Patent application number | Description | Published |
20080199948 | SYSTEM FOR DETECTING INFECTIOUS AGENTS USING COMPUTER-CONTROLLED AUTOMATED IMAGE ANALYSIS - A method for recognizing an object in an image is disclosed wherein a fractal map of the image is generated by estimating the fractal dimension of each pixel in the image. The fractal map may be segmented by thresholding and locations of candidate objects are determined. The pixel value of the image pixel corresponding to the same location where the candidate object is found in the fractal map may be compared to a threshold value. If the pixel value is greater than the threshold value, the candidate object is recognized as a valid object. | 08-21-2008 |
20080206774 | AUTOMATED CANCER DIAGNOSTIC METHODS USING FISH - In various embodiments methods for automated screening for gene amplification in biological tissue samples using an automated fluorescence microscope to analyze fluorescence in situ hybridized samples are provided. Various additional embodiments provide methods of high throughput screening for gene amplification. | 08-28-2008 |
20080213769 | Automated Method for Detecting Cancers and High Grade Hyperplasias - Automated methods for detecting cancer and related hyperplasias in biological samples. | 09-04-2008 |
20080213902 | Slide Holder for Staining Procedures - Improvements in FISH staining employing a microscope slide holder which allows for batch processing of slides in the hybridization process. | 09-04-2008 |
20080268456 | METHOD FOR DETECTING AND QUANTITATING MULTIPLE-SUBCELLULAR COMPONENTS - A method for detecting and quantitating multiple and unique fluorescent signals from a cell sample is provided. The method combines immunohistochemistry and a fluorescent-labeled in situ hybridization techniques. The method is useful for identifying specific subcellular components of cells such as chromosomes and proteins. | 10-30-2008 |
20080285837 | Method for Detecting and Quantitating Multiple-Subcellular Components - A method for detecting and quantitating multiple and unique fluorescent signals from a cell sample is provided. The method combines immunohistochemistry and a fluorescent-labeled in situ hybridization techniques. The method is useful for identifying specific subcellular components of cells such as chromosomes and proteins. | 11-20-2008 |
20080317566 | Automated Cassette and Slide Handling System for an Automatic Microscope - An automated cassette and slide handling system is disclosed which organizes microscope slides in cassettes, automatically and sequentially removes individual slides from their respective cassettes, positioned each slide under the microscope as provided by the protocol, and after examination returns the slide to its proper cassette. | 12-25-2008 |
20090111101 | Automated Cancer Diagnostic Methods Using FISH - In various embodiments methods for automated screening for gene amplification in biological tissue samples using an automated fluorescence microscope to analyze fluorescence in situ hybridized samples are provided. Various additional embodiments provide methods of high throughput screening for gene amplification. | 04-30-2009 |
20090116101 | MICROSCOPE ENCLOSURE SYSTEM - A light-tight enclosure system for housing an automated microscope. | 05-07-2009 |
20090123054 | DETECTION OF CIRCULATING TUMOR CELLS IN PERIPHERAL BLOOD WITH AN AUTOMATED SCANNING FLUORESCENCE MICROSCOPE - An automated, highly sensitive, specific and potentially quantitative detection method using an automated microscope for identifying and enumerating rare cancer cells in blood and other fluids. | 05-14-2009 |
20090208965 | AUTOMATED METHOD FOR DETECTING CANCERS AND HIGH GRADE HYPERPLASIAS - Automated methods for detecting cancer and related hyperplasias in biological samples. | 08-20-2009 |
20090250629 | Methods for Detecting Fluorescent Signals in a Biological Sample - Operational means for automatic microscopic detection and analysis of fluorescent signals from a treated biological sample. | 10-08-2009 |
20090253145 | METHOD FOR DETECTING AND QUANTITATING MULTIPLE SUBCELLULAR COMPONENTS - A method for detecting and quantitating multiple and unique fluorescent signals from a cell sample is provided. The method combines immunohistochemistry and a fluorescent-labeled in situ hybridization techniques. The method is useful for identifying specific subcellular components of cells such as chromosomes and proteins. | 10-08-2009 |
20090280496 | NON-INVASIVE METHOD FOR DIAGNOSING FETAL CELLS AND CANCER CELLS - A non-invasive method for determining the developmental age of a fetus or detecting cancer cells in a sample is provided. The method utilizes, for example, a sample of blood from a pregnant female and telomeric nucleic acid probes. | 11-12-2009 |
20100203527 | Process for identifying fish signals - Among embodiments is disclosed a process for immunostaining a sample such that the stain is stable under FISH conditions. | 08-12-2010 |
20100322064 | METHOD FOR DETECTING FLUORESCENT SIGNALS IN A BIOLOGICAL SAMPLE - A method for automated microscopic analysis wherein the test protocol is obtained from interrogatable data affixed to each microscope slide. The method further comprises the algorithms that implement the test protocol. | 12-23-2010 |
20110079640 | METHODS FOR DETECTING FLUORESCENT SIGNALS IN A BIOLOGICAL SAMPLE - A method for automated microscopic analysis wherein the test protocol is obtained from interrogatable data affixed to each microscope slide. The method further comprises the algorithms that implement the test protocol. | 04-07-2011 |
20110122492 | CUSTOM FILTRATION SLIDE AND FILTRATION APPARATUS AND METHOD - An filter, apparatus and method for preparing microscope slides is presented. After filtration of the specimen is performed, the filter containing the filtrand is configured to be microscopically examined. The filter may either be affixed to a microscope slide or, in an embodiment, the filter may be incorporated into a microscope slide. | 05-26-2011 |
20110129138 | SYSTEM FOR DETECTING INFECTIOUS AGENTS USING COMPUTER-CONTROLLED AUTOMATED IMAGE ANALYSIS - A method for recognizing an object in an image is disclosed wherein a fractal map of the image is generated by estimating the fractal dimension of each pixel in the image. The fractal map may be segmented by thresholding and locations of candidate objects are determined. The pixel value of the image pixel corresponding to the same location where the candidate object is found in the fractal map may be compared to a threshold value. If the pixel value is greater than the threshold value, the candidate object is recognized as a valid object. | 06-02-2011 |
20120020542 | SYSTEM FOR DETECTING INFECTIOUS AGENTS USING COMPUTER-CONTROLLED AUTOMATED IMAGE ANALYSIS - A method for providing quantitative information regarding the extent of infection of host cells by an infectious agent. A microscope image of a specimen of a bodily fluid is analyzed using image processing techniques to quantify the percentage of the area of the specimen that is infected. | 01-26-2012 |
20120075453 | Method for Detecting and Quantitating Multiple-Subcellular Components - A method for detecting and quantitating multiple and unique fluorescent signals from a cell sample is provided. The method combines immunohistochemistry and a fluorescent-labeled in situ hybridization techniques. The method is useful for identifying specific subcellular components of cells such as chromosomes and proteins. | 03-29-2012 |
20120094868 | DETECTION OF CIRCULATING TUMOR CELLS IN PERIPHERAL BLOOD WITH AN AUTOMATED SCANNING FLUORESCENCE MICROSCOPE - An automated, highly sensitive, specific and potentially quantitative detection method using an automated microscope for identifying and enumerating rare cancer cells in blood and other fluids. | 04-19-2012 |
20130078636 | METHOD FOR DETECTING AND QUANTITATING MULTIPLE SUBCELLULAR COMPONENTS - A method for detecting and quantitating multiple and unique fluorescent signals from a cell sample is provided. The method combines immunohistochemistry and a fluorescent-labeled in situ hybridization techniques. The method is useful for identifying specific subcellular components of cells such as chromosomes and proteins. | 03-28-2013 |
20130109014 | AUTOMATIC SYSTEM FOR DETECTION AND IDENTIFICATION OF ISOLATED CELLS FROM BLOOD OR TISSUE | 05-02-2013 |
20130163845 | System For Detecting Infectious Agents Using Computer-Controlled Automated Image Analysis - A method for providing quantitative information regarding the extent of infection of host cells by an infectious agent. A microscope image of a specimen of a bodily fluid is analyzed using image processing techniques to quantify the percentage of the area of the specimen that is infected. | 06-27-2013 |
20140221227 | AUTOMATED CANCER DIAGNOSTIC METHODS USING FISH - In various embodiments methods for automated screening for gene amplification in biological tissue samples using an automated fluorescence microscope to analyze fluorescence in situ hybridized samples are provided. Various additional embodiments provide methods of high throughput screening for gene amplification. | 08-07-2014 |