Mortillaro
Armando Mortillaro, Ivrea IT
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20110275850 | Process For The Preparation Of Triiodinated Carboxylic Aromatic Derivatives - The present invention relates to a process for the preparation of given carboxamido compounds, in particular of 2,4,6-triiodoisophthalic acid derivatives, as useful intermediates for the preparation of X-ray contrast media among which is iopamidol. The said process comprises reacting suitable N-sulfinyl intermediate compounds with a commercially available α-hydroxyacid or a salt thereof. | 11-10-2011 |
Armando Mortillaro, Borgofranco D'Ivrea IT
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20150329464 | CONTINUOUS PROCESS FOR THE PREPARATION OF (S)-2-ACETYLOXYPROPIONIC ACID CHLORIDE - The present invention relates to a continuous method for the preparation of (S)-2-acetyloxypropionic acid from an aqueous solution of lactic acid and acetic anhydride, in acetic acid. (S)-2-acetyloxypropionic acid is used for the preparation of (S)-2-acetyloxypropionic acid chloride, an essential intermediate compound for the preparation of lopamidol and has to be industrially produced with high purity and suitable quality for producing lopamidol according to the Pharmacopoeia requirements. The continuous process according to the invention, comprises therefore also the chlorination steps of (S)-2-acetyloxypropionic acid with thionyl chloride to give the corresponding (S)-2-acetyloxypropionic acid chloride which is further distilled to give the suitable purity characteristics for its use for the preparation of non-ionic iodinated contrast agents as lopamidol. | 11-19-2015 |
Camaron A. Mortillaro, Santa Fe, NM US
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20120093286 | Method for analysis using x-ray fluorescence - The present invention is a method to quantify biomarkers. The method uses an X-ray fluorescence spectrometer to perform an X-ray fluorescence analysis on the sample to obtain spectral features derived from the biomarker; and quantifying the X-ray fluorescence signal of the biomarker. | 04-19-2012 |
Camaron A. Mortillaro, Phoenix, AZ US
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20150260664 | METHOD FOR ANALYSIS USING X-RAY FLUORESCENCE - The present invention is a method to quantify biomarkers. The method uses an X-ray fluorescence spectrometer to perform an X-ray fluorescence analysis on the sample to obtain spectral features derived from the biomarker; and quantifying the X-ray fluorescence signal of the biomarker. | 09-17-2015 |
20150276631 | METHOD FOR ANALYSIS USING X-RAY FLUORESCENCE - The present invention is a method to quantify biomarkers. The method uses an X-ray fluorescence spectrometer to perform an X-ray fluorescence analysis on the sample to obtain spectral features derived from the biomarker; and quantifying the X-ray fluorescence signal of the biomarker. | 10-01-2015 |
20150276632 | METHOD FOR ANALYSIS USING X-RAY FLUORESCENCE - The present invention is a method to quantify biomarkers. The method uses an X-ray fluorescence spectrometer to perform an X-ray fluorescence analysis on the sample to obtain spectral features derived from the biomarker; and quantifying the X-ray fluorescence signal of the biomarker. | 10-01-2015 |
Diego Franco Mortillaro, Meina (novara) IT
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20110035290 | SYSTEM AND METHOD FOR TRANSFERRING MONEY FROM A MOBILE PHONE ACCOUNT - A computer-implemented method, computer program product, and system for establishing an association between a mobile phone account of a user and a consumer debit account of the user. A first transfer of funds is effectuated from the mobile phone account to the consumer debit account. A second transfer of funds from the consumer debit account to a third party is enabled using at least a portion of the first transferred funds. | 02-10-2011 |
Michael J. Mortillaro, Webster, NY US
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20080220481 | Sample Plate Assembly and Method of Processing Biological Samples - The invention concerns a v-bottomed sample plate, a frame for sample plates and a kit and method for processing biological samples. The kit comprises a tray assembly and a plurality of sample plates designed to fit into the tray assembly. The tray assembly comprises a frame having a central plate receiving portion having a width and length, whereby said tray assembly is capable of accommodating the sample plates side by side in the plate receiving portion. Each of the sample plates contains a plurality of individual sample wells arranged in a grid, the dimension of the plate in a first direction being at maximum the width of the frame and the dimension of the plate in a second direction being at maximum half of the length of the plate receiving portion of the of the frame, and means for enabling automated handling of the plates. The invention enables more efficient biomedical processing of samples. | 09-11-2008 |
20080254517 | Thermal Cycler With Optimized Sample Holder Geometry - The invention concerns a thermal cycler and a microtiter plate. The cycler comprises a sample holder having a first surface and a surface and means for automated, controlled heating and cooling of the sample holder. The first surface of the sample holder is designed to hold a plurality of samples arrayed in a grid having a predefined pitch. The number of samples in one dimension is an exact match of the SBS plate standards for that sample pitch and in another dimension corresponds to a fraction of the number of samples in a second dimension of an SBS microtiter standard plate. According to the invention, the sample holder is shaped such that the area of the second surface is larger than the area of the first surface. By means of the invention, the thermal ramping speeds of the cycler can be significantly increased. | 10-16-2008 |
20090165574 | INSTRUMENT AND METHOD FOR NUCLEIC ACID AMPLIFICATION - The invention relates to a polymerase chain reaction (PCR) process and a thermal cycler. In the process, biological samples are held in a sample carrier having a plurality of sample spaces each having upper and lower ends and the samples are sequentially heated and cooled. The thermal cycler according to the invention comprises heat transfer means for automatic heating and cooling of the samples in the sample carrier, heatable closure means above the upper ends of the samples spaces for preventing condensation of sample vapor during the process, and adjusting means for controlling one process parameter, preferably the temperature of the heatable closure means, depending on at least one other of said process parameters. The invention helps to decrease the number of failed PCR experiments, in particular due to changes in sample volume. | 07-02-2009 |