Krisztián
Krisztián Niesz, Bata HU
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20110104043 | INSTRUMENT AND PROCESS FOR NANOPARTICLES PRODUCTION IN CONTINUOUS FLOW MODE - The subject of the invention is the ( | 05-05-2011 |
Krisztián Niesz, Bata HU
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20110104043 | INSTRUMENT AND PROCESS FOR NANOPARTICLES PRODUCTION IN CONTINUOUS FLOW MODE - The subject of the invention is the ( | 05-05-2011 |
Krisztián Papp, Budapest HU
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20100075864 | MEASUREMENT OF COMPLEMENT ACTIVATION PRODUCTS ON ANTIGEN ARRAYS - The basis of the present invention is that antigens on an antigen array can initiate complement activation both by antibody-dependent or -independent way. The systems and methods disclosed herein can be used in methods of diagnosing and monitoring particular autoimmune disorders and infections. The invention relates to a new diagnostic method, utilizing an antigen array for simultaneously identifying different antigens capable of activating the complement system, in a quantitative fashion; to multiplex immunoassays utilizing antigen arrays, and more particularly to systems, methods and kits for qualitative and quantitative detection of antigens activating complement in a biological sample, via the measurement of complement components deposited on antigen arrays. The invention employs the functional complement system in the biological sample tested, thereby the information gained relates to antigen recognition properties and functional consequences in the organism from which the sample was taken and relies on the ability of antigen recognition molecules, primarily antibodies to activate the complement system in the sample tested, upon binding to elements of an antigen array. | 03-25-2010 |
Krisztián Szigeti, Budapest HU
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20130112874 | IMAGING MODALITY USING PENETRATING RADIATIONS - Systems and methods which use penetrating radiation to obtain novel type of information about objects of interest. This information may be represented as novel type of image. In the present embodiments, penetrating radiation is directed through the object of interest. The attenuated radiation emerging from the object of interest is detected by at least one detector. A plurality of measurements is collected. At least one statistical parameter describing variations of the measurements may be calculated and used for reconstructing an image representing fluctuations of the attenuation of the penetrating radiation in the object of study. At least one other statistical parameter representing the mean attenuation image, the error of the fluctuation image, or the error of the mean attenuation image may also be calculated and used to reconstruct images of the object of interest. | 05-09-2013 |