Patents Examined by Nathan A. Bowers
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Patent number: 11427796Abstract: The invention relates to a bioreactor comprising a tank (100) capable of being operated for a working period, said tank (100) being intended to receive a culture medium comprising a cellular culture of photosynthetic microorganisms, a light source (200) arranged to emit incident light having a chosen incoming light intensity (Iin) in the direction of the tank, a temperature probe (400) for measuring the temperature of said culture medium in the tank, and a temperature regulator (500) capable of raising and lowering the temperature of said culture medium in the tank, and further comprising a control (700) of the temperature regulator arranged to adjust the temperature of the culture medium to a low setpoint value (VCB) during a first period, and to adjust the temperature of the culture medium to a high setpoint value (VCH) during a second period, the succession of said first and second periods making it possible to induce a cellular stress in at least some of said photosynthetic microorganisms during the workiType: GrantFiled: September 19, 2017Date of Patent: August 30, 2022Assignee: Inria Institut National De Recherche En Informatique Et En AutomatiqueInventors: Olivier Bernard, Hubert Bonnefond, Antoine Sciandra, Éric Pruvost, Ghjuvan Grimaud
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Patent number: 11421194Abstract: The described invention provides an ex vivo dynamic multiple myeloma cancer niche contained in a pumpless perfusion culture device. The dynamic multiple myeloma cancer niche includes (a) a three-dimensional tissue construct containing a dynamic ex vivo bone marrow niche, which contains a mineralized bone-like tissue containing viable osteoblasts self-organized into cohesive multiple cell layers and an extracellular matrix secreted by the viable adherent osteoblasts; and a microenvironment dynamically perfused by nutrients and dissolved gas molecules; and (b) human myeloma cells seeded from a biospecimen composition comprising mononuclear cells and the multiple myeloma cells. The human myeloma cells are in contact with osteoblasts of the bone marrow niche, and the viability of the human myeloma cells is maintained by the multiple myeloma cancer niche.Type: GrantFiled: December 4, 2019Date of Patent: August 23, 2022Assignees: THE TRUSTEES OF THE STEVENS INSTITUTE OF TECHNOLOGY, HACKENSACK MERIDIAN HEALTH CENTER FOR DISCOVERY AND INNOVATIONInventors: Woo Lee, Zhehuan Chen, Jenny Zilberberg
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Patent number: 11401494Abstract: A variety of fill options is provided for a cell processing system. Certain options relate to a syringe assembly that receives a product directly from a separator. Other options relate to a filling system associated with the cell processing system, the filling system comprising one or more filling stations, each with at least one container, that receive product from a product container associated with the cell processing system.Type: GrantFiled: September 13, 2017Date of Patent: August 2, 2022Assignee: FENWAL, INC.Inventor: Steven C. Binninger
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Patent number: 11401495Abstract: The present disclosure provides a power device of a micro channel for external circulation of a bioreactor. The power device of the micro channel may be disposed outside the bioreactor and in fluid connection with the bioreactor, the power device of the micro channel may be of a shape of a box body. The power device of the micro channel may comprise: a stacked layer disposed in the box body, including a first shell plate, a second shell plate, and a sealing film sandwiched between the first shell plate and the second shell plate; and a liquid buffer device including a first liquid cavity and a second liquid cavity disposed in the box body, the first liquid cavity and the second liquid cavity may be fixed to an outer end surface of the stacked layer. The power device of the micro channel may be of a box shape, thereby reducing the volume and production cost thereof.Type: GrantFiled: September 18, 2021Date of Patent: August 2, 2022Assignee: ALIT BIOTECH (SHANGHAI) CO., LTD.Inventors: Yu Liu, Rui Chen
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Patent number: 11390840Abstract: Described herein are systems and methods of flow-through electroporation can comprise a chamber with a first and a second portion, wherein the first portion is configured to receive cells and the second portion is in fluid communication with the first portion and is configured to receive cells from the first portion; an electrode can be present in the first portion, second portion, or both; a porous membrane can separate the first and second portions, the porous membrane can have one or more pores, and the pores can have one or more interior surfaces configured to allow cells from the first portion to pass through to the second portion; an electric generating device in electrical communication with one or more electrodes, the membrane, or the one or more electrodes and the membrane, wherein the electric generating device is configured to deliver constant voltage or one or more electric pulses to the system.Type: GrantFiled: September 29, 2017Date of Patent: July 19, 2022Assignee: University of Florida Research Foundation, Inc.Inventors: Charles R. Martin, Juliette Experton, Aaron G. Wilson
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Patent number: 11383240Abstract: The present invention relates to, inter alia, a microfluidic device for performing single cell genomic DNA isolation and amplification under flow. The microfluidic device comprises a solid substrate having one or more microfluidic channel system formed therein. Each microfluidic channel system of the microfluidic device comprises: (a) an intake region comprising a single microchannel; (b) a plurality of cell segregation microchannels; (c) a cell capture site located downstream of each cell segregation microchannel; and (d) a DNA capture array positioned downstream of the cell capture site and comprising a plurality of micropillars. Also disclosed is a whole genome amplification system that includes the microfluidic device of the present disclosure, as well as a method for conducting single cell DNA analysis via on-chip whole genome amplification while under flow, and a method for multiple displacement amplification (MDA) reactions of one or more nucleic acid sequence isolated single cells.Type: GrantFiled: May 22, 2017Date of Patent: July 12, 2022Assignee: CORNELL UNIVERSITYInventors: Harold G. Craighead, Harvey C. Tian
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Patent number: 11384325Abstract: A bioreactor vessel is provided. The bioreactor vessel comprises a bioreactor bag wall having an interior side and an exterior side and an aperture extending from the interior side to the exterior side, wherein the interior side is configured to contact and house a reaction mixture. The bioreactor vessel also comprises a port mounted proximate the aperture, the port including a flange fixedly attached to the bioreactor bag, such that a fluidic seal is maintained along a circumference of the flange. The bioreactor vessel also comprises a plurality of sensors disposed within the port.Type: GrantFiled: March 30, 2016Date of Patent: July 12, 2022Assignee: Rosemount Inc.Inventors: Mark S. Schumacher, Chang-Dong Feng
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Patent number: 11384329Abstract: A system for growing algae includes a gas concentrator configured to receive a first gas containing CO2 at a first concentration and discharge a second gas containing CO2 at a second concentration higher than the first concentration, and a photobioreactor containing algae in an algae slurry and fluidically coupled to the gas concentrator to receive the second gas. A recycling line extends from a gas outlet on the photobioreactor to remove a third gas from the photobioreactor for future use in the photobioreactor.Type: GrantFiled: June 3, 2020Date of Patent: July 12, 2022Assignee: ExxonMobil Technology and Engineering CompanyInventor: Narasimhan Sundaram
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Patent number: 11377679Abstract: Provided is a multi-well-based cell culture test device having an array structure of a plurality of aligned well units. Each of the well units includes a first sub-well adapted to accommodate a first fluid, a second sub-well adapted to accommodate a second fluid, and a barrier located between the first sub-well and the second sub-well to partition the first sub-well and the second sub-well. The first sub-well has a recess in the depth direction with respect to its bottom to accommodate a solid thin film formed by solidifying the first fluid. The barrier has such a height that the first fluid does not overflow into the second sub-well when the first fluid is loaded into the first sub-well to fill the recess.Type: GrantFiled: April 17, 2017Date of Patent: July 5, 2022Assignee: QUANTAMATRIX INC.Inventors: Sung Hoon Kwon, Hyun Yong Jeong, Tae Geun Lim, Jung Il Choi, Eun Guen Kim
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Patent number: 11377635Abstract: This invention relates to methods and devices that improve cell culture efficiency. They include the use of gas permeable culture compartments that reduce the use of space while maintaining uniform culture conditions, and are more suitable for automated liquid handling. They include the integration of gas permeable materials into the traditional multiple shelf format to resolve the problem of non-uniform culture conditions. They include culture devices that use surfaces comprised of gas permeable, plasma charged silicone and can integrate traditional attachment surfaces, such as those comprised of traditional tissue culture treated polystyrene. They include culture devices that integrate gas permeable, liquid permeable membranes. A variety of benefits accrue, including more optimal culture conditions during scale up and more efficient use of inventory space, incubator space, and disposal space. Furthermore, labor and contamination risk are reduced.Type: GrantFiled: July 7, 2017Date of Patent: July 5, 2022Assignee: Wilson Wolf Manufacturing CorporationInventor: John R. Wilson
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Patent number: 11371072Abstract: An automated system for identifying in a biological sample microorganisms and their antimicrobial susceptibility (AST). The system provided an automated platform for preparing, from a single biological sample, inoculates for both ID and AST. The system loads a plate for ID testing as samples are being prepared for AST testing. The system tracks the sample and the inoculates from the samples to link the test results to the sample and the patients from whom the sample was obtained.Type: GrantFiled: April 5, 2019Date of Patent: June 28, 2022Assignee: BECTON DICKINSON AND COMPANYInventors: Robert Edward Armstrong, John Thulin Page, Ben Turng, Glen Richard Davis, Strett Roger Nicolson, Timothy Hansen
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Patent number: 11365384Abstract: To avoid cleaning costs and to reduce the risk of cross-contamination, a water bath for use in incubators includes a profiled receiver, open at least at the upper face, preferably at the end faces and the upper face, with receiver surfaces extending in the longitudinal direction. A prefabricated disposable vessel for liquid open at the upper face includes vessel walls that lie flush on the receiver surfaces of the receiver. Fastenings are used fix the disposable vessel on the receiver. The water bath also includes a liquid supply, designed for filling the disposable vessel with liquid.Type: GrantFiled: August 11, 2020Date of Patent: June 21, 2022Assignee: ADOLF KÜHNER AGInventors: Timothy Bürgin, Mathias Schumacher, Simon Knobel
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Patent number: 11365395Abstract: The present invention is directed to a device for the growth of new bone or bone-like tissue under in vitro cell culture conditions.Type: GrantFiled: August 9, 2018Date of Patent: June 21, 2022Assignee: LifeNet HealthInventors: Lloyd Wolfinbarger, Jr., Xiaofei Qin
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Patent number: 11365381Abstract: Systems, methods and kits are described for culturing one or more biological cells in a microfluidic device, including provision of nutrients and gaseous components configured to enhance cell growth, viability, portability, or any combination thereof. In some embodiments, culturing a single cell may produce a clonal population in the microfluidic device.Type: GrantFiled: July 2, 2020Date of Patent: June 21, 2022Assignee: Berkeley Lights, Inc.Inventors: Randall D. Lowe, Jr., Kristin G. Beaumont, Aathavan Karunakaran, Natalie C. Marks, Jason M. McEwen, Mark P. White, J. Tanner Nevill, Gang F. Wang, Andrew W. McFarland, Daniele Malleo, Keith J. Breinlinger, Xiao Guan, Kevin T. Chapman
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Patent number: 11365454Abstract: The present disclosure includes systems and methods for hydrolyzing (e.g., pretreatment and/or enzymatic hydrolysis) lignocellulosic biomass into one or more sugars such as pentose and glucose sugars. The present disclosure includes configurations that incorporate flashing and/or liquid cooling so as to permit desirable throughput. The present disclosure also includes a liquefaction configuration so as to permit desirable (e.g., continuous high volume) throughput.Type: GrantFiled: September 26, 2018Date of Patent: June 21, 2022Assignee: POET Research, Inc.Inventors: David Charles Carlson, Rodney Duane Pierson, James Michael Geraets
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Patent number: 11366103Abstract: The present invention is drawn to the generation of micropatterns of biomolecules and cells on standard laboratory materials through selective ablation of a physisorbed biomolecule with oxygen plasma. In certain embodiments, oxygen plasma is able to ablate selectively physisorbed layers of biomolecules (e.g., type-I collagen, fibronectin, laminin, and Matrigel) along complex non-linear paths which are difficult or impossible to pattern using alternative methods. In addition, certain embodiments of the present invention relate to the micropatterning of multiple cell types on curved surfaces, multiwell plates, and flat bottom flasks. The invention also features kits for use with the subject methods.Type: GrantFiled: January 13, 2020Date of Patent: June 21, 2022Assignee: Massachusetts Institute of TechnologyInventors: David T. Eddington, Sangeeta N. Bhatia
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Patent number: 11365383Abstract: The present disclosure provides automated modules and instruments for improved detection of nuclease genome editing of live cells. The disclosure provides improved modules—including high throughput modules—for screening cells that have been subjected to editing and identifying and selecting cells that have been properly edited.Type: GrantFiled: February 21, 2022Date of Patent: June 21, 2022Assignee: Inscripta, Inc.Inventors: Eileen Spindler, Amy Hiddessen, Andrew Garst, Michael Graige, Richard Fox, Phillip Belgrader, Don Masquelier, Bruce Chabansky
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Patent number: 11358142Abstract: A disposable cartridge may have a fluid analysis chip for receiving a fluid to be analyzed. The fluid analysis chip may be attached to a fluid preparation unit of the disposable cartridge and may include a base layer. The fluid analysis chip may also include a spacer layer disposed over the base layer, the spacer layer including a microchannel formed therein, the microchannel being configured to guide a flow of the fluid to be analyzed within the fluid analysis chip. The fluid analysis chip may also include a cap layer disposed over the spacer layer, the cap layer including an inlet and an outlet for establishing fluid communication with the microchannel included in the spacer layer, and an interface layer disposed over the cap layer, the interface layer being configured to attach the fluid analysis chip to the fluid preparation unit of the disposable cartridge.Type: GrantFiled: April 1, 2020Date of Patent: June 14, 2022Assignee: Pixcell Medical Technologies Ltd.Inventors: Avishay Bransky, Liron Shlomo, Nir Rotem
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Patent number: 11352615Abstract: The invention relates to a device (1) for applying an electric field to a suspension of cells, cell derivatives, organelles, sub-cellular particles and/or vesicles, comprising at least one chamber (6) which comprises at least two electrodes (4), and at least one separating element (13) which is movable within the chamber (6) between two terminal points (14, 15) and, if it is in a position between the terminal points (14, 15), separates at least one first compartment (26) of the chamber (6) from at least one second compartment (27) of the chamber (6).Type: GrantFiled: November 9, 2018Date of Patent: June 7, 2022Assignee: Lonza Cologne GmbHInventors: Ludger Altrogge, Timo Gleissner, Andreas Heinze, Sven Hermsmeier
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Patent number: 11345882Abstract: An extra-capillary fluid cycling unit for maintaining and cycling fluid volumes in a cell culture chamber includes a housing and a first flexible reservoir extra-capillary fluid reservoir disposed in the housing. The extra-capillary fluid reservoir is in fluid communication with a cell culture chamber. A second flexible reservoir is also located in the housing, the second flexible reservoir being in fluid communication with a pressure source. A sensor plate is movably disposed in the housing between the extra-capillary reservoir and the second reservoir, wherein the second reservoir is pressurized to move the sensor plate in relation to the extra-capillary reservoir to cause fluid cycling and maintain fluid volumes in the cell growth chamber.Type: GrantFiled: August 24, 2016Date of Patent: May 31, 2022Assignee: BIOVEST INTERNATIONAL, INC.Inventors: Darrell Paul Page, Robert J. Wojciechowski, Martin Peder Crep