Abstract: A method of identifying a thermally distinguishable region in a living body is disclosed. The method comprises determining transient thermal history of a surface of the living body, and estimating a location or presence of the thermally distinguishable region in the living body based on the transient thermal history.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A method of analyzing a thermal image of a body section is disclosed. The method comprises obtaining a thermospatial representation of the body section, calculating a surface integral of the thermal data over the surface, and determining the likelihood that a thermally distinguishable region is present in the body section, based on a value of the surface integral.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A system for providing information related to a tissue region of a patient is provided. The system includes a user interface configured for co-displaying medical imaging information of the tissue region and visible light information of the tissue region.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A method of analyzing a thermal image of a body section is disclosed. The method comprises obtaining a thermospatial representation of the body section, calculating a surface integral of the thermal data over the surface, and determining the likelihood that a thermally distinguishable region is present in the body section, based on a value of the surface integral.

Abstract: A method of obtaining imaging data from a tissue region is provided. The method is effected by associating imaging data with a surface contour of the tissue region and utilizing a model of contour changes in the tissue region to transform the data to reflect changes in the surface contour.

Abstract: A method of analyzing a thermal image of a body section is disclosed. The method comprises obtaining a thermospatial representation of the body section, calculating a surface integral of the thermal data over the surface, and determining the likelihood that a thermally distinguishable region is present in the body section, based on a value of the surface integral.

Abstract: A system for providing information related to a tissue region of a patient is provided. The system includes a user interface configured for co-displaying medical imaging information of the tissue region and visible light information of the tissue region.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A method of identifying a thermally distinguishable region in a living body is disclosed. The method comprises determining transient thermal history of a surface of the living body, and estimating a location or presence of the thermally distinguishable region in the living body based on the transient thermal history.

Abstract: A method of obtaining imaging data from a tissue region is provided. The method is effected by associating imaging data with a surface contour of the tissue region and utilizing a model of contour changes in the tissue region to transform the data to reflect changes in the surface contour.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A system for determining presence or absence of one or more thermally distinguishable objects in a living body is disclosed. The system comprises a combined image generator configured for combining non-thermographic three-dimensional data of a three-dimensional tissue region in the living body with thermographic two-dimensional data of the tissue region so as to generate three-dimensional temperature data associated with the three-dimensional tissue region. In a preferred embodiment the combined image generator comprises a computing device configured for calculating the location and/or orientation of the thermally distinguishable object in the three-dimensional tissue region, based on the three-dimensional temperature data.

Abstract: A system for determining presence or absence of one or more thermally distinguishable objects in a living body is disclosed. The system comprises a combined image generator configured for combining non-thermographic three-dimensional data of a three-dimensional tissue region in the living body with thermographic two-dimensional data of the tissue region so as to generate three-dimensional temperature data associated with the three-dimensional tissue region. In a preferred embodiment the combined image generator comprises a computing device configured for calculating the location and/or orientation of the thermally distinguishable object in the three-dimensional tissue region, based on the three-dimensional temperature data.