Patent application number | Description | Published |
20110049384 | Imaging Systems Featuring Waveguiding Compensation - In certain embodiments, the invention relates to systems and methods for altering an image to compensate for variation in one or more physical and/or supervenient properties (e.g., optical absorption and/or scattering) in heterogeneous, diffuse tissue, thereby attenuating the effects of tissue waveguiding. The methods enable the proper identification of emission image regions that evidence waveguiding of electromagnetic radiation, and enables compensation of emission images for such waveguiding. The methods preserve the depth localization accuracy of the FMT approach and improve optical reconstruction in the targeted areas while eliminating spurious components of fluorescence from the acquired data set. Calibration methods for probe concentration mapping are also presented. | 03-03-2011 |
20110060211 | SYSTEMS AND METHODS FOR TOMOGRAPHIC IMAGING IN DIFFUSE MEDIA USING A HYBRID INVERSION TECHNIQUE - The invention relates to systems and methods for tomographic imaging in diffuse media employing a fast reconstruction technique. A hybrid Fourier approach is presented that enables the fast tomographic reconstruction of large datasets. In certain embodiments, the invention features methods of in vivo fluorescence molecular tomographic (FMT) reconstruction of signals, reporters and/or agents (i.e., contrast agents or probes) in a diffusive medium (e.g., a mammalian subject). The method preserves the three-dimensional fluorophore distribution and quantitative nature of the FMT approach while substantially accelerating its computation speed, allowing FMT imaging of larger anatomies. | 03-10-2011 |
20110184277 | SYSTEMS AND METHODS FOR VIRTUAL INDEX-MATCHING OF DIFFUSIVE MEDIA - The invention relates to systems and methods for tomographic imaging of a subject comprising diffuse media by converting measurements of electromagnetic radiation, e.g., fluorescent light, obtained in free space exterior to the subject into data that would be measured if the subject were surrounded by an infinite and homogeneous diffusive medium, e.g., a medium with optical properties equal to the average optical properties of the subject. After applying a transformation to convert measurements to virtually-matched values, propagation of light is simulated from the index-matched surface to a set of virtual detectors exterior to the subject and arranged in a geometrically advantageous fashion, for example, in a planar array, thereby facilitating the use of fast reconstruction techniques. | 07-28-2011 |
20130281842 | SYSTEMS AND METHODS FOR VIRTUAL INDEX-MATCHING OF DIFFUSIVE MEDIA - The invention relates to systems and methods for tomographic imaging of a subject comprising diffuse media by converting measurements of electromagnetic radiation, e.g., fluorescent light, obtained in free space exterior to the subject into data that would be measured if the subject were surrounded by an infinite and homogeneous diffusive medium, e.g., a medium with optical properties equal to the average optical properties of the subject. After applying a transformation to convert measurements to virtually-matched values, propagation of light is simulated from the index-matched surface to a set of virtual detectors exterior to the subject and arranged in a geometrically advantageous fashion, for example, in a planar array, thereby facilitating the use of fast reconstruction techniques. | 10-24-2013 |
20140003692 | IMAGING SYSTEMS FEATURING WAVEGUIDING COMPENSATION | 01-02-2014 |
20140105825 | Systems, Methods, and Apparatus for Imaging of Diffuse Media Featuring Cross-Modality Weighting of Fluorescent and Bioluminescent Sources - In certain embodiments, the invention relates to systems and methods for in vivo tomographic imaging of fluorescent probes and/or bioluminescent reporters, wherein a fluorescent probe and a bioluminescent reporter are spatially co-localized (e.g., located at distances equivalent to or smaller than the scattering mean free path of light) in a diffusive medium (e.g., biological tissue). Measurements obtained from bioluminescent and fluorescent modalities are combined per methods described herein. | 04-17-2014 |
20140243661 | Imaging Systems Featuring Waveguiding Compensation - In certain embodiments, the invention relates to systems and methods for altering an image to compensate for variation in one or more physical and/or supervenient properties (e.g., optical absorption and/or scattering) in heterogeneous, diffuse tissue, thereby attenuating the effects of tissue waveguiding. The methods enable the proper identification of emission image regions that evidence waveguiding of electromagnetic radiation, and enables compensation of emission images for such waveguiding. The methods preserve the depth localization accuracy of the FMT approach and improve optical reconstruction in the targeted areas while eliminating spurious components of fluorescence from the acquired data set. Calibration methods for probe concentration mapping are also presented. | 08-28-2014 |