Yanxia Li Phones & Addresses
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Modesto, CA
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Brooklyn, NY
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Flushing, NY
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Dublin, CA
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Stockton, CA
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Lathrop, CA
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13815 60Th Ave, Flushing, NY 11355
Publications
Us Patents
Antibodies Against Csf-1R
View pageUS Patent:
8263079, Sep 11, 2012
Filed:
Mar 28, 2011
Appl. No.:
13/073004
Inventors:
Jacqueline Francoise Doody - Ozone Park NY, US
Yanxia Li - Floral Park NY, US
Yanxia Li - Floral Park NY, US
Assignee:
ImClone, LLC - Indianapolis IN
International Classification:
A61K 39/395
C12P 21/08
C12P 21/08
US Classification:
4241431, 4241421
Abstract:
The invention provides a human antibody that binds human CSF-1R with high affinity. Antibodies of the present invention have significant advantages over the antibodies known in the art by being multifunctional: inhibiting signaling of CSF-1R, internalizing and inducing CSF-1R degradation and stimulating ADCC in cell including tumors, macrophages and monocytes. They are also shown to be effective in treating leukemia, breast, endometrial and prostate cancer alone or in combination with docetaxel, paclitaxel, Herceptin or doxorubicin.
Vacuum Tube Electrode Structure
View pageUS Patent:
20040222744, Nov 11, 2004
Filed:
Nov 19, 2003
Appl. No.:
10/718258
Inventors:
Robert Tornoe - Sunol CA, US
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Leroy Higgins - Newark CA, US
Gordon Lavering - Belmont CA, US
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Leroy Higgins - Newark CA, US
Gordon Lavering - Belmont CA, US
Assignee:
Communications & Power Industries, Inc.,
International Classification:
H01J025/34
US Classification:
315/003500
Abstract:
An electrode structure for a vacuum tube is formed by having a ceramic insulating body act as the tube wall. Electrode areas are formed on the inside of the tube by coating the inside of the tube wall with a conductor. These electrode areas are then coupled, as necessary, to external electronic circuits. The coupling may be performed by through-wall connections, metallized abutting connections and other conventional means. The ceramic insulating body may be generally cylindrical in shape and may be formed of a material such as aluminum nitride, beryllium oxide, aluminum oxide and the like.
L-Band Inductive Output Tube
View pageUS Patent:
20060091831, May 4, 2006
Filed:
Nov 4, 2004
Appl. No.:
10/982192
Inventors:
Heinz Bohlen - Kehl, DE
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Robert Tornoe - Sunol CA, US
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Robert Tornoe - Sunol CA, US
International Classification:
H05H 13/00
US Classification:
315502000
Abstract:
An inductive output tube (IOT) operates in a frequency range above 1000 MHz. An output window may be provided to separate a vacuum portion of the IOT from an atmospheric pressure portion of the IOT, the output window being surrounded by a cooling air manifold, the manifold including an air input port and a plurality of apertures permitting cooling air to move from the port, through the manifold and into the atmospheric pressure portion of the IOT. The output cavity may include a liquid coolant input port; a lower circular coolant channel coupled to receive liquid coolant from the liquid coolant input port; a vertical coolant channel coupled to receive liquid coolant from the lower circular coolant channel; an upper circular coolant channel coupled to receive liquid coolant from the vertical coolant channel; and a liquid coolant exhaust port coupled to receive liquid coolant from the upper circular coolant channel.
L-Band Inductive Output Tube
View pageUS Patent:
20070080762, Apr 12, 2007
Filed:
Dec 4, 2006
Appl. No.:
11/633850
Inventors:
Heinz Bohlen - Kehl, DE
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Robert Tornoe - Sunol CA, US
Yanxia Li - Pleasanton CA, US
Paul Krzeminski - San Mateo CA, US
Edmund Davies - Orinda CA, US
Robert Tornoe - Sunol CA, US
Assignee:
Communications & Power Industries, Inc. - Palo Alto CA
International Classification:
H01P 7/06
US Classification:
333227000
Abstract:
An inductive output tube (IOT) operates in a frequency range above 1000 MHz. An output window may be provided to separate a vacuum portion of the IOT from an atmospheric pressure portion of the IOT, the output window being surrounded by a cooling air manifold, the manifold including an air input port and a plurality of apertures permitting cooling air to move from the port, through the manifold and into the atmospheric pressure portion of the IOT. The output cavity may include a liquid coolant input port; a lower circular coolant channel coupled to receive liquid coolant from the liquid coolant input port; a vertical coolant channel coupled to receive liquid coolant from the lower circular coolant channel; an upper circular coolant channel coupled to receive liquid coolant from the vertical coolant channel; and a liquid coolant exhaust port coupled to receive liquid coolant from the upper circular coolant channel.