Dirk G.
Dirk G. Brockstedt, Richmond, CA US
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20100233212 | METHODS AND COMPOSITIONS USING LISTERIA FOR ENHANCING IMMUNOGENICITY BY PRIME BOOST - Provided herein are prime-boost regimens and materials used therein. The prime-boost regimens enhance the immune response to a target antigen. The vaccines used for boost are comprised of recombinant attenuated metabolically active | 09-16-2010 |
20110201092 | LISTERIA ATTENUATED FOR ENTRY INTO NON-PHAGOCYTIC CELLS, VACCINES COMPRISING THE LISTERIA, AND METHODS OF USE THEREOF - The present invention provides | 08-18-2011 |
20130315950 | METHODS AND COMPOSITIONS USING LISTERIA FOR ADJUVANT TREATMENT OF CANCER - Provided herein are prime-boost regimens and materials used therein. The prime-boost regimens enhance the immune response to a target antigen. The vaccines used for boost are comprised of recombinant attenuated metabolically active | 11-28-2013 |
20130323275 | METHODS AND COMPOSITIONS FOR INDUCING A T-CELL RESPONSE TO PLASMODIUM SPECIES - The present invention relates to methods of inducing a T-cell response against a | 12-05-2013 |
Dirk G. Brockstedt, Oakland, CA US
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20080248066 | Modified free-living microbes, vaccine compositions and methods of use thereof - Free-living microbes are provided in which the nucleic acid has been modified so that the microbe is attenuated for proliferation and/or which comprise genetic mutations that attenuate the ability of the microbe to repair its nucleic acid. Methods of using the modified microbes for the loading, activation, and/or maturation of antigen-presenting cells are also provided. Vaccine compositions comprising the modified microbes and/or the antigen-presenting cells and methods of using the vaccines are also provided. The microbes may be further modified to include heterologous antigens, such as tumor antigens or infectious disease antigens, for use as a vaccine against cancer or infectious diseases. | 10-09-2008 |
20100068230 | MODIFIED FREE-LIVING MICROBES, VACCINE COMPOSITIONS AND METHODS OF USE THEREOF - Free-living microbes are provided in which the nucleic acid has been modified so that the microbe is attenuated for proliferation and/or which comprise genetic mutations that attenuate the ability of the microbe to repair its nucleic acid. Methods of using the modified microbes for the loading, activation, and/or maturation of antigen-presenting cells are also provided. Vaccine compositions comprising the modified microbes and/or the antigen-presenting cells and methods of using the vaccines are also provided. The microbes may be further modified to include heterologous antigens, such as tumor antigens or infectious disease antigens, for use as a vaccine against cancer or infectious diseases. | 03-18-2010 |
20110287055 | COMPOSITIONS COMPRISING PRFA* MUTANT LISTERIA AND MEHTODS OF USE THEREOF - The invention provides recombinant | 11-24-2011 |
Dirk G. Kurth, Ibaraki JP
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20090270589 | Bis-Terpyridine Monomer, Production Process Thereof, Polymer Material Derived from the Monomer, and Electrochromic Device - Provided are (1) a terpyridine monomer that has a strong ability to coordinate with metal atoms, and (2) a polymer material that can be readily switched between a colored state and a colorless state by controlling the electrical potential applied to it and that can be processed. | 10-29-2009 |
20100184971 | METAL NANOPARTICLES, AN ELECTRODE USING THEM AND A PROCESS OF PREPARING METAL NANOPARTICLES - An object of the invention is to modify the surface of a metal nanoparticle with a cyclic phenylazomethine having a multi-ion sensing capability, thereby making the sensing of multiple substances possible. | 07-22-2010 |
Dirk G. Kurth, Tsukuba-Shi JP
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20110213154 | Bis-terpyridine monomer - A bis-terpyridine monomer includes a first terpyridyl substituent (A), a second terpyridyl substituent (B), and a spacer that contains at least one benzene ring and links the first terpyridyl substituent (A) and the second terpyridyl substituent (B). The bis-terpyridine monomer is represented by the following formula (10): | 09-01-2011 |
Dirk G. Soenksen, Vista, CA US
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20110115897 | Whole Slide Fluorescence Scanner - A whole slide fluorescence digital pathology system is provided that uses a monochrome TDI line scan camera, which is particularly useful in fluorescence scanning where the signal is typically much weaker than in brightfield microscopy. The system uses oblique brightfield illumination for fast and accurate tissue finding and employs a unique double sweep focus scoring and objective lens height averaging technique to identify focus points and create a focus map that can be followed during subsequent scanning to provide autofocusing capability. The system also scans and analyzes image data to determine the optimal line rate for the TDI line scan camera to use during subsequent scanning of the digital slide image and it also creates a light profile to compensate for loss of illumination light due to roll off. | 05-19-2011 |
20140247379 | Whole Slide Fluorescence Scanner - A system for creating a contiguous digital image of a fluorescence microscope sample. In an embodiment, the system comprises a both a macro camera and a time delay integration (TDI) line scan camera. The system may also comprise a motorized stage, an illumination module, a light source, an excitation filter, an objective lens, an emission filter, and at least one processor configured to assemble a plurality of digital images of portions of the fluorescence microscope sample, generated by the TDI line scan camera, into a contiguous digital image of at least a portion of the fluorescence microscope sample. | 09-04-2014 |