Abstract: An automated method of particle analysis is performed using an electromagnetic radiation source for generating a beam of electromagnetic radiation, a focusing element for directing the beam to a particle capture zone, a detector configured to detect a signal response from the particle capture zone and a control system. An electromagnetic radiation beam is focused onto a particle-conveying medium to define the particle capture zone for capturing a candidate particle within the beam. A first data acquisition procedure is performed to test for particle capture. If particle capture is not detected, the first data acquisition procedure is repeated. If a particle capture is detected within the beam, a second data acquisition procedure is performed to capture particle data using at least one analysis modality, following which the optical beam intensity is reduced to a sub-capture level to release the particle from the particle capture zone.

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: 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: 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.