Abstract: A method of evaluating a surgical margin of tumor tissues of a living subject includes acquiring images of a specimen of the tumor tissues; calculating a three-dimensional (3D) morphological surface of the specimen from the acquired images and displaying the 3D morphological surface; obtaining, from the 3D morphological surface, a plurality of specimen locations to cover a surface of the specimen; acquiring optical data at each specimen location; evaluating a margin status of the specimen at each specimen location to either positive or negative based on the acquired optical data; and displaying the margin status of the specimen on the 3D morphological surface of the specimen with morphological orientations.

Abstract: Apparatus and method for optical spectroscopy and/or imaging with a variable fiber offset. An optical probe includes one or more first optical fibers, one or more second optical fibers, and one or more actuators. The first optical fibers are to deliver light to an object. The second optical fibers are to collect light emitted from the object. The actuators are configured to change a distance between the first optical fibers and the second optical fiber while the object is being illuminated by light emitted from the first optical fibers.

Abstract: A method of evaluating a surgical margin of tumor tissues of a living subject includes acquiring images of a specimen of the tumor tissues; calculating a three-dimensional (3D) morphological surface of the specimen from the acquired images and displaying the 3D morphological surface; obtaining, from the 3D morphological surface, a plurality of specimen locations to cover a surface of the specimen; acquiring optical data at each specimen location; evaluating a margin status of the specimen at each specimen location to either positive or negative based on the acquired optical data; and displaying the margin status of the specimen on the 3D morphological surface of the specimen with morphological orientations.

Abstract: In one aspect, the present invention relates to a system evaluating a surgical margin of tumor tissues of a living subject. In one embodiment, the system includes a light source configured to emit a source light; at least one optical probe; a scanner; a spectrometer; and a controller coupled with the scanner and the spectrometer for operably controlling the scanner and the spectrometer. In operation, a working end of the optical probe is positioned proximate to a surface of a specimen of the tumor tissues. A source channel of the optical probe deliver the source light emitted by the light source from the working end to the surface of the specimen, and a plurality of collection channels collect from the working end diffused/reflected light generated from interaction of the source light with the specimen. The spectrometer receives the collected diffused/reflected light to evaluate a margin status of the specimen.

Abstract: Apparatus and method for optical spectroscopy and/or imaging with a variable fiber offset. An optical probe includes one or more first optical fibers, one or more second optical fibers, and one or more actuators. The first optical fibers are to deliver light to an object. The second optical fibers are to collect light emitted from the object. The actuators are configured to change a distance between the first optical fibers and the second optical fiber while the object is being illuminated by light emitted from the first optical fibers.

Abstract: In one aspect, the present invention relates to a system evaluating a surgical margin of tumor tissues of a living subject. In one embodiment, the system includes a light source configured to emit a source light; at least one optical probe; a scanner; a spectrometer; and a controller coupled with the scanner and the spectrometer for operably controlling the scanner and the spectrometer. In operation, a working end of the optical probe is positioned proximate to a surface of a specimen of the tumor tissues. A source channel of the optical probe deliver the source light emitted by the light source from the working end to the surface of the specimen, and a plurality of collection channels collect from the working end diffused/reflected light generated from interaction of the source light with the specimen. The spectrometer receives the collected diffused/reflected light to evaluate a margin status of the specimen.