Patent application number | Description | Published |
20100034734 | SYSTEM AND METHOD FOR QUANTITATIVE MOLECULAR BREAST IMAGING - A system and method for performing quantitative lesion analysis in molecular breast imaging (MBI) using the opposing images of a slightly compressed breast that are obtained from the dual-head gamma camera. The method uses the shape of the pixel intensity profiles through each tumor to determine tumor diameter. Also, the method uses a thickness of the compressed breast and the attenuation of gamma rays in soft tissue to determine the depth of the tumor from the collimator face of the detector head. Further still, the method uses the measured tumor diameter and measurements of counts in the tumor and background breast region to determine relative radiotracer uptake or tumor-to-background ratio (T/B ratio). | 02-11-2010 |
20100104505 | System and Method for Quantitative Molecular Breast Imaging - A system and method for performing quantitative lesion analysis in molecular breast imaging (MBI) using the opposing images of a slightly compressed breast that are obtained from the dual-head gamma camera. The method uses the shape of the pixel intensity profiles through each tumor to determine tumor diameter. Also, the method uses a thickness of the compressed breast and the attenuation of gamma rays in soft tissue to determine the depth of the tumor from the collimator face of the detector head. Further still, the method uses the measured tumor diameter and measurements of counts in the tumor and background breast region to determine relative radiotracer uptake or tumor-to-background ratio (T/B ratio). | 04-29-2010 |
20100179422 | Dual Modality Imaging Of Tissue Using A Radionuclide - A method for imaging a subject includes injecting the subject with a single dose of a radionuclide and acquiring, with a molecular breast imaging (MBI) system, a first set of medical image data of a breast of the subject after injection of the single dose of a radionuclide. The method also includes acquiring, with a myocardial perfusion imaging (MPI) system, a second set of medical image data of a portion of a cardiovascular system of the subject after the single dose of a radionuclide and reconstructing the first set of medical image data into a medical image of the breast of the subject and reconstructing the second set of medical image data into a medical image of the portion of the cardiovascular system of the subject. | 07-15-2010 |
20110207986 | SYSTEM AND METHOD FOR RADIATION DOSE REDUCTION IN MOLECULAR BREAST IMAGING - A system and method is provided for analyzing detector data acquired during molecular breast imaging (MBI) that reduces a patient's radiation does without a reduction in image quality. The method processes and combines initial images acquired by the two gamma-camera detectors of the MBI system to produce a hybrid or composite image set having reduced noise and improved contrast. The composite image provides image quality comparable to that of traditional MBI methods, but at a lower patient radiation dose. | 08-25-2011 |
20110248174 | Collimator for Low-Dose Molecular Breast Imaging - A system and method for nuclear imaging includes a molecular breast imaging system including a collimator coupled to each of at least two gamma cameras. The collimator includes a collimator plate composed of a radiation absorbing material and having formed therein a plurality of channels spaced in an arrayed arrangement, each of the plurality of channels extending from an upper surface of the collimator plate to a lower surface of the collimator plate along a distance configured to substantially maximize a geometric efficiency of the collimator for a selected septal penetration, source-to-collimator distance, and collimator material. The collimator also includes a plurality of septa formed between each adjacent ones of the plurality of channels and the plurality of detector elements and the plurality of channels have a substantially similar cross-sectional shape. | 10-13-2011 |
20120130234 | SYSTEM AND METHOD FOR TUMOR ANALYSIS AND REAL-TIME BIOPSY GUIDANCE - A system and method for molecular breast imaging (MBI) provides enhanced tumor analysis and, optionally, a real-time biopsy guidance. The system includes a detector head including a gamma ray detector and a collimator. The collimator include multiple collimation sections having respectively different spatially-oriented structures. In addition or alternatively, the multiple collimating section have respectively different collimation characteristics. An image of the tissue acquired with the system may include spatially separate image portions containing image information about the same portion of the imaged tissue. A system is optionally configured to acquire updatable images to provide real-time feedback about the biopsy procedure. | 05-24-2012 |
20130101083 | METHOD AND APPARATUS FOR DUAL-MODALITY ULTRASONIC AND NUCLEAR EMISSION MAMMOGRAPHY - A molecular breast imaging (“MBI”} configured for combined MBI and ultrasound imaging or MBI-guided biopsy is provided. In one configuration, the MBI portion of the system includes two opposed gamma ray detectors, while in another configuration only one gamma ray detector is provided. In two detector configurations, a compression plate is provided to make contact with and apply light compression to the subject under examination. One of the gamma ray detectors is configured to be moveable with respect to the other detector such that the gamma ray detector can be moved away from the examination region, thereby allowing access to the breast for an ultrasound imaging system or a breast biopsy device. | 04-25-2013 |
20130158389 | MULTI-SEGMENT SLANT HOLE COLLIMATOR SYSTEM AND METHOD FOR TUMOR ANALYSIS IN RADIOTRACER-GUIDED BIOPSY - A system and method for molecular breast imaging (MBI) provides enhanced tumor analysis and, optionally, a real-time biopsy guidance. The system includes a detector head including a gamma ray detector and a multisegment collimator in a collimator frame. The collimator contains multiple collimation sections that have respectively different collimating characteristic and that are individually repositionable with respect to the detector. An image of the tissue acquired with the system may include spatially separate image portions containing image information about the same portion of the imaged tissue. A system of mounting the multisegment collimator in the detector head includes a collimator tray that is laterally moveable within the frame and/or slidable in and out of the frame. | 06-20-2013 |
20130216113 | SYSTEM AND METHOD FOR MOLECULAR BREAST IMAGING ENERGY SPECTRUM IMAGING AND ANALYSIS - A system and method is provided for imaging a region of interest (“ROI”) including a breast having received a reduced dose of radionuclide using an imaging system including at least two gamma detectors. The acquired imaging data is analyzed respect to an energy characteristic and divided into subsets of data based on the analysis. A plurality of images is generated using the subsets of data, wherein the plurality of images include a primary image corresponding to subsets of data having energy including the energy characteristic and multiple secondary images corresponding to subsets of data having energy not including the energy characteristic. Each of the plurality of images is processed using energy information associated with each of the plurality of images and the processed plurality of images is combined to form a composite image of the ROI. | 08-22-2013 |
Patent application number | Description | Published |
20130295628 | PROCESSES FOR PRODUCING ENERGY-DENSE BIOMASS AND SUGARS OR SUGAR DERIVATIVES, BY INTEGRATED HYDROLYSIS AND TORREFACTION - This invention provides processes to convert biomass into energy-dense biomass for combustion, alone or in combination with another solid fuel. In some variations, biomass is extracted to produce an extract liquor containing hemicellulosic oligomers and cellulose-rich solids; hemicellulosic oligomers are removed; and the cellulose-rich solids are torrefied to produce energy-dense biomass. In some embodiments, hydrotorrefaction is employed to produce hydrophobic, energy-dense biomass in an energy-efficient process that avoids intermediate drying between extraction/hydrolysis and torrefaction. The energy-dense biomass may be pelletized or directly combusted or gasified. The hemicellulosic oligomers may be hydrolyzed to fermentable sugars and then fermented to ethanol or other products, or further reacted to produce furfural or other products. | 11-07-2013 |
20140154756 | PROCESSES AND APPARATUS FOR PRODUCING NANOCELLULOSE, AND COMPOSITIONS AND PRODUCTS PRODUCED THEREFROM - Processes disclosed are capable of converting biomass into high-crystallinity nanocellulose with surprisingly low mechanical energy input. In some variations, the process includes fractionating biomass with an acid (such as sulfur dioxide), a solvent (such as ethanol), and water, to generate cellulose-rich solids and a liquid containing hemicellulose and lignin; and mechanically treating the cellulose-rich solids to form nanofibrils and/or nanocrystals. The total mechanical energy may be less than 500 kilowatt-hours per ton. The crystallinity of the nanocellulose material may be 80% or higher, translating into good reinforcing properties for composites. The nanocellulose material may include nanofibrillated cellulose, nanocrystalline cellulose, or both. In some embodiments, the nanocellulose material is hydrophobic via deposition of some lignin onto the cellulose surface. Optionally, sugars derived from amorphous cellulose and hemicellulose may be separately fermented, such as to monomers for various polymers. These polymers may be combined with the nanocellulose to form completely renewable composites. | 06-05-2014 |
20140154757 | PROCESSES AND APPARATUS FOR PRODUCING NANOCELLULOSE, AND COMPOSITIONS AND PRODUCTS PRODUCED THEREFROM - Processes disclosed are capable of converting biomass into high-crystallinity nanocellulose with surprisingly low mechanical energy input. In some variations, the process includes fractionating biomass with an acid (such as sulfur dioxide), a solvent (such as ethanol), and water, to generate cellulose-rich solids and a liquid containing hemicellulose and lignin; and mechanically treating the cellulose-rich solids to form nanofibrils and/or nanocrystals. The total mechanical energy may be less than 500 kilowatt-hours per ton. The crystallinity of the nanocellulose material may be 80% or higher, translating into good reinforcing properties for composites. The nanocellulose material may include nanofibrillated cellulose, nanocrystalline cellulose, or both. In some embodiments, the nanocellulose material is hydrophobic via deposition of some lignin onto the cellulose surface. Optionally, sugars derived from amorphous cellulose and hemicellulose may be separately fermented, such as to monomers for various polymers. These polymers may be combined with the nanocellulose to form completely renewable composites. | 06-05-2014 |
20140155301 | PROCESSES AND APPARATUS FOR PRODUCING NANOCELLULOSE, AND COMPOSITIONS AND PRODUCTS PRODUCED THEREFROM - Processes disclosed are capable of converting biomass into high-crystallinity nanocellulose with surprisingly low mechanical energy input. In some variations, the process includes fractionating biomass with an acid (such as sulfur dioxide), a solvent (such as ethanol), and water, to generate cellulose-rich solids and a liquid containing hemicellulose and lignin; and mechanically treating the cellulose-rich solids to form nanofibrils and/or nanocrystals. The total mechanical energy may be less than 500 kilowatt-hours per ton. The crystallinity of the nanocellulose material may be 80% or higher, translating into good reinforcing properties for composites. The nanocellulose material may include nanofibrillated cellulose, nanocrystalline cellulose, or both. In some embodiments, the nanocellulose material is hydrophobic via deposition of some lignin onto the cellulose surface. Optionally, sugars derived from amorphous cellulose and hemicellulose may be separately fermented, such as to monomers for various polymers. These polymers may be combined with the nanocellulose to form completely renewable composites. | 06-05-2014 |
20140182582 | PROCESSES FOR MAKING CELLULOSE WITH VERY LOW LIGNIN CONTENT FOR GLUCOSE, HIGH-PURITY CELLULOSE, OR CELLULOSE DERIVATIVES - In some variations, the invention provides a process for producing purified cellulose, comprising: providing a feedstock comprising lignocellulosic biomass; contacting the feedstock with sulfur dioxide, water, and a solvent for lignin, to produce intermediate solids and a liquid phase comprising hemicelluloses and lignin; mildly bleaching the intermediate solids to further delignify the intermediate solids, thereby generating cellulose-rich solids; and washing the cellulose-rich solids to generate purified cellulose with less than 2 weight percent lignin. The bleaching may employ bleaching agents including lignin-modifying enzymes. The bleaching and washing steps may be combined. It is also possible to carry out bleaching prior to, or simultaneously with, biomass fractionation in the digestor, which may help reduce downstream lignin precipitation. The purified cellulose may be utilized for making cellulose materials or cellulose derivatives, or for hydrolysis to produce glucose. | 07-03-2014 |
20140186898 | PROCESSES FOR FRACTIONATING WHOLE PLANTS TO PRODUCE FERMENTABLE SUGARS AND CO-PRODUCTS - The invention provides processes for producing fermentable sugars from whole biomass that includes cellulose, hemicellulose, lignin, and non-lignocellulosic sugars. Some variations fractionate the whole feedstock in the presence of sulfur dioxide, a solvent for lignin, and water, to produce a liquor containing hemicellulose, cellulose-rich solids, lignin, and the non-lignocellulosic sugars. After removing the cellulose-rich solids from the liquor, the hemicellulose is hydrolyzed to hemicellulosic monomers; the cellulose-rich solids are hydrolyzed to glucose; and the hemicellulosic monomers, the glucose, and the non-lignocellulosic sugars are all recovered (separately or in combination) as fermentable sugars. The whole biomass feedstock may be selected from sugarcane, energy cane, corn, wheat, rice, sugar beets, energy beets, etc. Typical non-lignocellulosic sugars are sucrose or starch, which may be converted to monomer sugars during initial fractionation. The invention provides a convenient biorefining system, avoiding expensive logistics associated with separating agricultural residues at harvest or following transportation. | 07-03-2014 |
20140186903 | PROCESSES AND APPARATUS FOR PRODUCING FURFURAL, LEVULINIC ACID, AND OTHER SUGAR-DERIVED PRODUCTS FROM BIOMASS - In some variations, the invention provides a process for producing furfural, 5-hydroxymethylfurfural, and/or levulinic acid from cellulosic biomass, comprising: fractionating the feedstock in the presence of a solvent for lignin, sulfur dioxide, and water, to produce a liquor containing hemicellulose, cellulose-rich solids, and lignin; hydrolyzing the hemicellulose contained in the liquor, to produce hemicellulosic monomers; dehydrating the hemicellulose to convert at least a portion of C | 07-03-2014 |
20140308720 | PROCESSES FOR PRODUCING LEVULINIC ACID FROM BIOMASS - This invention provides processes to convert biomass, including wood and agricultural residues, to levulinic acid and co-products. Some variations treat feedstock with steam and/or hot water to produce an extract liquor containing hemicellulosic oligomers, lignin, and cellulose-rich solids, wherein the hemicellulosic oligomers comprise C | 10-16-2014 |
20150079639 | PROCESSES AND APPARATUS FOR REFINING SUGARCANE TO PRODUCE SUGARS, BIOFUELS, AND/OR BIOCHEMICALS - Conventionally, sugarcane processing avoids leaving residual sucrose in the bagasse, since the bagasse will be burned and the value of the sucrose would be lost. However, when coupled with a Green Power+® process to extract hemicelluloses, sucrose may also be extracted and recovered from the bagasse. In some variations, a process includes mechanically treating a feedstock to generate a sucrose-rich stream and lignocellulosic material that intentionally retains a significant amount of the initial sucrose in the feedstock; extracting the lignocellulosic material with steam and/or hot water to produce cellulose-rich solids and an extract liquor containing hemicellulosic oligomers and sucrose; and then hydrolyzing the hemicellulosic oligomers into a hemicellulose sugar stream. Each of the sucrose-rich stream and the hemicellulose sugar stream (containing the starting residual sucrose) may be recovered or further processed (e.g., fermented to ethanol). Similar processes are possible with energy cane, sugar beets, and energy beets. | 03-19-2015 |