Abstract: A system and method for non-invasively estimating an absolute blood flow of a vascular region in a subject using optical data are provided. In some aspects, the method includes acquiring optical data from the vascular region using one or more optical sensors placed about the subject, and determining, using the optical data, an index of blood flow and a blood volume associated with the vascular region. The method also includes computing a blood inflow and a blood outflow using the index of blood flow and the blood volume, and estimating an absolute blood flow using the blood inflow and blood outflow. The method further includes generating a report indicative of the absolute blood flow of the vascular region.

Abstract: Systems and methods for path length selected diffuse correlation spectroscopy (PLS-DCS) are disclosed. The systems and methods are suitable for measuring dynamics of a target medium. The systems and methods can utilize light sources having a coherence length that is shorter than a path length distribution of the target medium and can utilize a reference optical path to interferometrically detect PLS-DCS signals. The coherence length and reference path length can be selected to provide sensitivity to portions of the target medium that correspond to a desired path length distribution.

Abstract: A system and method for non-invasively estimating an absolute blood flow of a vascular region in a subject using optical data are provided. In some aspects, the method includes acquiring optical data from the vascular region using one or more optical sensors placed about the subject, and determining, using the optical data, an index of blood flow and a blood volume associated with the vascular region. The method also includes computing a blood inflow and a blood outflow using the index of blood flow and the blood volume, and estimating an absolute blood flow using the blood inflow and blood outflow. The method further includes generating a report indicative of the absolute blood flow of the vascular region.

Abstract: Systems and methods for path length selected diffuse correlation spectroscopy (PLS-DCS) are disclosed. The systems and methods are suitable for measuring dynamics of a target medium. The systems and methods can utilize light sources having a coherence length that is shorter than a path length distribution of the target medium and can utilize a reference optical path to interferometrically detect PLS-DCS signals. The coherence length and reference path length can be selected to provide sensitivity to portions of the target medium that correspond to a desired path length distribution.

Abstract: A system and method for non-invasively estimating an absolute blood flow of a vascular region in a subject using optical data are provided. In some aspects, the method includes acquiring optical data from the vascular region using one or more optical sensors placed about the subject, and determining, using the optical data, an index of blood flow and. a blood volume associated with the vascular region. The method also includes computing a blood inflow and a blood outflow using the index of blood flow and the blood volume, and estimating an absolute blood flow using the blood inflow and blood outflow. The method further includes generating a report indicative of the absolute blood flow of the vascular region.

Abstract: A system and method for non-invasively monitoring intracranial pressure are provided. In some aspects, the method comprises acquiring diffuse correlation spectroscopy data at a temporal resolution greater than a pulsatile frequency of cerebral blood flow of a subject using one or more optical sensors placed about a subject, and determining a pulsatile cerebral blood flow using the acquired data, The method also includes correlating the determined pulsatile cerebral blood flow with physiological data acquired from the subject, and estimating an intracranial pressure based on the correlation. The method further includes generating a report indicative of the estimated intracranial pressure.

Abstract: Systems and methods for path length selected diffuse correlation spectroscopy (PLS-DCS) are disclosed. The systems and methods are suitable for measuring dynamics of a target medium. The systems and methods can utilize light sources having a coherence length that is shorter than a path length distribution of the target medium and can utilize a reference optical path to interferometrically detect PLS-DCS signals. The coherence length and reference path length can be selected to provide sensitivity to portions of the target medium that correspond to a desired path length distribution.

Abstract: A system and method for non-invasively monitoring intracranial pressure are provided. In some aspects, the method comprises acquiring diffuse correlation spectroscopy data at a temporal resolution greater than a pulsatile frequency of cerebral blood flow of a subject using one or more optical sensors placed about a subject, and determining a pulsatile cerebral blood flow using the acquired data, The method also includes correlating the determined pulsatile cerebral blood flow with physiological data acquired from the subject, and estimating an intracranial pressure based on the correlation. The method further includes generating a report indicative of the estimated intracranial pressure.

Abstract: The present disclosure generally relates to improvements to systems and methods for measuring the dynamic properties of scattering particles within a medium, including fluid flow. Specifically, the present disclosure relates to systems and methods for time-resolved diffuse correlation spectroscopy. This disclosure provides systems and methods for determining dynamics in a target medium. The systems and methods can utilize time-resolved diffuse correlation spectroscopy.

Abstract: A system and method for non-invasively estimating an absolute blood flow of a vascular region in a subject using optical data are provided. In some aspects, the method includes acquiring optical data from the vascular region using one or more optical sensors placed about the subject, and determining, using the optical data, an index of blood flow and. a blood volume associated with the vascular region. The method also includes computing a blood inflow and a blood outflow using the index of blood flow and the blood volume, and estimating an absolute blood flow using the blood inflow and blood outflow. The method further includes generating a report indicative of the absolute blood flow of the vascular region.

Abstract: An optical probe comprising a light source providing a light that is directed along a first axis; a diffusive element positioned proximate to the light source to receive the light and to diffuse the light as it exits the diffusive element; and a directional optical element directing the light exiting the diffusive element along at least one of the first axis and a second axis generally perpendicular to the first axis to project the light out of the optical probe and onto a subject.

Abstract: Systems and methods for monitoring and/or controlling a brain state of a subject are provided. In certain embodiments, the method includes acquiring physiological data from sensors including electrophysiological sensors and optical sensors, assembling, using data from the electrophysiological sensors, a time-series signal indicative of a brain activity of the subject, and identifying, using the time-series signal, a burst suppression state described by a burst suppression period and a burst period. The method also includes computing, using data from the optical sensors, parameters associated with the burst suppression state, the parameters indicative of least one of a metabolic process and a hemodynamic process, and estimating, using the parameters, time-series signal, and burst period, a response function describing a time course of the parameters correlated with a burst during the burst suppression period.