Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Elgort
Daniel Elgort, Cleveland, OH US
| Patent application number | Description | Published |
|---|---|---|
| 20100076301 | ADAPTIVE IMAGING PARAMETERS WITH MRI - Systems, methodologies, media, and other embodiments associated with automatically adapting MRI controlling parameters are described. One exemplary method embodiment includes configuring an MRI apparatus to acquire MR signal data using a non-rectilinear trajectory. The example method may also include acquiring MR signals, transforming the MR signals into image data, and selectively adapting the MRI controlling parameters based, at least in part, on information associated with the MR signals. | 03-25-2010 |
Daniel Elgort, New York, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20120126810 | MAGNETIC RESONANCE PH MEASUREMENTS USING LIGHT ENDOWED WITH ORBITAL ANGULAR MOMENTUM - In a pH measurement system, a magnet defines a BO magnetic field with which selected dipoles preferentially align in an examination region. A orbital angular momentum system endows electromagnetic (EM) radiation with orbital angular momentum (OAM) and transmits the OAM endowed EM radiation to the examination region to at least one of (1) enhance the preferential alignment of the selected dipoles with the BO magnetic field and (2) excite the aligned dipoles to resonate. A receive coil receives resonance signals from the resonating dipoles. An analysis or measurement unit determines a pH in the examination region by analyzing the resonance signals. | 05-24-2012 |
Marc G. Elgort, Salt Lake, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20090142748 | MICROPOROUS MATERIALS, METHODS OF MAKING, USING, AND ARTICLES THEREOF - Described herein are methods for separating one or more analytes present in a fluid sample. The methods involve passing the fluid through or into a microporous material, wherein the analytes are localized near the surface of the microporous material. Additional processing steps such as hybridization and amplification can be performed once the analyte is localized. In one method, once the analyte is localized, the analyte can be detected, counted, and correlated in order to determine the concentration of the analyte in the sample. In another method, the localized analyte is destabilized to make the localized analyte more accessible for chemical manipulation. Modified microporous materials and composite materials are also disclosed that can be used in any of the methods and articles described herein. The composite is composed of a microporous material and a pigment, wherein the pigment is incorporated in the microporous material. The pigments alter the optical properties of the microporous material, which enhances the detection of analyte once it is localized. Methods for making pigmented composites are also disclosed. In a further aspect, various kits and articles such as filtration devices containing any of the microporous materials described herein are provided. | 06-04-2009 |
Marc G. Elgort, Salt Lake City, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20090011403 | MICROPOROUS MATERIALS, METHODS OF MAKING, USING, AND ARTICLES THEREOF - Described herein are methods for separating one or more analytes present in a fluid sample. The methods involve passing the fluid through or into a microporous material, wherein the analytes are localized near the surface of the microporous material. Additional processing steps such as hybridization and amplification can be performed once the analyte is localized. In one method, once the analyte is localized, the analyte can be detected, counted, and correlated in order to determine the concentration of the analyte in the sample. In another method, the localized analyte is destabilized to make the localized analyte more accessible for chemical manipulation. Modified microporous materials and composite materials are also disclosed that can be used in any of the methods and articles described herein. The composite is composed of a microporous material and a pigment, wherein the pigment is incorporated in the microporous material. The pigments alter the optical properties of the microporous material, which enhances the detection of analyte once it is localized. Methods for making pigmented composites are also disclosed. In a further aspect, various kits and articles such as filtration devices containing any of the microporous materials described herein are provided. | 01-08-2009 |