Acrylate Patents (Class 210/500.35)
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Patent number: 8136676Abstract: One object of the present invention is to provide polymers suitable for use as medical materials. The present invention provides a polymer useful as a medical material having the general formula -(A)1-(B)m—(C)n—??(I) in which A is derived from an alkoxyalkyl (alkyl)acrylate monomer; B is derived from a monomer containing a primary, secondary, tertiary or quaternary amine group; C is derived from a non-ionic monomer; and 1+m+n=100,0<1, m, n<100.Type: GrantFiled: August 11, 2005Date of Patent: March 20, 2012Assignee: University of SouthamptonInventors: Hitoshi Mizomoto, Mark Bradley
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Patent number: 8132676Abstract: Hydrophilic membrane particularly suited for blotting applications, preferably Western blotting. A pre-wet hydrophobic membrane substrate, preferably made of PVDF, is contacted with a monomer solution and subjected to a UV-initiated free radical polymerization step to render the substrate permanently hydrophilic. The resulting membrane exhibits low background fluorescence, high protein binding, excellent retention of protein sample spot morphology, and extended dynamic range (high signal-to-noise ratio, enhanced sample detectability). The membrane demonstrates comparable or higher performance in Western blotting applications than conventional nitrocellulose Western blotting membranes, particularly for protein detection at low sample concentrations, and is directly water-wettable, eliminating the need for an alcohol pre-wet step prior to use.Type: GrantFiled: August 6, 2009Date of Patent: March 13, 2012Assignee: EMD Millipore CorporationInventors: Antoni Peters, Philip Goddard, John Charkoudian, Neil Soice, Dave Brewster, Anja Dedeo
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Patent number: 8123048Abstract: A method for forming a hydrophilic porous membrane includes applying a crosslinked coating to a hydrophobic porous membrane via an in-situ polymerization process. Polar functional groups are introduced into the coating, thereby forming the hydrophilic porous membrane.Type: GrantFiled: January 27, 2006Date of Patent: February 28, 2012Assignee: GM Global Technology Operations LLCInventor: Tao Xie
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Patent number: 8075904Abstract: Millimeter to nano-scale structures manufactured using a multi-component polymer fiber matrix are disclosed. The use of dissimilar polymers allows the selective dissolution of the polymers at various stages of the manufacturing process. In one application, biocompatible matrixes may be formed with long pore length and small pore size. The manufacturing process begins with a first polymer fiber arranged in a matrix formed by a second polymer fiber. End caps may be attached to provide structural support and the polymer fiber matrix selectively dissolved away leaving only the long polymer fibers. These may be exposed to another product, such as a biocompatible gel to form a biocompatible matrix. The polymer fibers may then be selectively dissolved leaving only a biocompatible gel scaffold with the pores formed by the dissolved polymer fibers. The scaffolds may be used in, among other applications, the repair of central and peripheral nerves.Type: GrantFiled: September 2, 2008Date of Patent: December 13, 2011Assignees: California Institute of Technology, The Regents of University of California, Board of Trustees of Michigan State UniversityInventors: Jeff S. Sakamoto, Mark Henry Tuszynski, Thomas Gros, Christina Chan, Sumit Mehrotra
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Patent number: 8070964Abstract: The present invention is characterized in that a base material comprises ester groups in the main chain and/or in the side chain(s), and comprises a polymer having hydrophobic groups. Particularly, the hydrophobic groups can be introduced by irradiating the base material with a radiation during the base material contacts an aqueous solution of a monohydric alcohol or an aqueous solution of an alcohol having not less than 2 hydroxyl groups, which is a monomer or a polymer, and which has one or more carbon atoms between the carbon atoms to each of which the hydroxyl group is bound in the monomer or in each monomer constituting the polymer.Type: GrantFiled: March 28, 2006Date of Patent: December 6, 2011Assignee: TORAY Industries, Inc.Inventors: Miho Araki, Yoshiyuki Ueno, Hiroyuki Sugaya
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Patent number: 8051992Abstract: A water transfer device can include first and second flow paths separated by a water transfer membrane and a hydrophilic diffusion medium. The hydrophilic diffusion medium is disposed between the water transfer membrane and the first flow path. Water content of a first fluid stream flowing through the first flow path is transferred through the diffusion medium and water transfer membrane and into a second fluid stream flowing through the second flow path. The hydrophilic diffusion medium is operable to absorb liquid water in the first fluid stream and hold the absorbed liquid water in contact with the water transfer membrane. The hydrophilic diffusion medium is also operable to diffuse water vapor in the first fluid stream and transport the water vapor to the water transfer membrane. The water transfer membrane transfers the water in contact therewith to the second fluid stream flowing through second flow path.Type: GrantFiled: January 25, 2008Date of Patent: November 8, 2011Assignee: GM Global Technology Operations LLCInventors: Glenn W Skala, Yan Zhang, Annette M Brenner
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Patent number: 8038638Abstract: An extracorporeal circuit for removing toxins from the blood and plasma volume control in patients suffering from sepsis and renal failure. The extracorporeal circuit disclosed herein comprises a plasma filter, a toxin removal device and optionally a hemofilter that minimizes electrolyte and protein depletion from the treated plasma while effectively removing both free and protein-bound toxins. The toxin removal device comprises adsorbent materials selected from the group consisting of activated carbon, ion exchange resins and non-ionic exchange resins and the adsorbent materials are coated with albumin. Also provided are associated methods for treating patients suffering from sepsis and renal failure using the disclosed extracorporeal circuit and toxin removal device.Type: GrantFiled: April 2, 2007Date of Patent: October 18, 2011Assignee: Hemolife Medical, Inc.Inventors: Craig P. Roberts, Ken Litzie
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Publication number: 20110226689Abstract: A separation membrane including a separation-functional layer is provided, wherein the separation-functional layer contains a polyvinylidene fluoride-type resin having a melt viscosity of 3,300 Pa·s or more, and also the separation-functional layer has a three-dimensional network structure. A separation membrane is provided having high virus removal performance, high pure water permeability, and high physical durability and high chemical strength, which can also be used in the field of water treatment.Type: ApplicationFiled: September 18, 2009Publication date: September 22, 2011Applicant: TORAY INDUSTRIES, INC.Inventors: Kenji Komori, Toshiyuki Ishizaki, Kenta Iwai, Xunyao Fu, Shinichi Minegishi, Nao Minaki
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Patent number: 8011517Abstract: A composite membrane includes a filtration membrane with a surface; and a layer on the surface of the filtration membrane. The layer includes a polymer including a poly(ethylene glycol) moiety cross-linked with an ammonium salt or a precursor of an ammonium salt.Type: GrantFiled: November 24, 2009Date of Patent: September 6, 2011Assignee: International Business Machines CorporationInventors: Robert David Allen, James Lupton Hedrick, Young-Hye Na, Alshakim Nelson, Ratnam Sooriyakumaran
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Publication number: 20110210064Abstract: The invention discloses a filtration material for desalination, including a support layer, and a desalination layer formed on the support layer, wherein the desalination layer is a fiber composite membrane and includes at least one water-swellable polymer. The water-swellable polymer is made of hydrophilic monomers and hydrophobic monomers, and the hydrophilic monomers include ionic monomers and non-ionic monomers, and the ionic monomers include cationic monomers and anionic monomers.Type: ApplicationFiled: December 21, 2010Publication date: September 1, 2011Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTEInventors: Shu-Hui Cheng, Jong-Pyng Chen, En Kuang Wang, Yi-Chun Lo, Shan-Shan Lin
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Patent number: 8002119Abstract: A method for controlling the thickening of aqueous systems comprising silicates, which comprises adding to the aqueous system at least one copolymer of a mean molecular weight Mw of at least 3000 g/mol to at most 60 000 g/mol and the copolymer being made up essentially randomly from monoethylenically unsaturated monocarboxylic acids, monoethylenically unsaturated dicarboxylic acids and other ethylenically unsaturated comonomers, the polymerization for producing the copolymer being performed in the presence of from 0.01 to 100 mol % of at least one base, based on the total amount of all COOH groups of the monocarboxylic and dicarboxylic acids, the quantitative figures in % by weight being respectively based on the total amount of all monomers used.Type: GrantFiled: January 30, 2007Date of Patent: August 23, 2011Assignee: BASF SEInventors: Karl-Heinz Buechner, Stephan Nied, Alexander Goethlich, Frank Klippel, Gunnar Schornick
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Publication number: 20110198288Abstract: The present application is generally directed towards polyacrylonitrile— (PAN—) based, amphophilic graft copolymers, for example, for the production of membranes for liquid filtration. In one aspect, the present invention provides systems and methods for preparing high flux, fouling resistant nanofiltration membranes whose pore size can be readily tuned. In some cases, microphase separation of a graft copolymer comprising a backbone comprising polyacrylonitrile (PAN) and hydrophilic side-chains is used. In some cases, nanochannels of tunable width are formed, which may give the membrane permselective properties and/or anti-fouling character. In some cases, a copoylmer may be used as an additive in the immersion precipitation casting of ultrafiltration or microfiltration membranes. In certain instances, the additive can segregate to the membrane exterior and/or pore surfaces, e.g.Type: ApplicationFiled: April 10, 2007Publication date: August 18, 2011Applicant: Massachusetts Institute of TechnologyInventors: Anne M. Mayes, Ayse Asatekin Alexiou
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Publication number: 20110174720Abstract: Described is the application of layer-by-layer (LbL) electrostatic assembly techniques to electrospun nanofibers in order to fabricate novel, breathable electrospun fiber-based chemical and biological detoxifying protective fabrics and filters. The combination of layer-by-layer electrostatic assembly and electrospinning technique allows one to take advantage of high specific surface area, light weight and breathability of electrospun fiber mats while simultaneously providing the versatility to incorporate different functional polyelectrolytes to achieve multifunctional coatings for both chemical and biological protection together. The functionalized fiber mats can be incorporated into breathable chemical and biological protective fabrics, filters and masks. In addition, LbL electrostatic coating of porous non-woven materials provides the versatility to generate multifunctional polymer-based membrane materials for other applications.Type: ApplicationFiled: July 21, 2010Publication date: July 21, 2011Applicant: Massachusetts Institute of TechnologyInventors: Liang Chen, Lev E. Bromberg, T. Alan Hatton, Gregory C. Rutledge
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Publication number: 20110120941Abstract: A composite membrane includes a filtration membrane with a surface; and a layer on the surface of the filtration membrane.Type: ApplicationFiled: November 24, 2009Publication date: May 26, 2011Applicant: International Business Machines CorporationInventors: Robert David Allen, James Lupton Hedrick, Young-Hye Na, Alshakim Nelson, Ratnam Sooriyakumaran
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Publication number: 20110120940Abstract: A composite membrane includes a filtration membrane and a layer on a surface of the filtration membrane. The layer includes a polymer including a polyhedral oligomeric silsesquioxane (POSS) derivative with a hydrophilic moiety attached to at least one vertex thereof. A method for making a composite membrane includes applying to a surface of a filtration membrane a photopolymerizable composition including a POSS compound, a hydrophilic comonomer, and a photoinitiator. The composition is cured to form a hydrophilic layer on the filtration membrane.Type: ApplicationFiled: November 24, 2009Publication date: May 26, 2011Inventors: Robert David Allen, Young-Hye Na, Ratnam Sooriyakumaran
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Publication number: 20110017654Abstract: A separation membrane includes a membrane comprising a polymer, characterized in that a functional layer is formed on the surface in one side of the membrane, the peak area percentage of carbon derived from ester group measured by the electron spectroscopy for chemical analysis (ESCA) on the surface of the preceding functional layer is 0.1% (by atomic number) or more but not more than 10 (% by atomic number), and the peak area percentage of carbon derived from ester group measured by the electron spectroscopy for chemical analysis (ESCA) on the surface opposite to the functional layer is not more than 10 (% by atomic number). A separation membrane module suffering from little sticking of organic matters, proteins, platelets and so on is provided with the separation membrane as a built-in membrane.Type: ApplicationFiled: March 30, 2009Publication date: January 27, 2011Applicant: TORAY INDUSTRIES, INC.Inventors: Yoshiyuki Ueno, Masaki Fujita, Hiroyuki Sugaya
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Patent number: 7868087Abstract: The present invention relates to synthetic methods for grafting hydrophilic chains onto polymers, particularly hydrophobic polymers such as poly(vinyl chloride) (PVC), poly(vinylidene fluoride) (PVDF), and chlorinated polypropylene (cPP). Resulting polymers include comb polymers which can have a microphase-separated structure of hydrophilic domains provided by the hydrophilic chains. Articles prepared from these comb polymers, particularly derived from PVDF, include membranes for water filtration in which the hydrophilic domains provide a pathway for water transport. PVC can be plasticized by grafting the PVC with hydrophilic chains. In addition, such articles, particularly articles having biomedical applications, can display anti-thrombogenic properties.Type: GrantFiled: September 29, 2006Date of Patent: January 11, 2011Assignee: Massachusetts Institute of TechnologyInventors: Anne M. Mayes, Jonathan F. Hester, Pallab Banerjee, Ariya Akthakul
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Patent number: 7815987Abstract: A polyamide membrane and method for making and using the same, including use within a spiral wound module. While many different embodiments are described, one embodiment includes a polyamide membrane including a coating comprising a combination of a polyalkylene oxide compound and a polyacrylamide compound.Type: GrantFiled: December 4, 2008Date of Patent: October 19, 2010Assignee: Dow Global Technologies Inc.Inventors: William E. Mickols, Chunming Zhang
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Patent number: 7793787Abstract: One object of the present invention is to provide polymers suitable for use as medical materials. The present invention provides a polymer useful as a medical material having the general formula -(A)l-(B)m-(C)n-??(I) in which A is derived from a non-ionic monomer; B is derived from a monomer containing a primary, secondary, tertiary or quaternary amine group; C is derived from a monomer containing an acid group; and l+m+n=100, 0<l, m, n<100.Type: GrantFiled: August 11, 2005Date of Patent: September 14, 2010Assignee: University of SouthamptonInventors: Hitoshi Mizomoto, Mark Bradley
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Publication number: 20100206806Abstract: Hydrophilic porous substrates, methods of making hydrophilic porous substrates from hydrophobic polymers are disclosed.Type: ApplicationFiled: October 8, 2008Publication date: August 19, 2010Inventors: Clinton P. Waller, JR., Douglas E. Weiss
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Patent number: 7721898Abstract: It is intended to provide a polymer for coating a leukocyte removal filter material which is excellent in the capability of removing leukocytes. It is further intended to provide a filter whereby both of leukocytes and platelets can be highly efficiently removed from a blood product containing leukocytes and platelets. The above objects can be achieved by using a polymer for coating a leukocyte removal filter material which comprises a unit originating in a hydrophobic polymerizable monomer, a unit originating in a polymerizable monomer containing a basic nitrogen-containing part, and a unit originating in a polymerizable monomer containing a protonic neutral hydrophilic part.Type: GrantFiled: July 24, 2002Date of Patent: May 25, 2010Assignee: Asahi Kasei Medical Co., Ltd.Inventors: Yasuhiko Yagi, Hirofumi Miura
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Patent number: 7695973Abstract: The present invention provides methods for quantitation of glycated protein in a biological sample using a solid support matrix by making a first bound protein measurement total bound protein under conditions where both glycated and non-glycated protein bind to the support in making a second bound protein measurement under conditions where glycated protein is bound to the support and non-glycated protein is not substantially bound. Diagnostic devices and kits comprising the methods of the present invention are also provided.Type: GrantFiled: February 7, 2007Date of Patent: April 13, 2010Assignee: Scripps Laboratories, Inc.Inventors: Ralph P. McCroskey, Cameron E. Melton
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Patent number: 7694827Abstract: A filter comprising a polymer material comprising a polymer matrix such as polyacrylonitrile containing dispersed metal oxide particles. The metal oxide particles are for example ferric oxide particles, and the polymer material contains generally 0.25-3% by weight of these particles. The filters are resistant to thermo-oxidation and have reduced shrinkage or degradation.Type: GrantFiled: June 11, 2003Date of Patent: April 13, 2010Assignees: Commonwealth Scientific & Industrial Research Organisation, Kelheim Fibres GmbHInventors: Bernd Huber, Robert Helstroom
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Patent number: 7677398Abstract: The invention provides a process for improving the antifouling properties and for increasing the selectivity of commercial composite polyamide nanofiltration (NF) and reverse osmosis (RO) membranes comprising circulating a low concentration of water soluble monomers and an initiating redox couple in an aqueous solvent, without transverse pressure over the surface of the membrane thereby effecting a free-radical graft polymerization on the surface of the membrane.Type: GrantFiled: September 4, 2005Date of Patent: March 16, 2010Assignee: Ben Gurion University of the Negev Research and Development AuthorityInventors: Sophia Belfer, Rosalia Fainstein, Luba Kesselman, Charles Linder
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Patent number: 7648034Abstract: The present invention provides porous media or membranes having a surface coating that includes a cross-linked terpolymer which has a superior combination of properties, including heat stable biomolecule resistant adsorptive properties, resistance to strong alkaline solutions, and low levels of extractable matter. In some preferred embodiments, the porous media is a porous membrane.Type: GrantFiled: April 26, 2002Date of Patent: January 19, 2010Assignee: Millipore CorporationInventors: John Charkoudian, Neil P. Soice
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Patent number: 7638053Abstract: The separation of hydrocarbon mixtures comprising a polymerizable vinyl containing polyester of the formula I: Each R and R2 is independently a C6-C20 aromatic residue or a C1-C20 aliphatic residue. Each R1 is independently hydrogen or C1-C5 alkyl; “j” is an integer in the range of 1-1000. Z is a heteroatom or two hydrogen atoms. The invention is also directed to the method of preparing the separation membrane.Type: GrantFiled: June 22, 2005Date of Patent: December 29, 2009Assignee: General Electric CompanyInventors: Gary William Yeager, Sharon Oba, Christopher J. Ellison
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Patent number: 7631768Abstract: Provided is a fluorine substituted oligomeric or polymeric ester including the reaction product of a fluorine substituted acrylate or a fluorine substituted methacrylate; an unsaturated anhydride; and an alkyl acrylate or an alkyl methacrylate. Also provided is a method of making the composition.Type: GrantFiled: November 4, 2005Date of Patent: December 15, 2009Assignee: General Electric CompanyInventors: Hieu Minh Duong, Daniel Steiger
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Patent number: 7628917Abstract: The invention provides composite porous membranes comprising a porous hydrophobic substrate coated with difunctional surface-modifying molecules. The difunctional surface-modifying molecules provide a hydrophilic surface without forming branches of interconnected polymer molecules in the pores. The invention also provides a method for making composite porous membranes, such as a composite hydrophilic membrane with reduced concentration of surface modifying molecules required to coat a hydrophobic substrate.Type: GrantFiled: August 22, 2003Date of Patent: December 8, 2009Assignee: Whatman, Inc.Inventors: Oksana Penezina, Manuel M. Pacheco, Dean T. Tsou
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Patent number: 7601263Abstract: The invention relates to a composite with a separation-active membrane layer and a supporting membrane, a process for the production of the same and a process for using the same. The composite membrane according to the invention is distinguished by the fact that the separation-active membrane layer comprises a polymer hardened by electromagnetic radiation with wave length that is less than 800 nm and/or by electron beams. The process according to the invention is distinguished by the fact that a layer of a solution of a polymer that can be hardened by electromagnetic radiation with a wavelength that is less than 800 nm and/or by electron beams and an initiator substance is applied to a supporting membrane and subsequently is hardened by electromagnetic radiation and/or by electron beams. The use according to the invention serves to retain low molecular weight substances from organic solutions.Type: GrantFiled: July 3, 2006Date of Patent: October 13, 2009Assignee: GKSS-Forschungszentrum Geesthacht GmbHInventors: Katrin Ebert, Joachim Koll, Jan Wind
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Patent number: 7597932Abstract: The present invention provides improved synthetic polymer hydrogel permeation layers for use on active electronic matrix devices for biological assays. The present invention includes methods for forming a permeation layer on an array of microelectrodes including the steps of attaching a linker to the surface of the array and providing a polymerization solution that includes a porogen. The surface of the array is then contacted with the polymerization solution and the polymerization solution is then polymerized on the surface of the array to form a permeation layer that is attached o the surface of the array through the linker. The porogen is then removed from the permeation layer, thereby creating void spaces in the permeation layer.Type: GrantFiled: September 14, 2007Date of Patent: October 6, 2009Assignee: Nanogen, Inc.Inventors: Jainamma Krotz, Daniel Smolko, Howard R. Reese, Thomas J. Onofrey, Daguang Wang, Theodore M. Winger, John R. Havens
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Publication number: 20090242477Abstract: The present invention is characterized in that a base material comprises ester groups in the main chain and/or in the side chain(s), and comprises a polymer having hydrophobic groups. Particularly, the hydrophobic groups can be introduced by irradiating the base material with a radiation during the base material contacts an aqueous solution of a monohydric alcohol or an aqueous solution of an alcohol having not less than 2 hydroxyl groups, which is a monomer or a polymer, and which has one or more carbon atoms between the carbon atoms to each of which the hydroxyl group is bound in the monomer or in each monomer constituting the polymer.Type: ApplicationFiled: March 28, 2006Publication date: October 1, 2009Inventors: Miho Araki, Yoshiyuki Ueno, Hiroyuki Sugaya
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Publication number: 20090188857Abstract: A membrane includes a porous base membrane and a hydrophilic coating. The coating comprises a hydrophilic additive and a hydrophilic polymer derivatized with an electron beam reactive group adapted to form a radical under high energy irradiation. In some embodiments, the membrane comprises a fluoropolymer. Also disclosed are processes for forming the membrane.Type: ApplicationFiled: November 21, 2008Publication date: July 30, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: David Roger Moore, Ryan Austin Hutchinson
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Publication number: 20090184047Abstract: Functionalized nanopore membranes, apparatus and related methods, as can be used for selective analyte detection and/or separation.Type: ApplicationFiled: January 14, 2009Publication date: July 23, 2009Inventors: Sankaran Thayumanavan, Kothandam Krishnamoorthy, Elamprakash N. Savariar
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Patent number: 7553417Abstract: Functionalized substrates, methods of making functionalized substrates, and methods of using functionalized substrates are disclosed.Type: GrantFiled: December 15, 2006Date of Patent: June 30, 2009Assignee: 3M Innovative Properties CompanyInventors: Clinton P. Waller, Jr., Douglas Eugene Weiss
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Patent number: 7524425Abstract: A filter device for the depletion of the leukocyte content from blood products comprising: a porous element comprising at least one fibrous web having a pore size suitable for leukocyte removal (possibly the range for the pore size should be defined), said web comprising fibres of a hydrophobic polymer coated with a hydrophilic polymer suitable to enhance the CWST of said hydrophobic polymer, characterised in that said web further includes adsorbent particles having a mean diameter lower than 30 ?m, said particles being bonded to said fibres by means of said hydrophilic polymer coating said fibres.Type: GrantFiled: September 22, 2004Date of Patent: April 28, 2009Assignee: Fresenius Hemocare Italia S.r.l.Inventors: Giorgio Mari, Stefano Veronesi, Bernd Mathieu
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Publication number: 20090047654Abstract: A polymer affinity matrix for the binding of one or more substances in a fluid or removing said substance(s) from the fluid and/or decreasing the amount or concentration thereof in said fluid with a view to preventing, eliminating or reducing undesired activation of components in said fluid is described, as well as a method for removing said substance(s) from the fluid and/or decreasing the amount or concentration thereof in said fluid, a method for the production of said matrix, use of said matrix and a kit comprising said matrix. The polymer affinity matrix comprises a solid support, a spacer and a ligand, containing arginine as a binding unit.Type: ApplicationFiled: July 21, 2008Publication date: February 19, 2009Inventors: Wolfgang Rapp, Reinhold Deppisch, Hermann Gohl, Bernd Wittner, Werner Beck
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Patent number: 7462283Abstract: The present invention teaches, that the removal of particles of any charge from liquid stream is possible by mechanisms other than sieving with good flow and low pressure drop. The use of a weakly charged or neutral surface on the one or more filters within a pre-selected pH range is used. Consequently, particles that are much smaller than the filter pore size are captured with high efficiency. The essentially neutral or weakly charged material filter surface in the filtration liquid may be formed through the proper selection of filter material or a surface modification of the base filters(s) to create the essentially neutral or weakly charged surface.Type: GrantFiled: December 5, 2005Date of Patent: December 9, 2008Assignee: Entegris, Inc.Inventors: Wayne Kelly, Donald Grant, Philip Goddard, Volkmar Thom
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Patent number: 7449111Abstract: A polymer or blend is described which contains at least one acrylic resin or vinyl resin having at least one ionic or ionizable group, and at least one additional polymer. The polymer has small domain sizes with respect to the acrylic resin or vinyl resin. The polymer preferably has improved conductivity when formed into a film. Preferably, the polymers are useful in a variety of applications including in the formation of a membrane which is useful in batteries and fuel cells and the like. Methods of making the polymer blends are also described.Type: GrantFiled: July 14, 2004Date of Patent: November 11, 2008Assignee: Arkema Inc.Inventors: Lotfi Hedhli, Isabelle Decker, Patrick M. Piccione, Holger Amort, Scott R. Gaboury, Fabienne Piroux
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Publication number: 20080190842Abstract: One object of the present invention is to provide polymers suitable for use as medical materials. The present invention provides a polymer useful as a medical material having the general formula -(A)I-(B)m—(C)n— ??(I) in which A is derived from a non-ionic monomer; B is derived from a monomer containing a primary, secondary, tertiary or quaternary amine group; C is derived from a monomer containing an acid group; and 1+m+n=100,0<1,m,n<100.Type: ApplicationFiled: August 11, 2005Publication date: August 14, 2008Inventors: Hitoshi Mizomoto, Bradley Mark
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Patent number: 7361277Abstract: A filter device (100) comprising a filter (10) for producing a leukocyte-depleted plasma-rich fluid is disclosed.Type: GrantFiled: June 14, 2005Date of Patent: April 22, 2008Assignee: Pall CorporationInventors: Thomas J. Bormann, Gerard DelGiacco, Byron Selman
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Publication number: 20080060995Abstract: A composition of matter and methods to produce the same. The composition of matter includes a thin film and a plurality of smooth-surfaced through-holes extending through the thin film. The thin film may have a thickness of between 200 nm and 150 ?m. The through-holes may have a diameter of between 20 nm and 2500 nm.Type: ApplicationFiled: September 12, 2006Publication date: March 13, 2008Inventors: Sean Zhang, Janice H. Nickel, Patricia A. Beck, Lung Tran, Shuhuai Yao
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Publication number: 20080034972Abstract: A membrane for use in an implantable glucose sensor including at least one crosslinked substantially hydrophobic polymer and at least one crosslinked substantially hydrophilic polymer; wherein the first and second polymers are different polymers and substantially form an interpenetrating polymer network, semi- interpenetrating polymer network, polymer blend, or copolymer. The membranes are generally characterized by providing a permeability ratio of oxygen to glucose of about 1 to about 1000 in units of (mg/dl glucose) per (mmHg oxygen). Three methods of making membranes from hydrophobic and hydrophilic monomers formed into polymer networks are provided, wherein according to at least two of the methods, the monomers may be substantially immiscible with one another.Type: ApplicationFiled: August 10, 2006Publication date: February 14, 2008Inventors: David A. Gough, Joseph Y. Lucisano, Joe T. Lin, Hwai-Min Tsay, Drahoslav Lim
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Publication number: 20080035567Abstract: The present invention includes a polymeric membrane assembly and method for selective separation of components of a feedstream utilizing the polymeric membrane assembly. The present invention is a novel concept for the manufacture and use of a polymeric membrane assemblies which require the use of fibrous backing materials for fabrication processes utilizing commercial membrane casting equipment. This invention involves as improved membrane assembly configuration and membrane separation process configuration resulting in improved flux and selectivity properties for a given polymeric membrane composition.Type: ApplicationFiled: August 3, 2007Publication date: February 14, 2008Inventor: Craig Y. Sabottke
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Patent number: 7270850Abstract: The present invention provides improved synthetic polymer hydrogel permeation layers for use on active electronic matrix devices for biological assays. The present invention includes methods for forming a permeation layer on an array of microelectrodes including the steps of attaching a linker to the surface of the array by treating the surface with a linker by vapor deposition and providing a polymerization solution that includes at least one monomer having a polymerizable moiety, a modified streptavidin, a surfactant or porogen, and a cross-linking agent. The surface of the array is then contacted with the polymerization solution and the polymerization solution is then polymerized on the surface of the array to form a permeation layer that is attached o the surface of the array through the linker.Type: GrantFiled: March 16, 2005Date of Patent: September 18, 2007Assignee: Nanogen, Inc.Inventors: Jainamma Krotz, Daniel J. Smolko, Howard R. Reese, Thomas J. Onofrey, Daguang Wang, Theodore M. Winger, John R. Havens
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Patent number: 7223341Abstract: The present invention provides a positively charged microporous membrane having a protein binding capacity of about 25 mg/ml or greater comprising a hydrophilic porous substrate and a crosslinked coating that provides a fixed positive charge to the membrane. The present invention further provides a positively charged microporous membrane comprising a porous substrate and a crosslinked coating comprising pendant cationic groups. The membranes of the present invention find use in a variety of applications including ion-exchange chromatography, macromolecular transfer, as well as detection, filtration and purification of biomolecules such as proteins, nucleic acids, endotoxins, and the like.Type: GrantFiled: July 6, 2006Date of Patent: May 29, 2007Assignee: Pall CorporationInventors: Xiaosong Wu, Chung-Jen Hou, Jayesh Dharia, Peter Konstantin, Yujing Yang
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Patent number: 7195923Abstract: The present invention provides methods for determining a ratio of an amount of a glycated form of a protein to a total amount of the protein in a sample containing the glycated protein, the glycosylated protein, or the glycoprotein. The method incorporates lateral flow test strip or vertical flow test strip devices having negatively charged carboxyl or carboxylate groups and hydroxyboryl groups immobilized and interspersed on a solid support matrix. The solid support matrix may include derivatives of cellulose (e.g., carboxy cellulose) derivatized with carboxylic acid (e.g., carboxylate, carboxyl) groups and hydroxyboryl compounds including phenylboronic acid (e.g., phenylborate), aminophenylboronic acid, boric acid (e.g., borate), or other boronic acid (e.g., boronate) compounds. The present invention is usefi.il for monitoring glycation or glycosylation of hemoglobin or albumin for monitoring glycemic control (e.g., glycemia in diabetes).Type: GrantFiled: January 31, 2002Date of Patent: March 27, 2007Assignee: Scripps Laboratories, Inc.Inventors: Ralph P. McCroskey, Cameron E. Melton
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Patent number: 7160464Abstract: The invention is based on the discovery that certain membranes, which include side chains or molecular “brushes” having, for example, tertiary amino functional groups, can be used as highly effective filters to capture viruses/virus particles from liquids without removal of proteins. New methods based on this discovery include removing viruses from liquids such as blood or plasma, removing viruses from pharmaceuticals, concentrating and/or purifying viruses, e.g., for use in gene therapy, and producing recombinant viruses in new bioreactors. The invention also includes new methods of therapy or adjunct therapy for viral infections, in which a patient's blood or plasma is filtered through the membranes to remove viruses to reduce the viral load. The invention also includes new bioreactors and viral filters containing the membranes.Type: GrantFiled: December 21, 2004Date of Patent: January 9, 2007Assignee: The General Hospital CorporationInventors: William Lee, Jeffrey R. Morgan, Martin L. Yarmush
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Patent number: 7132049Abstract: The present invention provides, in certain embodiments, a negatively charged microporous membrane comprising a porous substrate and a crosslinked coating having fixed negative charges. The crosslinked coating can be prepared, e.g., from a polymerized composition comprising an unsaturated monomer having an anionic group, an N-(hydroxymethyl)- and/or N-(alkoxymethyl)-acrylamide, a hydrophilic unsaturated monomer, and an initiator. The present invention further provides, in some embodiments, a negatively charged microporous membrane comprising a porous substrate and a crosslinked coating prepared from a polymerized composition comprising an unsaturated monomer having an anionic group, an N-(hydroxymethyl)- or N-(alkoxymethyl)-acrylamide, a polysaccharide, and an initiator. The membranes of the present invention are suitable for use in ion exchange chromatography, for example, in the separation and purification of positively charged species such as proteins.Type: GrantFiled: January 19, 2005Date of Patent: November 7, 2006Assignee: Pall CorporationInventors: Chung-Jen Hou, Peter Konstantin, Yujing Yang
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Patent number: 7094349Abstract: An organic porous material having selective adsorption ability for boron, characterized in that it has an open cell structure comprising macro pores jointed to one another and, formed within the wall of the macro pore, meso pores having a pore diameter of 0.02 to 200 ?m, has a total pore volume of 1 to 50 ml/g, and contains a compound capable of forming a complex with boric acid introduced through a covalent bonding in an amount of 1 ?mol/g-dry porous material or more. The organic porous material exhibits improved ability for adsorbing boron and also is excellent in stability, and a boron removing module and an ultra-pure water production apparatus using the porous material have extremely high utility.Type: GrantFiled: July 14, 2003Date of Patent: August 22, 2006Assignee: Organo CorporationInventors: Hiroshi Inoue, Koji Yamanaka
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Patent number: 7094347Abstract: The present invention provides a positively charged microporous membrane having a protein binding capacity of about 25 mg/ml or greater comprising a hydrophilic porous substrate and a crosslinked coating that provides a fixed positive charge to the membrane. The present invention further provides a positively charged microporous membrane comprising a porous substrate and a crosslinked coating comprising pendant cationic groups. The membranes of the present invention find use in a variety of applications including ion-exchange chromatography, macromolecular transfer, as well as detection, filtration and purification of biomolecules such as proteins, nucleic acids, endotoxins, and the like.Type: GrantFiled: January 18, 2005Date of Patent: August 22, 2006Assignee: Pall CorporationInventors: Xiaosong Wu, Chung-Jen Hou, Jayesh Dharia, Peter Konstantin, Yujing Yang