Miraglia
Alfredo Miraglia, Legnano (milano) IT
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20150106902 | GLOBAL SHARING NETWORK SYSTEM - A unifying and automated access and archiving method and system that permits unification, in one single login procedure, access to all networks and Web portals, and, at the same time, automatic downloading of relevant documents made available in the Web, i.e., by suppliers and Public Administration. The method and system allows creation of a home archive to store all documents, data and contents of interest, both captured from the sources at Web portals and from sharing actions with other users. Documents are organized and stored on the basis of predefined logical criteria so being stored and made available for prompt research and eventual sharing. | 04-16-2015 |
Erica Miraglia, Torino IT
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20110300529 | DETECTION OF IFI16 IN BODY FLUIDS - The present invention relates to methods for the qualitative and/or quantitative determination of interferon inducible protein 16 (IFI 16) in an extracellular form. | 12-08-2011 |
Francesco Miraglia, Arenzano (ge) IT
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20080283084 | METHOD FOR THE REMOVAL OF SEDIMENTS, FOULING AGENTS AND THE LIKE FROM DUCTS AND TANKS, AND APPARATUS ADAPTED TO PERFORM THE SAID METHOD - Taught herein are a method and apparatus for removing sediments, fouling agents and the like from fluid, in particular liquid, ducts and/or tanks, characterized in that the method comprises applying an ultrasound vibration to a plurality of points of the structure, duct or tank to be treated, said ultrasound vibration being continuously applied outside the structure at a given frequency and power. | 11-20-2008 |
20100326465 | METHOD FOR THE REMOVAL OF SEDIMENTS, FOULING AGENTS AND THE LIKE FROM DUCTS AND TANKS, AND APPARATUS ADAPTED TO PERFORM THE SAID METHOD - Taught herein are a method and apparatus for removing sediments, fouling agents and the like from fluid, in particular liquid, ducts and/or tanks, characterized in that the method comprises applying an ultrasound vibration to a plurality of points of the structure, duct or tank to be treated, said ultrasound vibration being continuously applied outside the structure at a given frequency and power. | 12-30-2010 |
Niccolo Miraglia, Desio (mi) IT
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20140205581 | FORMULATIONS CONTAINING SACCHAROMYCES BOULARDII AND SUPEROXIDE DISMUTASE (SOD) TO CONTROL OBESITY - Disclosed is a composition containing | 07-24-2014 |
20140315854 | BIOTECHNOLOGICAL SULPHATED CHONDROITIN SULPHATE AT POSITION 4 OR 6 ON THE SAME POLYSACCHARIDE CHAIN, AND PROCESS FOR THE PREPARATION THEREOF - The present invention discloses a process for the production of chondroitin sulphate with an average molecular weight (Mw) of 10-30 kDa by chemical sulphation starting from an unsulphated chondroitin backbone, obtained in turn by acid hydrolysis of capsular polysaccharide K4 made directly from | 10-23-2014 |
Niccolo Miraglia, Desio IT
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20150152198 | Low-Molecular-Weight Biotechnological Chondroitin 6-Sulphate for Prevention of Osteoarthritis - Disclosed is a low-molecular-weight (1000-5000 daltons) chondroitin sulphate (CS) produced by chemical sulphation and subsequent depolymerisation of a non-sulphated chondroitin backbone obtained with biotechnology techniques. The CS described is substantially monosulphated, mainly at the 6-position, with very little sulphation at the 4-position, and with a mono/disulphated disaccharide ratio and charge density similar to those of natural CS. Said biotechnological chondroitin 6-sulphate (C6S) is useful in the treatment and prevention of osteoarthritis and in acute and chronic inflammatory processes. | 06-04-2015 |
Niccoló Miraglia, Desio (mb) IT
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20120295865 | SHARK-LIKE CHONDROITIN SULPHATE AND PROCESS FOR THE PREPARATION THEREOF - The present invention provides a shark-like chondroitin sulphate and a process for the preparation thereof. In particular, the present invention relates to a shark-like chondroitin sulphate, having a very low amount of 4-sulphate, a high charge density and a biological activity comparable to natural chondroitin sulphates. The invention also relates to a process for the preparation of said shark-like chondroitin sulphate affording substantially higher productivities and better reproducibility of product quality. The shark-like chondroitin sulphate of the invention shows a high molecular mass and its in vitro biological and anti-inflammatory effectiveness has been shown to be comparable to that of natural products making this polysaccharide potentially useful as a drug in pharmaceutical preparations and nutraceuticals. | 11-22-2012 |
Niccolò Miraglia, Buccinasco IT
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20120289477 | BIOTECHNOLOGICAL SULPHATED CHONDROITIN SULPHATE AT POSITION 4 OR 6 ON THE SAME POLYSACCHARIDE CHAIN, AND PROCESS FOR THE PREPARATION THEREOF - A process for the preparation of a chondroitin sulphate salt with an average molecular weight (Mw) of 10-30 kDa via chemical sulphation of an unsulphated chondroitin backbone is provided. The unsulphated chondroitin can be obtained by acid hydrolysis of a capsular polysaccharide K4 made directly from | 11-15-2012 |
Salvatore Miraglia, Grenoble FR
Patent application number | Description | Published |
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20090278086 | Nanocrystalline Composite for Storage of Hydrogen - The invention relates to a method for preparation of a material adapted to reversible storage of hydrogen, including steps consisting of providing a first powder of a magnesium-based material, hydrogenating the first powder to convert at least part of the first powder into metal hydrides, mixing the first hydrogenating powder with a second powder additive, the proportion by mass of the second powder in the mix obtained being between 1% and 20% by mass, wherein the additive is formed from an alloy with a centred cubic structure based on titatnium, vanadium and at least one other metal chosen from chromium or manganese, and grinding the mix of first and second powders. | 11-12-2009 |
20100150822 | PULVERULENT INTERMETALLIC MATERIALS FOR THE REVERSIBLE STORAGE OF HYDROGEN - The present invention relates to pulverulent materials suitable for storing hydrogen, and more particularly to a method of preparing such a material, in which: (A) a composite metallic material having a specific granular structure is prepared by co-melting the following mixtures: a first metallic mixture (m1), which is an alloy (a1) of body-centred cubic crystal structure, based on titanium, vanadium, chromium and/or manganese, or a mixture of these metals in the proportions of the alloy (a1); and a second mixture (m2), which is an alloy (a2), comprising 38 to 42% zirconium, niobium, molybdenum, hafnium, tantalum and/or tungsten and 56 to 60 mol % of nickel and/or copper, or else a mixture of these metals in the proportions of the alloy (a2), with a mass ratio (m2)/(m1+m2) ranging from 0.1 wt % to 20 wt %; and (B) the composite metallic material thus obtained is hydrogenated, whereby the composite material is fragmented (hydrogen decrepitation). | 06-17-2010 |
20100266488 | HYDROGEN STORAGE MATERIAL MADE FROM MAGNESIUM HYDRIDE - A compacted material includes magnesium hydride and expanded natural graphite and a method for preparing such a material including the steps which consist in: (i) mixing a magnesium hydride or powdered magnesium with a powdered graphite; and (ii) shaping the mixture by compaction. It also proposes the use of the material for hydrogen storage and a method for hydrogen storage and release from storage including the steps which consist in: (a) introducing the material into a suitable hydrogen tank; (b) placing the material under hydrogen pressure in pressure and temperature conditions that enable the hydrogen to be absorbed by the material; and (c) desorbing the hydrogen from the material in pressure and temperature conditions permitting the desorption of the material. | 10-21-2010 |
20100291315 | Method of Producing Multilayer Structures Having Controlled Properties - The invention relates to a method of manufacturing ( | 11-18-2010 |
20100326992 | HYDROGEN STORAGE TANK - The invention relates to a tank of the type that comprises a container ( | 12-30-2010 |
20110020661 | FE-SI-LA ALLOY HAVING EXCELLENT MAGNETO-CALORIC PROPERTIES - The invention relates to a Fe—Si—La alloy having the following atomic composition: (La | 01-27-2011 |
20120061397 | Adiabatic Tank For Metal Hydride - The invention relates to a safe hydrogen-storing tank that is easy to manufacture and enables the quick kinetic absorption of hydrogen, which reduces the variations in volume and has a low cost in terms of material and energy. The invention has the aim of providing a tank for storing hydrogen, including a hydrogen inlet ( | 03-15-2012 |
20120288440 | PULVERULENT INTERMETALLIC MATERIALS FOR THE REVERSIBLE STORAGE OF HYDROGEN - The present invention relates to pulverulent materials suitable for storing hydrogen, and more particularly to a method of preparing such a material, in which: (A) a composite metallic material having a specific granular structure is prepared by co-melting the following mixtures: a first metallic mixture (m1), which is an alloy (a1) of body-centred cubic crystal structure, based on titanium, vanadium, chromium and/or manganese, or a mixture of these metals in the proportions of the alloy (a1); and a second mixture (m2), which is an alloy (a2), comprising 38 to 42% zirconium, niobium, molybdenum, hafnium, tantalum and/or tungsten and 56 to 60 mol % of nickel and/or copper, or else a mixture of these metals in the proportions of the alloy (a2), with a mass ratio (m2)/(m1+m2) ranging from 0.1 wt % to 20 wt %; and (B) the composite metallic material thus obtained is hydrogenated, whereby the composite material is fragmented (hydrogen decrepitation). | 11-15-2012 |
20130111736 | METHOD FOR PREPARING A MATERIAL FOR STORING HYDROGEN, INCLUDING AN EXTREME PLASTIC DEFORMATION OPERATION - A material for storing hydrogen is prepared by a method including an extreme plastic deformation operation selected from cold-rolling, quick-forging and extrusion-bending performed on a metallic material selected from among a metal and an alloy containing said metal, or on a compound containing a metal material selected from among a metal and an alloy containing said metal and to which a hydride of said metal or a hydride of said alloy has been added. When the extreme plastic deformation operation is carried out on the metallic material, it is followed by an operation of adding, to the metal material, a hydride of said metal or a hydride of said alloy, as well as by a dispersing operation. | 05-09-2013 |