Patents by Inventor George Greene
George Greene has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20190352664Abstract: The invention generally relates to compositions (including constructs, vectors, and cells) and methods of using such compositions for controlling gene expression. More specifically, the invention relates to use of R-motif sequences and/or uORF sequences to control gene expression.Type: ApplicationFiled: February 2, 2018Publication date: November 21, 2019Inventors: XINNIAN DONG, GEORGE GREENE, GUOYONG XU
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Patent number: 7507469Abstract: Multi-layer coated materials and methods of making them are disclosed. In a specific embodiment, a porous polymeric substrate is pre-activated and immersed in a polyelectrolyte solution to form a first layer having an electric charge and at least one functional group. The coated material is next immersed in a second solution of a material having an electric charge opposite of that of the first layer to provide a bi-layer coating. This process can be repeated to form multi-layer coatings on porous substrates.Type: GrantFiled: August 18, 2006Date of Patent: March 24, 2009Assignee: Porex CorporationInventors: Guoqiang Mao, George Greene, IV, Li Yao
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Publication number: 20080100037Abstract: A field assemblable trailer that has a container having a bottom, a hitch assembly configured to be securable to the bottom of the container, an axle housing configured to be securable to the bottom of the container, a pair of hub and axle assemblies configured to be attached inside the axle housing and a pair of tires on rims configured to attached to the hubs. The hitch assembly, the axle housing, the pair of hub and axle assemblies and the tires on rims comprise a kit which fits inside the container. The kit takes up a minimal room which leaves the container free to accept a larger primary load for safe keeping. When the container is opened the kit is readily identifiable and is capable of converting the shipping container to an enclosed trailer quickly with minimal tools. This can be done while providing protection of the primary load.Type: ApplicationFiled: October 10, 2007Publication date: May 1, 2008Inventors: George Greene III, George Greene, Harvey Dumond, Kevin Naber, Jack Koedoot, Ross Van Klompenberg
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Publication number: 20080045922Abstract: A liquid embolic delivery system is provided for trapping an injected liquid embolic composition to prevent the liquid embolic from solidifying or otherwise passing outside of an embolization area. The delivery system includes a catheter for delivery of a liquid embolic composition and a containment member positioned at a distal end of the catheter which is shaped to trap the liquid embolic composition delivered through the lumen of the catheter. The containment member is formed as a brush, nest, sponge, swab, flexible sack, or other shape into and around which the liquid embolic composition is injected. The liquid embolic composition is trapped or meshes with the containment member during solidification containing the liquid embolic and preventing the embolic composition from passing into the blood stream.Type: ApplicationFiled: October 24, 2007Publication date: February 21, 2008Inventors: Andrew Cragg, Blair Walker, John Perl, Michael Jones, George Greene, George Wallace, Richard Greff
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Publication number: 20070176333Abstract: A vascular implant formed of a compressible foam material has a compressed configuration from which it is expansible into a configuration substantially conforming to the shape and size of a vascular site to be embolized. Preferably, the implant is formed of a hydrophilic, macroporous foam material, having an initial configuration of a scaled-down model of the vascular site, from which it is compressible into the compressed configuration. The implant is made by scanning the vascular site to create a digitized scan data set; using the scan data set to create a three-dimensional digitized virtual model of the vascular site; using the virtual model to create a scaled-down physical mold of the vascular site; and using the mold to create a vascular implant in the form of a scaled-down model of the vascular site. To embolize a vascular site, the implant is compressed and passed through a microcatheter, the distal end of which has been passed into a vascular site.Type: ApplicationFiled: April 10, 2007Publication date: August 2, 2007Inventors: George Greene, Robert Rosenbluth, Brian Cox
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Publication number: 20060280931Abstract: Multi-layer coated materials and methods of making them are disclosed. In a specific embodiment, a porous polymeric substrate is pre-activated and immersed in a polyelectrolyte solution to form a first layer having an electric charge and at least one functional group. The coated material is next immersed in a second solution of a material having an electric charge opposite of that of the first layer to provide a bi-layer coating. This process can be repeated to form multi-layer coatings on porous substrates.Type: ApplicationFiled: August 18, 2006Publication date: December 14, 2006Inventors: Guoqiang Mao, George Greene, Li Yao
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Publication number: 20060191833Abstract: The present invention is an erosion chlorinator, having a contact chamber with a water inlet flow orifice at the first end and a water discharge orifice in the side wall. Both orifices are in communication with the contact chamber. Seated within the contact chamber is an inverted cone having a narrow end and a wide end. The orifice at the narrow end is in communication with the water inlet orifice. An elongated chlorine tablet chamber is provided, the first end of which is in communication with the second end of the contact chamber and extends into the contact chamber, but is spaced from the wide end of the inverted cone. The second end of the elongated chlorine chamber has a flange around the circumference, an O-ring and an end plate where the O-ring is engaged between the flange and the end plate. This chlorinator may be used in pressurized system.Type: ApplicationFiled: January 26, 2006Publication date: August 31, 2006Inventors: George Greene, George Greene, Gregory Haan, Jack Koedoot, Ross Klompenberg
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Patent number: 7094464Abstract: Multi-layer coated materials and methods of making them are disclosed. In a specific embodiment, a porous polymeric substrate is pre-activated and immersed in a polyelectrolyte solution to form a first layer having an electric charge and at least one functional group. The coated material is next immersed in a second solution of a material having an electric charge opposite of that of the first layer to provide a bi-layer coating. This process can be repeated to form multi-layer coatings on porous substrates.Type: GrantFiled: August 28, 2002Date of Patent: August 22, 2006Assignee: Porex CorporationInventors: Guoqiang Mao, George Greene, IV, Li Yao
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Publication number: 20060184195Abstract: A vaso-occlusive device includes a microcoil formed into a minimum energy state secondary configuration comprising a plurality of curved segments, each defining a discrete axis, whereby the device, in its minimum energy state configuration, defines multiple axes. In a preferred embodiment, the secondary configuration comprises a plurality of interconnected closed loops defining a plurality of discrete axes. In a second embodiment, the secondary configuration defines a wave-form like structure comprising an array of laterally-alternating open loops defining a plurality of separate axes. In a third embodiment, the secondary configuration forms a series of tangential closed loops, wherein the entire structure subtends a first angle of arc, and wherein each adjacent pair of loops defines a second angle of arc. In a fourth embodiment, the secondary configuration forms a logarithmic spiral.Type: ApplicationFiled: April 5, 2006Publication date: August 17, 2006Applicant: MICROVENTION, INC.Inventors: Dean Schaefer, Brain Cox, George Greene, David Ferrera, Matthew Fitz, Robert Rosenbluth
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Publication number: 20060184196Abstract: A vaso-occlusive device includes a microcoil formed into a minimum energy state secondary configuration comprising a plurality of curved segments, each defining a discrete axis, whereby the device, in its minimum energy state configuration, defines multiple axes. In a preferred embodiment, the secondary configuration-comprises a plurality of interconnected closed loops defining a plurality of discrete axes. In a second embodiment, the secondary configuration defines a wave-form like structure comprising an array of laterally-alternating open loops defining a plurality of separate axes. In a third embodiment, the secondary configuration forms a series of tangential closed loops, wherein the entire structure subtends a first angle of arc, and wherein each adjacent pair of loops defines a second angle of arc. In a fourth embodiment, the secondary configuration forms a logarithmic spiral.Type: ApplicationFiled: April 5, 2006Publication date: August 17, 2006Applicant: MICROVENTION, INC.Inventors: Dean Schaefer, Brian Cox, George Greene, David Ferrera, Matthew Fitz, Robert Rosenbluth
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Publication number: 20060149299Abstract: An embolization device for occluding a body cavity includes one or more elongated, expansible, hydrophilic embolizing elements non-releasably carried along the length of an elongated filamentous carrier that is preferably made of a very thin, highly flexible filament or microcoil of nickel/titanium alloy. At least one expansile embolizing element is non-releasably attached to the carrier. A first embodiment includes a plurality of embolizing elements fixed to the carrier at spaced-apart intervals along its length. In second, third and fourth embodiments, an elongate, continuous, coaxial embolizing element is non-releasably fixed to the exterior surface of the carrier, extending along a substantial portion of the length of the carrier proximally from a distal tip, and optionally includes a lumenal reservoir for delivery of therapeutic agents. Exemplary methods for making these devices include skewering and molding the embolizing elements.Type: ApplicationFiled: February 8, 2006Publication date: July 6, 2006Applicant: MICROVENTION, INC.Inventors: George Greene, Gregory Cruise, Michael Constant, Brian Cox, Terrance Tran
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Publication number: 20050118407Abstract: The invention relates to porous polymeric materials, methods of making them, and applications in medical devices. A specific embodiment of the invention encompasses a material comprising a porous polyolefin substrate containing inclusions of a material to which chemical or biological moieties are attached directly or via a spacer.Type: ApplicationFiled: October 26, 2004Publication date: June 2, 2005Inventors: Li Yao, George Greene, Guoqiang Mao, Xingguo Li
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Publication number: 20030124332Abstract: Multi-layer coated materials and methods of making them are disclosed. In a specific embodiment, a porous polymeric substrate is pre-activated and immersed in a polyelectrolyte solution to form a first layer having an electric charge and at least one functional group. The coated material is next immersed in a second solution of a material having an electric charge opposite of that of the first layer to provide a bi-layer coating. This process can be repeated to form multi-layer coatings on porous substrates.Type: ApplicationFiled: August 28, 2002Publication date: July 3, 2003Inventors: Guoqiang Mao, George Greene,, Li Yao