Patent application number | Description | Published |
20120200694 | MULTI-MODALITY CONTRAST AND BRIGHTFIELD CONTEXT RENDERING FOR ENHANCED PATHOLOGY DETERMINATION AND MULTI-ANALYTE DETECTION IN TISSUE - Multiple modality contrast can be used to produce images that can be combined and rendered to produce images similar to those produced with wavelength absorbing stains viewed under transmitted white light illumination. Images obtained with other complementary contrast modalities can be presented using engineered color schemes based on classical contrast methods used to reveal the same anatomical structures and histochemistry, thereby providing relevance to medical training and experience. Dark-field contrast images derived from refractive index and fluorescent DAPI counterstain images are combined to produce images similar to those obtained with conventional H&E staining for pathology interpretation. Such multi-modal image data can be streamed for live navigation of histological samples, and can be combined with molecular localizations of genetic DNA probes (FISH), sites of mRNA expression (mRNA-ISH), and immunohistochemical (IHC) probes localized on the same tissue sections, used to evaluate and map tissue sections prepared for imaging mass spectrometry. | 08-09-2012 |
20120220672 | Presence of ERG Gene Rearrangements and Protein Over-expression in Low Grade PIN (LG-PIN) in Prostate Biopsies - The present disclosure relates to methods for the early detection of ERG over-expression, gene rearrangements, and diagnosis and/or prognosis of prostate cancer using a combined ERG IHC-FISH assay. | 08-30-2012 |
20130171642 | AUTOMATED ANALYSIS OF CIRCULATING TUMOR CELLS - The disclosure provides methods for automated characterization of circulating tumor cells (CTCs), for example using automated tissue strainers. In specific examples, such methods permit characterizing a prostate cancer sample by simultaneously or contemporaneously detecting ERG rearrangements and PTEN deletions in the same CTC. Also provided are kits that can be used with such methods. | 07-04-2013 |
20140252200 | POLYFOCAL INTERFEROMETRIC IMAGE ACQUISTION - A microscope-based system and method for simultaneous imaging of several object planes, of a three-dimensional (3D) sample, associated with different depths throughout the sample. The system includes a polyfocal optical portion, adapted to create a plurality of optical channels each of which is associated with an image of a corresponding object plane, and a spectrally-selective portion, adapted to transform the spectral distribution of the image-forming beam of light to a corresponding spatial distribution. The image, registered by a detector, includes an image of an object plane and an image of the spatially-coded spectral distribution. The method effectuates the simultaneous multispectral imaging of the several object planes. The required data-acquisition time is several fold shorter than that taken by a conventional multispectral microscope-based imaging system. | 09-11-2014 |
20140296088 | Spectral Imaging for Measurement of Nuclear Pathology Features in Cancer Cells Prepared for In Situ Analysis - In general, the presently disclosed technology relates to identification of cancer subtypes. More specifically, the technology relates to methods for determining molecular drivers of cancer and/or progression using a multivariate image data and statistical analysis of in-situ molecular markers and morphological characteristics in the same cells of a biological sample suspected of b cancer. This analysis takes place after a single acquisition that obtains the molecular and anatomic morphology data in parallel. The analysis compares specific morphological and molecular markers to known samples exhibiting particular genetic drivers of the cancer. This method provides statistical information that allows for an increased confidence in the identification of specific molecular drivers of the cancer. | 10-02-2014 |
20150197811 | Spectral Imaging for Measurement of Nuclear Pathology Features in Cancer Cells Prepared for In Situ Analysis - In general, the presently disclosed technology relates to identification of cancer subtypes. More specifically, the technology relates to methods for determining molecular drivers of cancer and/or progression using a multivariate image data and statistical analysis of in-situ molecular markers and morphological characteristics in the same cells of a biological sample suspected of b cancer. This analysis takes place after a single acquisition that obtains the molecular and anatomic morphology data in parallel. The analysis compares specific morphological and molecular markers to known samples exhibiting particular genetic drivers of the cancer. This method provides statistical information that allows for an increased confidence in the identification of specific molecular drivers of the cancer. | 07-16-2015 |
20150369664 | SYSTEMS AND METHODS FOR CALIBRATING, CONFIGURING AND VALIDATING AN IMAGING DEVICE OR SYSTEM FOR MULTIPLEX TISSUE ASSAYS - A system and method for characterization and/or calibration of performance of a multispectral imaging (MSI) system equipping the MSI system for use with a multitude of different fluorescent specimens while being independent on optical characteristics of a specified specimen and providing an integrated system level test for the MSI system. A system and method are adapted to additionally evaluate and express operational parameters performance of the MSI system in terms of standardized units and/or to determine the acceptable detection range of the MSI system. | 12-24-2015 |