Abstract: The current invention pertains to a system and methods of identifying a site in a tissue of a patient as neoplastic or normal. The system comprises a source of electromagnetic signals; an optical probe which delivers the electromagnetic signals to a working end of the probe; a spectrometer which acquires diffuse reflectance electromagnetic signals returned from the site probed by the optical probe. The spectrometer processes the diffuse reflectance signals to produce a diffuse reflectance spectra which is transmitted to a system controller programmed to analyze the diffuse reflectance spectra to calculate hemoglobin concentration, hemoglobin oxygenation, and/or diffuse reflectance intensity of signals having wavelength of about 700 nm. These parameters are used to identify the site as neoplastic or normal. The system of current invention can be used in identifying neoplastic sites in brain in an intraoperative manner, for example, during a pediatric brain surgery.

Abstract: Methods and systems that detect and differentiate epileptogenic from eloquent and normal cortices are provided. A method for identifying epileptogenic cortices in a brain may include detecting areas in the brain that are undergoing cerebral blood volume low frequency oscillations, detecting areas in the brain that are undergoing blood oxygenation low frequency oscillations; mapping clusters of the brain in which the cerebral blood volume low frequency oscillations are negatively correlated with the blood oxygenation low frequency oscillations, and analyzing the time based relationship between the clusters of the brain that are undergoing negatively correlated low frequency oscillations to determine cause areas, which are areas of the brain that are causing negatively correlated low frequency oscillations to occur elsewhere.

Abstract: The current invention pertains to a system and methods of identifying a site in a tissue of a patient as neoplastic or normal. The system comprises a source of electromagnetic signals; an optical probe which delivers the electromagnetic signals to a working end of the probe; a spectrometer which acquires diffuse reflectance electromagnetic signals returned from the site probed by the optical probe. The spectrometer processes the diffuse reflectance signals to produce a diffuse reflectance spectra which is transmitted to a system controller programmed to analyze the diffuse reflectance spectra to calculate hemoglobin concentration, hemoglobin oxygenation, and/or diffuse reflectance intensity of signals having wavelength of about 700 nm. These parameters are used to identify the site as neoplastic or normal. The system of current invention can be used in identifying neoplastic sites in brain in an intraoperative manner, for example, during a pediatric brain surgery.

Abstract: Methods and systems that detect and differentiate epileptogenic from eloquent and normal cortices are provided. A method for identifying epileptogenic cortices in a brain may include detecting areas in the brain that are undergoing cerebral blood volume low frequency oscillations, detecting areas in the brain that are undergoing blood oxygenation low frequency oscillations; mapping clusters of the brain in which the cerebral blood volume low frequency oscillations are negatively correlated with the blood oxygenation low frequency oscillations, and analyzing the time based relationship between the clusters of the brain that are undergoing negatively correlated low frequency oscillations to determine cause areas, which are areas of the brain that are causing negatively correlated low frequency oscillations to occur elsewhere.

Abstract: The current invention pertains to a system and methods of identifying a site in a tissue of a patient as neoplastic or normal. The system comprises a source of electromagnetic signals; an optical probe which delivers the electromagnetic signals to a working end of the probe; a spectrometer which acquires diffuse reflectance electromagnetic signals returned from the site probed by the optical probe. The spectrometer processes the diffuse reflectance signals to produce a diffuse reflectance spectra which is transmitted to a system controller programmed to analyze the diffuse reflectance spectra to calculate hemoglobin concentration, hemoglobin oxygenation, and/or diffuse reflectance intensity of signals having wavelength of about 700 nm. These parameters are used to identify the site as neoplastic or normal. The system of current invention can be used in identifying neoplastic sites in brain in an intraoperative manner, for example, during a pediatric brain surgery.