlet distal from the inlet. The conduit further includes a plurality of constrictions each having a reduction in a cross-sectional area of the conduit in a direction from the inlet to the outlet. The constrictions are arranged in series and the reduction in cross-sectional area at each of the constrictions is sufficient to induce extensional flow in a fluid travelling therethrough, such that the maximum strain rate in the extensional flow region is at least 500 s −1 .

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Номер записи: 35

28-01-2021 дата публикации

Liquid bridge and system

Номер: US20210023561A1

Автор: Kieran Curran, Mark Davies, Tara Dalton

Принадлежит: Stokes Bio Ltd

A bridge (30) comprises a first inlet port (31) at the end of a capillary, a narrower second inlet port (32) which is an end of a capillary, an outlet port (33) which is an end of a capillary, and a chamber (34) for silicone oil. The oil is density-matched with the reactor droplets such that a neutrally buoyant environment is created within the chamber (34). The oil within the chamber is continuously replenished by the oil separating the reactor droplets. This causes the droplets to assume a stable capillary-suspended spherical form upon entering the chamber (34). The spherical shape grows until large enough to span the gap between the ports, forming an axisym metric liquid bridge. The introduction of a second droplet from the second inlet port (32) causes the formation of an unstable funicular bridge that quickly ruptures from the, finer, second inlet port (32), and the droplets combine at the liquid bridge (30). In another embodiment, a droplet (55) segments into smaller droplets which bridge the gap between the inlet and outlet ports.

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Номер записи: 36

24-01-2019 дата публикации

Method and device for ctc diagnosis using patch

Номер: US20190025281A1

Автор: Chan Yang Lim, Dong Young Lee, Kyung Hwan Kim

Принадлежит: Noul Co Ltd

According to an aspect of the present application, there is provided a diagnostic method for performing diagnosis on tumor cells included in a sample by using a patch which is provided as a gel type having a net-like structure forming micro-cavities, the diagnostic method including placing the sample on a plate, and using the patch that contains reagents used to detect cancer to provide the reagents contained in the patch to the plate.

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Номер записи: 37

24-04-2014 дата публикации

System and Method for Charging Fluids

Номер: US20140111901A1

Автор: Brian Chawke, David Mcguire, Kieran Curran, Michael Sayers, Noel SIRR

Принадлежит: Stokes Bio Ltd

Devices, systems, and methods for charging fluids are disclosed. The charging of fluids improves the mixing of fluids in microfluidic systems. The charging is performed by producing an ion field ( 50 ) between an ionizing electrode ( 20 ) and an opposed ground electrode ( 30 ). A fluid-containing vessel ( 40 ) is positioned between the opposed electrodes and the ion field charges the fluid ( 41 ) in the vessel.

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Номер записи: 38

04-02-2016 дата публикации

Apparatus and Process for Producing Patterned, Micron and Nanometer Size Reaction and Mixing Zones for Fluids Deposited on Smooth, Rough and Porous Surfaces and Applications of that Process

Номер: US20160033376A1

Автор: Shelley Lynn Anna, Stephen Garoff

Принадлежит: CARNEGIE MELLON UNIVERSITY

Process for producing patterned, micron and nanometer scale features by reacting or mixing in the small volumes at the intersections of coalescing drops, at the fronts of colliding thin films in front of spreading drops, or in the pore space of a porous medium under the drop. The process can be implemented on smooth, rough or porous surfaces and embodiments include multiplexed, single drop chemical or biochemical sensors and encryption of information of a printed page.

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Номер записи: 39

05-02-2015 дата публикации

Polarizable connection structure and device including the same

Номер: US20150034486A1

Автор: Hideyuki Sugioka

Принадлежит: Canon Inc

Provided is a device capable of functionalizing a micro-motion of a polarizable microstructure. A structure includes a plurality of polarizable structures, each having an electrically polarizable conductive part on a surface thereof, and a connector body having one of mobility and deformability, for connecting the plurality of polarizable structures to each other.

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Номер записи: 40

17-02-2022 дата публикации

Enzyme quantification

Номер: US20220050108A1

Автор: Darren R. Link, Michael L. Samuels

Принадлежит: Bio Rad Laboratories Inc

The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

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Номер записи: 41

01-05-2014 дата публикации

Biological Detection System and Method of Use

Номер: US20140120604A1

Автор: Brian Barrett, Brian Chawke, Conor McCarthy, Damian Curtin, Damien King, David Kinahan, David Mcguire, Kieran Curran, Mark Davies, Mark Korenke, Mauro AGUANNO, Michael Sayers, Noel SIRR, Ryan J. Talbot, Tara Dalton, Xiaona Hou

Принадлежит: Stokes Bio Ltd

Provided herein is a biological detection system and method of use wherein the biological detection system comprises at least one mixer or liquid bridge for combining at least two liquid droplets and an error correction system for detecting whether or not proper mixing or combining of the two component droplets have occurred.

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Номер записи: 42

06-02-2020 дата публикации

Microfluidic method for handling microdrops

Номер: US20200038867A1

Автор: Charles Baroud, Raphael Tomasi

Принадлежит: CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS, ECOLE POLYTECHNIQUE

Method for handling at least one first microdrop and at least one second microdrop in a microfluidic system including a capillary trap that has a first trapping zone and a second trapping zone, the method including steps consisting of: (i) trapping the first microdrop in the first trapping zone, and (ii) trapping the second microdrop in the second trapping zone, the first and the second trapping zone being arranged such that the first and the second microdrops are in contact with each other, the first and the second trapping zones being adapted such that the trapping forces returned to one of the microdrops are different.

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Номер записи: 43

06-02-2020 дата публикации

Devices, processes, and systems for determination of nucleic acid sequence, expression, copy number, or methylation changes using combined nuclease, ligase, polymerase, and sequencing reactions

Номер: US20200038871A1

Автор: Francis Barany

Принадлежит: CORNELL UNIVERSITY

The present invention relates to methods, devices, instruments, processes, and systems for the highly specific, targeted molecular analysis of regions of human genomes and transcriptomes from the blood, i.e. from cell free circulating DNA, exosomes, microRNA, IncRNA, circulating tumor cells, or total blood cells. The technology enables highly sensitive identification and enumeration of mutation, expression, copy number, translocation, alternative splicing, and methylation changes using spatial multiplexing and combined nuclease, ligation, polymerase, and sequencing reactions. Such technology may be used for non-invasive early detection of cancer, non-invasive cancer prognosis, and monitoring both treatment efficacy and disease recurrence of cancer.

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Номер записи: 44

19-02-2015 дата публикации

Test device, reaction apparatus and reactive test method

Номер: US20150050748A1

Автор: Kenichi Miyata, Kusunoki Higashino, Yasuhiro Sando

Принадлежит: KONICA MINOLTA INC

A test device having a micro flow channel including a reaction part where a reactant that is reactive to a tested chemical dispersed in a tested fluid is fixed, and at least one actuator for actuating the tested fluid to move in at least one of two opposite sides of the micro flow channel so as to homogenize a density distribution of the tested chemical in the tested fluid. The tested fluid is sent in the micro flow channel a plurality of times.

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Номер записи: 45

25-02-2016 дата публикации

Higher order multiple emulsions

Номер: US20160051954A1

Автор: Jasna Brujic, Martin Haase

Принадлежит: New York University NYU

Multiple emulsions with an “onion” topology are useful vehicles for drug delivery, biochemical assays, and templating materials. They can be assembled by ternary liquid phase separation using microfluidics, but the control over their design is limited because the mechanism of their creation is unknown. Here it is shown that phase separation occurs via self-similar cycles of mass transfer, spinodal decomposition or nucleation, and coalescence into multiple layers. Mapping out the phase diagram demonstrates a linear relation between concentric layer diameters, whose slope depends on the initial ternary composition and the molecular weight of the surfactant. These general rules quantitatively predict the number of droplet layers (multiplicity). Further, self-assembly routes for polymer capsules and liposomes are provided with techniques to assemble lipid-stabilized droplets with ordered internal structures.

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Номер записи: 46

01-03-2018 дата публикации

Droplet creation techniques

Номер: US20180056293A1

Автор: Adam R. Abate, David A. Weitz

Принадлежит: Harvard College

The present invention is generally related to systems and methods for producing droplets. The droplets may contain varying species, e.g., for use as a library. In some cases, at least one droplet is used to create a plurality of droplets, using techniques such as flow-focusing techniques. In one set of embodiments, a plurality of droplets, containing varying species, can be divided to form a collection of droplets containing the various species therein. A collection of droplets, according to certain embodiments, may contain various subpopulations of droplets that all contain the same species therein. Such a collection of droplets may be used as a library in some cases, or may be used for other purposes.

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Номер записи: 47

15-05-2014 дата публикации

Stabilized droplets for calibration and testing

Номер: US20140134623A1

Автор: Amy Hiddessen, Erin Steenblock

Принадлежит: Bio Rad Laboratories Inc

Provided herein, are droplet mixture compositions and systems and methods for forming mixtures of droplets. The system may comprise two or more droplet generation units. Each unit may include at least one first input well, a second input well, and an output well connected to the first and second input wells by channels that form a droplet generator. The combined droplet populations can be mixed, heated, and collected for multiple uses, such as for use as calibration standards for instrument testing and analysis.

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Номер записи: 48

02-03-2017 дата публикации

Low dispersion, fast response mixing device

Номер: US20170056843A1

Автор: David Mathew Johnson, John Steven Paschkewitz

Принадлежит: Palo Alto Research Center Inc

A mixing system has a parallel droplet dispenser capable of making droplets of a first working material in the range of 10 nanometers to 10 micrometers, a pump to deliver fluid for the droplets of the first working material and to produce a first emulsion, a compact mixer having low inter-voxel mixing to receive the emulsion and produce a homogenous material, and a dispensing system. A method of dispensing a graded material includes generating droplets of a first working material, the droplets having a size in the range of 10 nanometers to 10 micrometers, adding the droplets of the first working material into a fluid to create a first emulsion, wherein addition of the droplets of the first working material is controlled to create gradient in the emulsion, mixing the first emulsion to create a homogenous, graded mixture, and dispensing the homogenous, graded mixture onto a surface.

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Номер записи: 49

28-02-2019 дата публикации

Devices having a plurality of droplet formation regions

Номер: US20190060904A1

Автор: Anthony Makarewicz, Bill Kengli Lin, Rajiv Bharadwaj

Принадлежит: 10X Genomics Inc

Devices, systems, and their methods of use, for generating droplets are provided. One or more geometric parameters of a microfluidic channel can be selected to generate droplets of a desired and predictable droplet size.

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Номер записи: 50

17-03-2022 дата публикации

DILUTION ON MICROFLUIDIC EJECTOR CHIPS

Номер: US20220080372A1

Автор: "DApuzzo Fausto", Barcelo Steven, Rogacs Anita

Принадлежит: Hewlett-Packard Development Company, L.P.

A system and a method for on-chip dilution of a calibration solution are provided. An exemplary system includes a microfluidic ejector chip. The microfluidic ejector chip includes a calibration reservoir to contain a calibration standard and a dilution reservoir to contain a dilution solvent. A first fluid control device couples the calibration reservoir to a mixing chamber, and a second fluid control device couples a dilution reservoir to the mixing chamber. The mixing chamber is fluidically coupled to a microfluidic ejector. 1. A system , comprising a microfluidic ejector chip , comprising:a calibration reservoir to contain a calibration standard;a dilution reservoir to contain a dilution solvent;a microfluidic ejector;a mixing chamber fluidically coupled to the microfluidic ejector;a first fluid control device coupling the calibration reservoir to the mixing chamber; anda second fluid control device coupling the dilution reservoir to the mixing chamber.2. The system of claim 1 , comprising a port on the calibration reservoir for adding fluid to the calibration reservoir.3. The system of claim 1 , comprising a port on the dilution reservoir for adding fluid to the dilution reservoir.4. The system of claim 1 , wherein the microfluidic ejector comprises a thermal droplet ejection system or a piezoelectric droplet ejection system.5. The system of claim 1 , wherein the mixing chamber comprises a passive mixing chamber comprising an inter-diffusion region.6. The system of claim 1 , wherein the mixing chamber comprises an active mixing chamber comprising a thermal gradient transducer claim 1 , an ultrasonic transducer claim 1 , or a pressure perturbation transducer.7. The system of claim 1 , wherein the mixing chamber comprises a mixture reservoir.8. The system of claim 1 , wherein the first fluid control device claim 1 , the second fluid control device claim 1 , or both claim 1 , comprises a MEMS valve.9. The system of claim 1 , wherein the first fluid control device ...

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Номер записи: 51

17-03-2022 дата публикации

Devices, systems, and methods for controlling liquid flow

Номер: US20220080424A1

Автор: Alireza SALMANZADEH, Anthony Makarewicz, Astha TANNA, Bill Kengli Lin, Fernandino VALDECANAS, Francis CUI, Ivan AKHREMICHEV, Lynna CHEN, Martin SAUZADE, Mohammad Rahimi Lenji, Rachel GERVER, Rajiv Bharadwaj, Tobias Daniel Wheeler, Yiran Zhang

Принадлежит: 10X Genomics Inc

Disclosed are devices, systems, kits, and methods for controlling liquid flow and, e.g., in particular, for forming droplet having substantially uniform droplet-to-droplet content. The devices, systems, and kits may include a first channel including a funnel or may include a first channel and a first-side channel, the first channel being in fluid communication with a droplet formation region. The devices, systems, and kits may further include a second channel fluidically connected to the first channel or the first side-channel. Funnels and/or side-channels may be used to enhance the control over particle spacing in the channels, thereby providing superior control over the number of particles of the same kind in formed droplets. The devices, systems, and kits of the invention may further include a mixer downstream of a channel intersection. Mixers can be used to reduce localized pockets of high concentration of dissolved ingredients.

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Номер записи: 52

12-03-2015 дата публикации

Droplet operations device

Номер: US20150068903A1

Автор: Arjun Sudarsan, Michael G. Pollack, Nicole Bell, Ramakrishna Sista, Raymond Kozikowski, Vamsee K. Pamula, Vijay Srinivasan

Принадлежит: ADVANCED LIQUID LOGIC INC

The invention provides droplet actuators with droplet operations surfaces for manipulating droplets, e.g., by conducting droplet operations. The droplet operations surfaces are typically exposed to a droplet operations gap. One or more regions of a droplet operation surface may include patterned topographic features. The invention also provides a droplet actuator in which one or both gap-facing droplet operations surfaces is formed using a removable film. The removable film may, in various embodiments, also include other components ordinarily associated with the droplet actuator substrate, such as the dielectric layer and the electrodes. Further, the invention provides droplet actuator devices and methods for coupling and/or sealing substrates of a droplet actuator, such as techniques for self-aligning assembly of droplet actuator substrates. The invention provides droplet actuators and methods of disassembling the droplet actuator in order to provide access for cleaning and/or recycling of droplet actuator surfaces.

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Номер записи: 53

10-03-2016 дата публикации

Micro-fluidic mixer and method of determining pathogen inactivation via antimicrobial solutions

Номер: US20160068883A1

Автор: Boce Zhang, Patricia D. Millner, Yaguang Luo

Принадлежит: University of Maryland at Baltimore, US Department of Agriculture USDA

A sample of produce wash water containing an antimicrobial sanitizer fluid, and a reference pathogen fluid are both injected into a pathogen inactivation region of a micro-fluidic mixer. The produce wash water (i.e. sanitizer fluid/pathogen fluid mix) is directed through mixer elements in the pathogen inactivation region of the micro-fluidic mixer. In the sanitizer deactivation region, a sanitizer deactivation solution is added to the sanitizer fluid/pathogen fluid mix to produce a deactivated solution. The deactivated solution is evaluated for the presence of the pathogen and the characteristics of the sanitizer. In the preferred embodiment, the sanitizer comprises chlorine and the pathogen comprises E. coli bacteria.

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Номер записи: 54

09-03-2017 дата публикации

Non-invasive monitoring cancer using integrated microfluidic profiling of circulating microvesicles

Номер: US20170065978A1

Автор: Mei He, Yong Zeng, Zheng Zhao

Принадлежит: Kansas State University, University of Kansas

A microfluidic exosome profiling platform integrating exosome isolation and targeted proteomic analysis is disclosed. This platform is capable of quantitative exosomal biomarker profiling directly from plasma samples with markedly enhanced sensitivity and specificity. Identification of distinct subpopulation of patient-derived exosomes is demonstrated by probing surface proteins and multiparameter analyses of intravesicular biomarkers in the selected subpopulation. The expression of IGF-1R and its phosphorylation level in non-small cell lung cancer (NSCLC) patient plasma is assessed as a non-invasive alternative to the conventional biopsy and immunohistochemistry. Detection of ovarian cancer also is assessed. The microfluidic chip, which may be fabricated of a glass substrate and a layer of poly(dimethylsiloxane), includes a serpentine microchannel to mix a fluid and a microchamber for the collection and detection of exosomes.

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Номер записи: 55

24-03-2022 дата публикации

Microfluidic chip and device

Номер: US20220088604A1

Автор: Ching-Chih Chang, Hui-Min Yu, Jui-Lin Chen, Wei-Feng Fang

Принадлежит: Micareo Taiwan Co ltd

A microfluidic device and a microfluidic chip are provided. The microfluidic device includes the microfluidic chip, a pouring element, a flow adjustment element and a processor. The microfluidic chip includes a sorting assembly, a sample outlet channel, a pouring channel, a collection channel and a waste channel. The sorting assembly includes a sample inlet channel and a sorting chamber. The pouring element is connected to the pouring channel. The flow adjustment element is connected to a distal end of the sample outlet channel. The processor is configured to control the pouring element to pour a guiding fluid into the pouring channel entering the sample outlet channel and control the flow adjustment element to adjust a flow resistance of a drain section of the sample outlet channel.

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Номер записи: 56

24-03-2022 дата публикации

TIME-VARYING DETECTING DEVICE AND METHOD FOR CONCRETE RHEOLOGICAL PARAMETERS

Номер: US20220091005A1

Автор: Gong Jian, SHI Xiaowan, Wang Shengyi, Xu Jun, XU Yonghe

Принадлежит:

A time-varying detecting device and method for concrete rheological parameters, in which the double-covered cylinder has top and bottom covers (), both of which can be freely opened, is configured to contain a concrete sample, and a lifting frame includes a pair of vertical supports () extending in parallel with each other. The double-covered cylindrical container is held between the pair of vertical supports () by means of connecting members () in such a manner that it can be flipped 180° about a straight line along which the connecting members () extend under the action of an external force. To perform a test, the top cover () is opened and a concrete mix is filled in, followed by detecting initial rheological parameters. The top cover () is closed, and the concrete mix is left for a predetermined period of time. The double-covered cylindrical container is lifted to a predetermined height by raising the connecting members (), flipped 180° and lowered back onto the floor. The bottom cover () is opened, and the concrete mix is re-mixed and homogenized, followed by finally detecting the time-varying rheological parameters of the concrete mix. 1. A time-varying detecting device for concrete rheological parameters , comprising:a double-covered cylindrical container comprising a top cover and a bottom cover that are allowed to be opened and closed freely, and a hollow cylindrical body;a lifting frame comprising a pair of vertical supports each of which is rotatably connected by a connecting member to a side wall of the double-covered cylindrical container such that the double-covered cylindrical container is allowed to be flipped 180° by an external force about a straight line along which the connecting members extend, wherein the connecting members are lifting rods, recesses are symmetrically formed in an outer surface of the cylindrical body, and the recesses are provided with associated fasteners, left bracket-shaped or ear-shaped slots are formed in central portions ...

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Номер записи: 57

23-03-2017 дата публикации

Device and method for mixing material to be mixed

Номер: US20170080395A1

Автор: Rudolf RABER, Stephan BAER

Принадлежит: FRXSH AG

A device and to the use thereof for mixing material to be mixed. A method for providing material to be mixed has the following steps:  provision of a container with a single container opening and an inner chamber which contains an initial filling,  surrounding the container with a jacket,  introduction of a mixer such that the mixer protrudes into the inner chamber of the container, wherein the mixer is connected to a drive unit or the mixer can be connected to a drive unit in a subsequent step,  rotary driving of the mixer using the drive unit in order to provide the material to be mixed by mixing the initial filling,  removal of the mixer from the inner chamber of the container,  separation of container and jacket in order to provide the container with all of the material to be mixed located inside, for consumption.

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Номер записи: 58

23-03-2017 дата публикации

Microfluidic devices that include channels that are slidable relative to each other and methods of use thereof

Номер: US20170080417A1

Автор: Mark Davies

Принадлежит: University of Limerick

The invention generally relates to microfluidic devices that include channels that are slidable relative to each other and methods of use thereof. In certain embodiments, the invention provides a microfluidic device that includes a first channel having an open end, and a second channel having an open end. The first and second channels are slidable relative to each other such that when the open end of the first channel and the open end of the second channel are aligned with each other, fluid flows from the first channel into the second channel.

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Номер записи: 59

19-03-2020 дата публикации

Detection method for a target nucleic acid

Номер: US20200086312A1

Автор: Amy L. Hiddessen, Anthony J. Makarewicz, JR., Benjamin J. Hindson, Billy W. Colston, Jr., Donald A. Masquelier, Erin R. Chia, Kevin D. Ness, Michael Y. Lucero, Ryan T. Koehler, Serge Saxonov, Svilen S. Tzonev

Принадлежит: Bio Rad Laboratories Inc

Method of detecting a target nucleic acid. In an exemplary method, at least two thermal zones of different temperature may be created using a heating assembly. A first emulsion and a second emulsion may be formed. The first and second emulsions may be thermally cycled by passing them through tubing in a spaced relation to one another, with the tubing being wound around a central axis of the heating assembly and extending through each thermal zone multiple times. Thermally cycling may promote amplification of the target nucleic acid in droplets of each emulsion. Droplets of each emulsion may be passed through a detection channel located downstream of the tubing. Fluorescence may be detected from the droplets being passed through the detection channel.

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Номер записи: 60

19-03-2020 дата публикации

Inertial droplet generation and particle encapsulation

Номер: US20200086322A1

Автор: Arash Jamshidi, Foad Mashayekhi, Hamed AMINI, Tarun Kumar Khurana, Yir-Shyuan WU

Принадлежит: Illumina Inc

Described are microfluidic devices and methods for providing a predetermined number of microspheres or beads, together with a cell, within a fluid droplet being processed. The system may provide each droplet with a single bead and a single cell, and the bead may contain DNA or other reagents for later identifying the specific cell associated with that bead.

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Номер записи: 61

09-04-2015 дата публикации

Manipulating the size of liquid droplets in digital microfluidics

Номер: US20150096890A1

Автор: Joseph A. Mamone, Marc N. Feiglin, Michael Franklin, Timothy Francis Lee

Принадлежит: TECAN TRADING AG

A biological sample processing system ( 1 ) includes a liquid droplet manipulation instrument ( 20 ) with an electrode array ( 21 ) for inducing a movement of a liquid droplet ( 19 ) by electrowetting; a substrate ( 22 ); and a control unit ( 23 ). An electrode selector ( 34 ) of the control unit ( 23 ) is configured to individually select and provide each electrode ( 35 ) of the electrode array ( 21 ) with a voltage. The control unit ( 23 ) includes a central processing unit ( 36 ) for individually selecting at least one electrode ( 35 ) and for providing the selected electrode(s) ( 35 ) with an individual voltage pulse. The biological sample processing system ( 1 ) also includes a cartridge ( 40 ) with a container ( 2 ).

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Номер записи: 62

09-04-2015 дата публикации

Device and method for pressure-driven plug transport and reaction

Номер: US20150099264A1

Автор: Helen Song, Joshua David Tice, Lewis Spencer Roach, Rustem F. Ismagilov

Принадлежит: University of Chicago

The present invention provides microfabricated substrates and methods of conducting reactions within these substrates. The reactions occur in plugs transported in the flow of a carrier-fluid.

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Номер записи: 63

26-06-2014 дата публикации

Molecular diagnostics platform

Номер: US20140174926A1

Автор: Carrie Graham, Donovan Bort, Michael Pollack, Ramakrishna Sista, Vamsee Pamula, Vijay Srinivasan

Принадлежит: ADVANCED LIQUID LOGIC INC

A method of mixing a droplet, the method comprising providing a droplet on a surface, forming the droplet into a first “U” shape having a bottom region and two terminal ends, and simultaneously merging the terminal ends and splitting the droplet at the bottom region to form a second “U” shape which is substantially opposite the first “U” shape.

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Номер записи: 64

28-03-2019 дата публикации

Method and apparatus of generating substantially monodisperse droplets

Номер: US20190091690A1

Автор: Bo-Han Huang, Chun-Kai Wang, Hui Chen, Pang Lin

Принадлежит: Tantti Laboratory Inc

The invention relates to a method and an apparatus for generating substantially monodisperse droplets. The invention involves flowing a continuous phase fluid in a microfluidic passageway which extends along a longitudinal length direction and has a substantially constant cross section along the length direction. A dispersed phase fluid is introduced into the microfluidic passageway along a traverse direction through inlet orifices to generate droplets of the dispersed phase fluid in the continuous phase fluid. The inlet orifices have a substantially uniform diameter, and any adjacent two of the inlet orifices are arranged to be offset from each other in the length direction. The dispersed phase fluid is broken up by the shear stress generated by the continuous phase fluid to produce monodisperse droplets. By the offsetting arrangement of the inlet orifices, droplets formed by adjacent inlet orifices will not interfere with each other, thereby ensuring the uniformity of the droplets.

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Номер записи: 65

12-05-2022 дата публикации

High-Pressure Homogenizer and Method for Manufacturing Graphene Using the Same

Номер: US20220144643A1

Автор: Im Ye Hoon, KIM Eun Jeong, Kim In Young, KWON Won Jong, Yoo Kwang Hyun

Принадлежит: LG CHEM, LTD.

Provided a high-pressure homogenizer comprising a channel module comprising a microchannel through which an object for homogenization passes, wherein the microchannel is provided with a first flow channel and a second flow channel sequentially arranged along the direction through which the object passes, the first flow channel is provided with a plurality of first baffles disposed so as to partition the microchannel into a plurality of spaces, the second flow channel is provided with a plurality of second baffles disposed so as to partition the microchannel into a plurality of spaces, and at least one of the first baffles is provided to be positioned between two adjacent second baffles. 1. A high-pressure homogenizer comprising a channel module comprising a microchannel through which an object for homogenization passes ,wherein the microchannel is provided with a first channel to an Nth channel (N>2) sequentially arranged along the direction through the object passes,the channel module comprises an inflow channel in which the object is supplied to the microchannel and an outflow channel to which the object passing through the microchannel is introduced,the first channel is provided with a plurality of first baffles arranged so as to be partitioned into a plurality of spaces along a width direction or a height direction and sequentially, the Nth channel comprises a plurality of Nth baffles arranged so as to be partitioned into a plurality of spaces along a width direction or a height direction, andin two adjacent regions among N regions of the microchannel, baffles provided in respective regions are arranged in a staggered state for each region based on a flow cross section of the microchannel.2. The high-pressure homogenizer according to claim 1 ,wherein the inflow channel is provided so that at least a part of a flow area becomes small along a moving direction of the object and the outflow channel is provided so that at least a part of the flow area increases along ...

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Номер записи: 66

13-04-2017 дата публикации

Apparatus and Methods for Parallel Processing of Microvolume Liquid Reactions

Номер: US20170101667A1

Автор: Matthew T. O'keefe, Pamela K. Foreman

Принадлежит: Leland Stanford Junior University

Disclosed herein are apparatuses and methods for conducting multiple simultaneous micro-volume chemical and biochemical reactions in an array format. In one embodiment, the format comprises an array of microholes in a substrate. Besides serving as an ordered array of sample chambers allowing the performance of multiple parallel reactions, the arrays can be used for reagent storage and transfer, library display, reagent synthesis, assembly of multiple identical reactions, dilution and desalting. Use of the arrays facilitates optical analysis of reactions, and allows optical analysis to be conducted in real time. Included within the invention are kits comprising a microhole apparatus and a reaction component of the method(s) to be carried out in the apparatus.

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Номер записи: 67

04-04-2019 дата публикации

Cartridge, detection method, and detection device

Номер: US20190099728A1

Автор: Kazuyoshi Horii, Sayuri Tomoda, Tomoyuki Nose, Yongjian Yang

Принадлежит: Sysmex Corp

The present invention provides a cartridge, a detection method, and a detection device capable of stabilizing the liquid level of a sample accommodated in a chamber in a predetermined state. A cartridge 20 , that is rotated around a rotating shaft 42 for detecting a target substance, is provided with a chamber 100 in which a sample containing a target substance is stored. The chamber 100 includes a first region 110 in which a sample is stored, a second region 120 disposed at a position closer to the rotating shaft 42 than the first region 110 , and a protrusion 130 protruding from a position between the first region 110 and the second region 120 to the inner side of the chamber 100.

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Номер записи: 68

02-06-2022 дата публикации

Fluidic oscilators

Номер: US20220168697A1

Автор: Pratik Devang Desai, William Bauer Jay Zimmerman

Принадлежит: Perlemax Ltd

A fluidic oscillator includes at least one inlet port ( 57 ) in communication with at least two outlets ( 61 ) via a nozzle region and two outlet conduits ( 58, 62 ), the two outlet conduits being separated from each other by a splitter region. Each outlet conduit includes a resonance chamber ( 60 ) in fluid communication with the conduit. The resonance chambers contribute to controlling the oscillation of the device. The fluidic oscillator is operatable in an acoustic switching mode.

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Номер записи: 69

09-04-2020 дата публикации

Electrowetting force droplet manipulation

Номер: US20200108394A1

Автор: Michael W. Cumbie, Viktor Shkolnikov

Принадлежит: Hewlett Packard Development Co LP

One example includes a device that includes an insulator panel, a plurality of electrical inputs, and a plurality of electrodes. The plurality of electrical inputs may be disposed on the insulator panel and individually receive an actuation voltage. The plurality of electrodes may be disposed on the insulator panel and are coupled to the plurality of electrical inputs. Two or more of the plurality of electrodes may be coupled to a single one of the plurality of electrical inputs for each of the plurality of electrical inputs. The plurality of electrodes may be actuated with the actuation voltage individually received at a respective electrical input to create an electric field over associated electrodes to subject a droplet proximate to the associated electrodes actuated with the actuation voltage to an electrowetting force.

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Номер записи: 70

17-07-2014 дата публикации

Characterization of reaction variables

Номер: US20140199783A1

Автор: Gunnar Kylberg, Gunnar Thorsén, Mats Inganas, Per Andersson

Принадлежит: GYROS Patent AB

A microscale method for the characterization of one or more reaction variables that influence the formation or dissociation of an affinity complex comprising a ligand and a binder, which have mutual affinity for each other. The method is characterized in comprising the steps of: (i) providing a microfluidic device comprising a microchannel structures that are under a common flow control, each microchannel structure comprising a reaction microactivity; (ii) performing essentially in parallel an experiment in each of two or more of the plurality of microchannel structures, the experiment in these two or more microchannel structures comprising either a) formation of an immobilized form of the complex and retaining under flow conditions said form within the reaction microactivity, or b) dissociating, preferably under flow condition, an immobilized form of the complex which has been included in the microfluidic device provided in step (i), at least one reaction variable varies or is uncharacterized for said two or more microchannel structures while the remaining reaction variables are kept essentially constant; (iii) measuring the presentation of the complex in said reaction microactivity in said two or more microchannel structures; and (iv) characterizing said one or more reaction variables based on the values for presentation obtained in step (iii).

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Номер записи: 71

17-07-2014 дата публикации

System for detection of spaced droplets

Номер: US20140200164A1

Автор: Amy L. Hiddessen, Anthony J. Makarewicz, JR., Benjamin J. Hindson, Billy W. Colston, Jr., Donald. A. Masquelier, Kevin D. Ness, Michael Y. Lucero, Ryan T. Koehler, Serge Saxonov, Svilen S. Tzonev

Принадлежит: Bio Rad Laboratories Inc

System, including methods and apparatus, for detection of spaced droplets.

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Номер записи: 72

07-05-2015 дата публикации

Methods And Apparatuses For Droplet Mixing

Номер: US20150125865A1

Автор: David Scott Johnson, Gary Withey, Philip Homewood, Timothy Atkins

Принадлежит: Gigagen Inc

Methods and systems are provided for merging a droplet with a volume of fluid in a microfluidic system. In particular, the methods of the invention use a microfluidic structure designed to merge a fluid with a droplet in order to dilute, add volume, or add selected reagents, biological materials, or synthetic materials to a droplet. Also provided are related systems and methods for cell lysis.

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Номер записи: 73

07-05-2015 дата публикации

Fast thermo-optical particle characterisation

Номер: US20150125897A1

Автор: Philipp Baaske, Stefan Duhr

Принадлежит: Ludwig Maximilians Universitaet Muenchen LMU

The present invention relates to a method and an apparatus for a fast thermo-optical characterisation of particles. In particular, the present invention relates to a method and a device to measure the stability of (bio)molecules, the interaction of molecules, in particular biomolecules, with, e.g. further (bio)molecules, particularly modified (bio)molecules, particles, beads, and/or the determination of the length/size (e.g. hydrodynamic radius) ofindividual (bio)molecules, particles, beads and/or the determination of length/size (e.g. hydrodynamic radius).

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Номер записи: 74

16-04-2020 дата публикации

Systems and methods for treating and conditioning small volume liquid samples

Номер: US20200114323A1

Автор: Christopher Feistel

Принадлежит: Feistel Holding Corp

Systems and methods are for creating liquid toroidal mixing patterns within microliter volumes of liquids are contemplated. An electrode geometry comprising peripheral electrodes defining an annular configuration and interior electrodes are contemplated, to which an alternating current may be applied. Via control of the frequency, waveform, amplitude and bias of the current, liquids and the components of those liquids may be mixed in a toroidal motion. This same electrode geometry may also be used to accomplish the deposition of targeted materials onto the surface of the peripheral or interior electrode by further manipulating the frequency, amplitude, and bias of the waveform of the applied current. Methods of applying such techniques are also contemplated in the context of blood typing assays, latex agglutination assays, micro array assays, transfection, transduction, and tissue engineering methods, and it may be seen that such techniques may result in substantial benefits.

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Номер записи: 75

16-04-2020 дата публикации

Systems and methods for serial flow emulsion processes

Номер: US20200114357A1

Автор: Andrew Carl LARSEN, Christopher Michael PERKINS, Donna Kelley, Kristopher HOLUB, Matthew Ryan DUNN, Michael BARICH, Pin Kao

Принадлежит: Dropworks Inc

Disclosed herein are systems and methods for serial flow emulsion processes. Systems and methods as described herein result in reduced cross-contamination.

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Номер записи: 76

12-05-2016 дата публикации

Coalescence of droplets

Номер: US20160129444A1

Автор: David A. Weitz, Donald Aubrecht, Ilke Akartuna, Thomas E. Kodger

Принадлежит: Harvard College

The present invention generally relates to microfiuidics, and, in particular, to systems and methods for coalescing or fusing droplets. In certain aspects, two or more droplets within a microfluidic channel are brought together and caused to coalesce without using electric fields or charges. For example, in certain embodiments, droplets stabilized with a surfactant may be disrupted, e.g., by exposing the droplets to a solvent able to alter the surfactant, which may partially destabilize the droplets and allow them to coalesce. In some instances, the droplets may also be physically disrupted to facilitate coalesce. In addition, in some cases, the positions of one or more droplets may be controlled within a channel using a groove in a wall of the channel. For example, a droplet may at least partially enter the groove such that the position of the droplet is at least partially controlled by the groove.

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Номер записи: 77

01-09-2022 дата публикации

FLUID INJECTION

Номер: US20220274072A1

Автор: Abate Adam R., Hung Tony, Mary Pascaline, Weitz David A.

Принадлежит: President and Fellows of Harvard College

The present invention generally relates to systems and methods for the control of fluids and, in some cases, to systems and methods for flowing a fluid into and/or out of other fluids. As examples, fluid may be injected into a droplet contained within a fluidic channel, or a fluid may be injected into a fluidic channel to create a droplet. In some embodiments, electrodes may be used to apply an electric field to one or more fluidic channels, e.g., proximate an intersection of at least two fluidic channels. For instance, a first fluid may be urged into and/or out of a second fluid, facilitated by the electric field. The electric field, in some cases, may disrupt an interface between a first fluid and at least one other fluid. Properties such as the volume, flow rate, etc. of a first fluid being urged into and/or out of a second fluid can be controlled by controlling various properties of the fluid and/or a fluidic droplet, for example curvature of the fluidic droplet, and/or controlling the applied electric field. 135-. (canceled)36. A method , comprising:providing a microfluidic system comprising a first microfluidic channel and a second microfluidic channel contacting the first microfluidic channel at an intersection, wherein the microfluidic system further comprises first and second electrodes positioned to create an electric field within the intersection;providing a first fluidic droplet in the first microfluidic channel and a second fluid in the second microfluidic channel, wherein the first fluidic droplet and the second fluid contact each other forming a fluidic interface at least partially within the intersection andflowing a predetermined volume of the second fluid into the first fluidic droplet by applying a voltage to the first and second electrodes, wherein the volume of the second fluid flowing into the first fluidic droplet is partially controlled by controlling the voltage applied to the first and second electrodes.37. The method of claim 36 , further ...

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Номер записи: 78

23-04-2020 дата публикации

High Pressure Homogenizer And Method For Manufacturing Graphene Using The Same

Номер: US20200122108A1

Автор: Eun Jeong Kim, Jin Yeong Lee, Kwang Hyun Yoo, Won Jong Kwon, Ye Hoon Im

Принадлежит: LG Chem Ltd

The present invention relates to a high pressure homogenizer and a method for manufacturing graphene using the same, and according to one aspect of the present invention, there is provided a high pressure homogenizer comprising a channel module which comprises a microchannel through which an object for homogenization passes, wherein the channel module comprises at least one baffle disposed so as to partition the microchannel into a plurality of spaces and the baffle is provided so as to partition the microchannel into two spaces along the width direction or the height direction.

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Номер записи: 79

18-05-2017 дата публикации

Biologic fluid analysis cartridge

Номер: US20170136459A1

Автор: Elise G. Edson, John A. Verrant, John N. Blum, Kaushal K. Verma, Vu Phan

Принадлежит: ABBOTT POINT OF CARE INC

A biological fluid sample analysis cartridge is provided. The cartridge includes a housing, a fluid module, and an analysis chamber. The fluid module includes a sample acquisition port and an initial channel, and is connected to the housing. The initial channel is sized to draw fluid sample by capillary force, and is in fluid communication with the acquisition port. The initial channel is fixedly positioned relative to the acquisition port such that at least a portion of a fluid sample disposed within the acquisition port will draw into the initial channel. The analysis chamber is connected to the housing, and is in fluid communication with the initial channel.

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Номер записи: 80

07-08-2014 дата публикации

Multiple emulsions and techniques for the formation of multiple emulsions

Номер: US20140220350A1

Автор: Alireza ABBASPOURRAD, David A. Weitz, Shin-Hyn Kim

Принадлежит: Harvard College

Multiple emulsions and techniques for the formation of multiple emulsions are generally described. A multiple emulsion, as used herein, describes larger droplets that contain one or more smaller droplets therein. In some embodiments, the larger droplet or droplets may be suspended in a carrying fluid containing the larger droplets that, in turn, contain the smaller droplets. As described below, multiple emulsions can be formed in one step in certain embodiments, with generally precise repeatability, and can be tailored in some embodiments to include a relatively thin layer of fluid separating two other fluids.

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Номер записи: 81

15-09-2022 дата публикации

COMPOUNDING DEVICE, SYSTEM, KIT, SOFTWARE, AND METHOD

Номер: US20220288377A1

Автор: Bartholomew Joel, Brown Michael Y., Burnard Edwin, Cowperthwaite Jake A., Flamm Alex K., Hershey Dave E., Janders Mike, JR. Karl, Kendall Jamie, Konrad, Lane Benjamin R., Larrow Chet B., Mumpower Mariano, Pearl Aaron S., Savage Jeremy C.

Принадлежит:

An exemplary compounding system and method can include two pump heads for simultaneously drawing two different fluids from at least two separate input containers such that the at least two different fluids are mixed and distributed to an output container. The system can include a manifold that maintains separation of certain of the different fluids until after passing by a first pump and a second pump and/or additional pumps. A junction can be placed in the fluid line downstream of the first and second pumps and/or additional pumps such that all or some of the fluids are mixed prior to output to the output container. The method of using the system can include incorporating software that selects various fluids at certain times and sequences to ensure optimum efficiency and safety for the system, and can continue compounding actions even when an input supply container runs out or otherwise fails to supply a particular fluid/material. The method of use also includes connection of a transfer set to a housing in a manner that further ensures optimum efficiency and safety. 1. A compounding device for transferring materials from at least two distinct material sources to a final container , the device comprising:a housing, the housing including an upper surface;at least one rotatable micro valve actuation device adjacent the upper surface;at least one rotatable macro valve actuation device adjacent the upper surface;a micro pump located adjacent the upper surface of the housing; anda macro pump located adjacent the upper surface of the housing, wherein the rotatable micro valve actuation device operates to rotate in coordination with the micro pump to convey material from at least one of the material sources to the final container, and the rotatable macro valve actuation device operates to rotate in coordination with the macro pump to convey materials from at least another one of the material sources to the final container.2. The compounding device of claim 1 , further ...

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Номер записи: 82

31-05-2018 дата публикации

Droplet-based analysis method

Номер: US20180147573A1

Автор: Amy L. Hiddessen, Anthony J. Makarewicz, JR., Benjamin J. Hindson, Billy W. Colston, Jr., Donald A. Masquelier, Erin R. Chia, Kevin D. Ness, Michael Y. Lucero, Ryan T. Koehler, Serge Saxonov, Svilen S. Tzonev

Принадлежит: Bio Rad Laboratories Inc

Devices and methods for generating droplets. An exemplary device comprises a substantially planar base portion including a bottom surface having a plurality of microfluidic channels formed therein as recessed regions of the bottom surface. The device also comprises a plurality of protrusions projecting from a top surface of the base portion and each formed integrally with the base portion. The device further comprises a sample well, a carrier well, and a droplet well. Each well has an upper portion created by one of the protrusions. A cover layer is attached to the bottom surface of the base portion and seals a bottom side of each microfluidic channel.

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Номер записи: 83

07-05-2020 дата публикации

Microfluidic mixing

Номер: US20200140260A1

Автор: Antonio LIGA, Maiwenn KERSAUDY-KERHOAS

Принадлежит: Heriot Watt University

A microfluidic device (100) for mixing a liquid L is provided. The microfluidic device (100) comprises a microfluidic chamber (20), having an inlet (30), and arranged to receive the liquid L therein. In use, the microfluidic device (100) is arranged to control translation through the liquid L of a body B introduced therein, wherein the translation of the body B is due to a potential field acting on the body. In this way, the controlled translation of the body B mixes the liquid L in the microfluidic chamber (20).

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Номер записи: 84

01-06-2017 дата публикации

Microfluidic pump and valve structures and fabrication methods

Номер: US20170151560A1

Автор: Lincoln C. Young, Peng Zhou

Принадлежит: Rheonix Inc

Plastic microfluidic structures having a substantially rigid diaphragm that actuates between a relaxed state wherein the diaphragm sits against the surface of a substrate and an actuated state wherein the diaphragm is moved away from the substrate. As will be seen from the following description, the microfluidic structures formed with this diaphragm provide easy to manufacture and robust systems, as well readily made components such as valves and pumps.

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Номер записи: 85

28-08-2014 дата публикации

Laminated microfluidic structures and method for making

Номер: US20140238599A1

Автор: Lincoln C. Young, Peng Zhou

Принадлежит: Rheonix Inc

A method for making a polymeric microfluidic structure in which two or more components (layers) of the microfluidic structure are fixedly bonded or laminated with a weak solvent bonding agent, particularly acetonitrile or a mixture of acetonitrile and alcohol. In an aspect, acetonitrile can be used as a weak solvent bonding agent to enclose a microstructure fabricated in or on a non-elastomeric polymer such as polystyrene, polycarbonate, acrylic or other linear polymer to form a three-dimensional microfluidic network. The method involves the steps of wetting at least one of the opposing surfaces of the polymeric substrate components with the weak solvent bonding agent in a given, lower temperature range, adjacently contacting the opposing surfaces, and thermally activating the bonding agent at a higher temperature than the lower temperature range for a given period of time. The contacted polymeric substrates may also be aligned prior to thermal activation and compressed during thermal activation. A laminated, polymeric microfluidic structure is also disclosed.

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Номер записи: 86

07-06-2018 дата публикации

Microstructure flow mixing devices

Номер: US20180154319A1

Автор: Brian Edward Richardson

Принадлежит: Imagine TF LLC

Microstructure flow mixing devices are disclosed herein. An example device a first panel, a first plurality of raised features extending from a first surface of the first panel, a second plurality of raised features extending from the first surface of the first panel and a plurality of divider microstructures extending from the first surface of the first panel in line with and in between the first plurality of raised features and the second plurality of raised features. At least a portion of adjacent divider microstructures are spaced apart to form feed pathways or cross channels.

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Номер записи: 87

14-05-2020 дата публикации

Blood Sample Management Using Open Cell Foam

Номер: US20200146604A1

Автор: Bradley M. Wilkinson, C. Mark Newby, Kishore K. Bokka Srinivasa Rao, Milan Ivosevic

Принадлежит: Becton Dickinson and Co

A specimen transfer device adapted to receive a blood sample is disclosed. The specimen transfer device includes a housing and an actuation member. A deformable material is disposed within the housing and is deformable from an initial position in which the material is adapted to hold the sample to a deformed position in which at least a portion of the sample is released from the material. A viscoelastic member is disposed within the housing between the material and the housing and between the material and the actuation member. The viscoelastic member is engaged with the actuation member and the material such that movement of the actuation member from a first position to a second position deforms the material from the initial position to the deformed position.

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Номер записи: 88

22-09-2022 дата публикации

Continuous-Flow, Well Mixed, Microfluidic Crystallization Device for Screening Polymorphs, Morphologies and Crystallization Kinetics at Controlled Supersaturation

Номер: US20220297027A1

Автор: Coliaie Paria, Singh Meenesh R.

Принадлежит:

The disclosure relates to a microfluidic system for the screening of polymorphs, morphology, and crystallization kinetics under well-mixed, continuous-flow at controlled supersaturations. The disclosure also relates to a method for screening crystalline polymorphs and morphology, and crystallization kinetics. The microfluidic system includes a microfluidic chamber having one or more inlets, a passive mixing zone, and a trap zone. The passive mixing zone promotes mixing of solvent, solute, and optionally antisolvent under stable, controlled levels of supersaturation. The trap zone similarly has stable, controlled levels of supersaturation and correspondingly low velocity to retain solute crystals formed in the trap zone for time-dependent evaluation. 1. A microfluidic system comprising: (i) a first inlet zone in fluid communication with a first inlet adapted to receive a first fluid stream comprising a solute dissolved in a solvent,', '(ii) optionally a second inlet zone in fluid communication with a second inlet adapted to receive a second fluid stream,', '(iii) a passive mixing zone having (A) a first mixing zone boundary and (B) a second mixing zone boundary separate from the first mixing zone boundary, the passive mixing zone being in fluid communication with the first inlet zone via the first mixing zone boundary and, when present, the second inlet zone via the first mixing zone boundary,', '(iv) a trap zone having a trap zone boundary in fluid communication with the second mixing zone boundary, wherein the trap zone is positioned within the microfluidic chamber such that fluid flowing through the microfluidic chamber has a sufficiently low velocity to retain solute crystals formed in the trap zone within the trap zone,', '(v) an outlet zone in fluid communication (A) with the passive mixing zone via the first mixing zone boundary, and (B) an outlet adapted to discharge fluid from the microfluidic chamber, and', '(vi) optionally a first temperature control means ...

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Номер записи: 89

22-09-2022 дата публикации

Sample Tube And Device And Method For Dispersion And Homogenization

Номер: US20220299409A1

Автор: BRUELHART André, Bruelhart Maxime, MÜLLER Guido

Принадлежит:

A sample tube includes a cylindrical wall and a first end and a second end. The first end of the sample tube is closed by a base, such that a sample-receiving space with a longitudinal axis is formed between base and cylindrical wall. The second end has a closure piece connected releasably thereto. A weight element is received inside the receiving space and is shaped and dimensioned in such a way that the weight element can rotate freely in the receiving space only about the longitudinal axis of the latter. The application further relates to a method and a device with which a sample located in the sample tube can be dispersed or homogenized by rotational movement of the sample tube. 1. A sample tube , comprising:a cylindrical wall and a first end and a second end, the first end being closed by a base, such that a sample-receiving space with a longitudinal axis is formed between the base and a cylindrical wall, the second end having a closure piece connected releasably thereto, wherein a weight element is received inside the receiving space said weight element being shaped and dimensioned in such a way that the weight element can rotate freely in the receiving space only about the longitudinal axis of the latter.2. The sample tube according to claim 1 , wherein the closure piece has a first friction surface on a face which is directed toward the receiving space when the closure piece is connected to the second end.3. The sample tube according to claim 1 , wherein the weight element is in the form a cylinder that has a cross section smaller than the cross section of the receiving space.4. The sample tube according to claim 1 , wherein the weight element has a second friction surface on at least one face which is directed toward the first or second end.5. The sample tube according to claim 2 , wherein the first friction surface has structural elements claim 2 , in particular teeth claim 2 , pyramids or grooves.6. The sample tube according to one of claim 1 , wherein ...

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Номер записи: 90

30-05-2019 дата публикации

Composite particle manufacturing device and composite particle manufacturing method

Номер: US20190160439A1

Автор: Atsunori Matsuda, Atsushi Yokoi, Go Kawamura, Hiroyuki Muto, Naoto Kimura

Принадлежит: Toyohashi University of Technology NUC

[Solution] A device for manufacturing composite particles includes at least one first inlet flow path (2) for supplying a first fluid, at least one second inlet flow path (3) for supplying a second fluid, and a mixing flow path (5) for merging the first fluid and the second fluid supplied respectively from the first inlet flow path and the second inlet flow path and allowing the two kinds of fluids to flow down for a predetermined length while mixing the two kinds of fluids. The mixing flow path is a continuous flow path and has a heterogeneous cross-sectional flow path area in a continuity direction thereof.

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Номер записи: 91

25-06-2015 дата публикации

Droplet Actuator Configurations and Methods of Conducting Droplet Operations

Номер: US20150174578A1

Автор: Arjun Sudarsan, Michael G. Pollack, Philip Y. Paik, Vamsee K. Pamula, Vijay Srinivasan, Zishan Hua

Принадлежит: ADVANCED LIQUID LOGIC INC

A droplet actuator with a droplet formation electrode configuration associated with a droplet operations surface, wherein the electrode configuration comprises one or more electrodes configured to control volume of a droplet during formation of a sub-droplet on the droplet operations surface. Methods of making and using the droplet actuator are also provided.

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Номер записи: 92

23-06-2016 дата публикации

Stirring device and method using electrostatic charge

Номер: US20160175792A1

Автор: Dennis Willie, Susan Abraham

Принадлежит: FLEXTRONICS AP LLC

A stirring device and method for stirring a material using an applicator with an electrically controllable element placed on an outside surface of the applicator so that a controllable power source coupled to the electrically controllable element provides a controlled electrostatic charge to the element. The controlled electrostatic charge provided by the power source creates a variable electric field exterior to the outside surface of the applicator. The variable electric field induces a stirring movement to the material.

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Номер записи: 93

21-06-2018 дата публикации

Assays and other reactions involving droplets

Номер: US20180171373A1

Автор: Amy Rowat, David A. Weitz, Gautam Dantas, George Church, Jeremy Agresti, Jin-woong Kim, Liang-Yin Chu, Morten Sommer

Принадлежит: Harvard College

The present invention generally relates to droplets and/or emulsions, such as multiple emulsions. In some cases, the droplets and/or emulsions may be used in assays, and in certain embodiments, the droplet or emulsion may be hardened to form a gel. In some aspects, a heterogeneous assay can be performed using a gel. For example, a droplet may be hardened to form a gel, where the droplet contains a cell, DNA, or other suitable species. The gel may be exposed to a reactant, and the reactant may interact with the gel and/or with the cell, DNA, etc., in some fashion. For example, the reactant may diffuse through the gel, or the hardened particle may liquefy to form a liquid state, allowing the reactant to interact with the cell. As a specific example, DNA contained within a gel particle may be subjected to PCR (polymerase chain reaction) amplification, e.g., by using PCR primers able to bind to the gel as it forms. As the DNA is amplified using PCR, some of the DNA will be bound to the gel via the PCR primer. After the PCR reaction, unbound DNA may be removed from the gel, e.g., via diffusion or washing. Thus, a gel particle having bound DNA may be formed in one embodiment of the invention.

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Номер записи: 94

15-07-2021 дата публикации

Automatic sample introduction device, chromatograph, automatic sample introduction method and analysis method

Номер: US20210215732A1

Автор: Makoto Ogaito, Takashi Inoue

Принадлежит: Shimadzu Corp

An automatic sample introduction device includes a needle, a sample loop, a mixer and a suction injection switch mechanism. The mixer is provided between the needle and the sample loop. The suction injection switch mechanism sequentially sucks first and second fluids into the sample loop through the needle and the mixer and injects the first and second fluids held in the sample loop into a predetermined injection port. A chromatograph includes the automatic sample introduction device having the above-mentioned configuration, an analysis column and a detector. The analysis column is connected to the injection port of the automatic sample introduction device, and the detector is connected to the analysis column.

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Номер записи: 95

20-06-2019 дата публикации

Methods and apparatus for variable emulsification

Номер: US20190184351A1

Автор: Andreas Mershin, David Lai, Filippos Touriomousis, Neil Gershenfeld

Принадлежит: Massachusetts Institute of Technology

The invention comprises a novel modular, generalizable meso-micro-nano-fluidic platform apparatus, design and methodology which in exemplary embodiments may be applied in conjunction with a novel external triggering and automation/feedback loop control mechanism deployed via computer to explore the phase space of single or double emulsification for applications including the encapsulation of hydrophilic active pharmacological ingredients (APIs). End use applications include the mass production of particulate encapsulation of hydrophobic or hydrophilic APIs with automatic or user-supervised feedback methodology to control and discover mass production or per-drug customized settings of interest for the manufacture of novel or extant therapeutics. This invention allows for a process to produce monodispersed particles of varying sizes and may be used to rapidly screen for optimal size for maximal bioavailability of API particles either on lab bench for in vitro dissolution or in vivo studies, and patient-specific handhelds for maximal drug inhalation.

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Номер записи: 96

20-06-2019 дата публикации

Formation and control of fluidic species

Номер: US20190184398A1

Автор: Darren Roy Link, David A. Weitz, Manuel Marquez-Sanchez, Zhengdong Cheng

Принадлежит: Harvard College

This invention generally relates to systems and methods for the formation and/or control of fluidic species, and articles produced by such systems and methods. In some cases, the invention involves unique fluid channels, systems, controls, and/or restrictions, and combinations thereof. In certain embodiments, the invention allows fluidic streams (which can be continuous or discontinuous, i.e., droplets) to be formed and/or combined, at a variety of scales, including microfluidic scales. In one set of embodiments, a fluidic stream may be produced from a channel, where a cross-sectional dimension of the fluidic stream is smaller than that of the channel, for example, through the use of structural elements, other fluids, and/or applied external fields, etc. In some cases, a Taylor cone may be produced. In another set of embodiments, a fluidic stream may be manipulated in some fashion, for example, to create tubes (which may be hollow or solid), droplets, nested tubes or droplets, arrays of tubes or droplets, meshes of tubes, etc. In some cases, droplets produced using certain embodiments of the invention may be charged or substantially charged, which may allow their further manipulation, for instance, using applied external fields. Non-limiting examples of such manipulations include producing charged droplets, coalescing droplets (especially at the microscale), synchronizing droplet formation, aligning molecules within the droplet, etc. In some cases, the droplets and/or the fluidic streams may include colloids, cells, therapeutic agents, and the like.

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Номер записи: 97

14-07-2016 дата публикации

Manipulation of droplets on hydrophilic or variegated-hydrophilic surfaces

Номер: US20160199832A1

Автор: Alex Aravanis, Arash Jamshidi, Arnaud Rival, Bala Murali VENKATESAN, Cyril Delattre, Dietrich Dehlinger, Hamed AMINI, Jennifer Foley, M. Shane Bowen, Majid BABAZADEH, Maria Candelaria Rogert Bacigalupo, Poorya Sabounchi, Steven M. Barnard, Tarun Khurana, Yan-You Lin

Принадлежит: Advanced Liquid Logic France SAS

Provided herein is a droplet actuator including (a) first and second substrates separated by a droplet-operations gap, the first and second substrates including respective hydrophobic surfaces that face the droplet-operations gap; (b) a plurality of electrodes coupled to at least one of the first substrate and the second substrate, the electrodes arranged along the droplet-operations gap to control movement of a droplet along the hydrophobic surfaces within the droplet-operations gap; and (c) a hydrophilic or variegated-hydrophilic surface exposed to the droplet-operations gap, the hydrophilic or variegated-hydrophilic surface being positioned to contact the droplet when the droplet is at a select position within the droplet-operations gap.

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Номер записи: 98

30-07-2015 дата публикации

Composite liquid cells

Номер: US20150211052A1

Автор: Inga Rosca, Kieran Curran, Micheal Keane, Patrick Tuohy, Paul Fleming, Seamus Gilhooley

Принадлежит: GenCell Biosystems Ltd

A sample handling method may include drawing an encapsulating liquid from an encapsulating-liquid input; discharging the drawn encapsulating liquid (a) onto a free surface of a carrier liquid in a carrier-liquid conduit comprising a stabilisation feature and (b) proximate to the stabilisation feature, the encapsulating liquid being immiscible with the carrier liquid, so that the discharged encapsulating liquid does not mix with the carrier liquid, floats on top of the carrier liquid, and is immobilised by the stabilisation feature; drawing a sample liquid from a sample-liquid input; and discharging the drawn sample liquid, the sample liquid being immiscible with the encapsulating liquid and with the carrier liquid, so that the sample liquid does not mix with the encapsulating liquid or with the carrier liquid.

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Номер записи: 99

02-10-2014 дата публикации

Method and apparatus for contactless mixing of liquids

Номер: US20140293731A1

Автор: Philipp Baaske, Stefan Duhr

Принадлежит: NanoTemper Technologies GmbH

The invention generally relates to an apparatus and a method for mixing of liquids ( 50 ) or of particles with a liquid ( 50 ). In a volume of liquid ( 50 ), a thermal convection flow is generated at at least one surface of the volume of liquid by irradiating IR radiation ( 30 ) into the volume of liquid. Thereby it is possible to avoid a depletion zone at the surface and to more accurately measure interactions of the particles with the surface by means of surface-based measurement methods.

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Номер записи: 100