Mansilla
Audino Mansilla, San Martin De Los Andes AR
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20080299236 | NATURAL HERB COMPOSITION FOR THE TREATMENT OF DIABETES AND MANUFACTURING METHOD THEREOF - The present invention refers to a new composition comprising natural herbs for the treatment of diabetes, and to a method for preparing said composition. | 12-04-2008 |
Eduardo Mansilla, La Plata AR
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20090311785 | Method for organizing and controlling cell growth and tissue regeneration - A method for organizing and controlling cell growth on a cell-free structure comprises steps of decellularizing a biological material to produce an acellular matrix; adding cells sought to be propagated to the acellular matrix; coating the acellular matrix with a fiber comprising biological and nonbiological material; and storing the covered acellular matrix for a time sufficient to form organized cell growth in the three-dimensional structural shape. The method may include the step of covering the three-dimensional structural shape by a structural layer to enable generation of a replacement external organ. This structural layer comprises a polymer film and fiber with a biological material and a nonbiological material. The biological material includes a cell growth factor; and the nonbiological material includes magnetite. This structural layer also comprises a therapeutic at a concentration between 0.001 and 5 weight percent. This structural layer may also comprise an acellular matrix of an organ. | 12-17-2009 |
Jose De Jesus Mansilla, Guadalajara MX
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20090288938 | SYSTEM AND METHOD FOR OBTAINING HYDROCARBONS FROM ORGANIC AND INORGANIC SOLID WASTE - This invention relates to a system for obtaining hydrocarbons from organic or inorganic solid waste, wherein said system comprises: an inlet chamber, within which is a mixer assembly which mixes and conveys the waste through said chamber, which is also at ambient temperature, thus avoiding any thermal stuck to the solid waste for processing; a dehydration chamber with a mixing assembly therein, and the upper part of this chamber contains an expansion chamber for promoting more efficient molecular breakdown; the thermal breakdown is carried out in two reactors which are operated at different temperatures, the first thermal disassociation reactor which has inside a mixer unit, and which in its upper part houses an expansion chamber, the second thermal breakdown reactor, therein has a mixer unit, and in the upper portion thereof houses an expansion chamber and at the top end thereof a vertical expansion tower; wherein the thermolytic steam is homogenized, a separator of heavy hydrocarbons, which does not require an additional cooling system, a multiple valve determines the temperature and oxygen content of the vapours and conveys them to the expansion tower in order to optimize the production of hydrocarbons, and to obtain a liquid hydrocarbon with high heating value. | 11-26-2009 |
Marcelo Vasquez Mansilla, San Carlos De Bariloche AR
Patent application number | Description | Published |
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20120022792 | METHOD OF QUANTIZATION OF MAGNETIC NANOPARTICLE ABSORPTION INTO ANIMAL TISSUES, AND EQUIPMENT FOR DOING IT - A method of quantization of magnetic nanoparticle absorption in animal tissues includes determination of the number of magnetic nanoparticles absorbed in animal tissues by magnetization measurements. The method is based on the measurement of magnetization versus magnetic field applied of the tissue sample absorbed with the nanoparticles obtaining their saturation magnetization. This magnitude is compared to the saturation magnetization of the same nanoparticles found in the tissue for the determination of the absolute number of magnetic nanoparticles in the animal tissue studied. The method includes preparing the samples for the sample holder, measuring the magnetization vs. applied magnetic field of a known number of magnetic nanoparticles, determining the saturation magnetization of the sample to be studied by measuring the magnetization and calculating the nanoparticle mass in the tissues from the data measured (saturation magnetization of the sample and of calibration of nanoparticles). | 01-26-2012 |