Patents by Inventor Christian Crouzet

Christian Crouzet has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20230363707
    Abstract: Provided herein are devices and related methods that may be used for a physiological examination. In one embodiment, a device that may be used for physiological examination comprising a detector with a slit aperture and a light source, so that the detector comprises a lens that enables a wider field of view but does not require an image to be in focus, in one embodiment, a method of diagnosing a disease in a subject through physiological examination using a device comprising a detector with a slit aperture and a plurality of light sources, including different wavelength LEDs and/or vertical-cavity surface-emitting lasers (VCSELs).
    Type: Application
    Filed: September 27, 2021
    Publication date: November 16, 2023
    Inventors: Cody Dunn, Bernard Choi, Christian Crouzet
  • Patent number: 11744491
    Abstract: The technology relates to medical devices for monitoring and assessing vascular health. In one embodiment, the technology is an apparatus that attaches to a subject's finger comprising a heating and cooling component, a coherent source, a temperature sensor, an image detector, and/or a component for data control and management. In another embodiment, there is a component that alters local blood flow in the subject, and laser speckle contrast and photoplethysmography (PPG) signals from the altered blood flow in the subject are compared to monitor the vascular health of the subject.
    Type: Grant
    Filed: May 13, 2020
    Date of Patent: September 5, 2023
    Assignee: The Regents of the University of California
    Inventors: Cody Dunn, Christian Crouzet, Bernard Choi
  • Publication number: 20220192919
    Abstract: A multimodal optical imaging platform is used to obtain cerebral perfusion-metabolism mismatch metrics for rapid assessment of acute brain injury, ongoing (real-time) feedback to optimize cardiopulmonary resuscitation to improve neurological outcome, and rapid prognosis of recovery. Light of several wavelengths and types is delivered to the tissue, which is then absorbed and scattered by tissue components such as blood and cellular components. Some of this light scatters back to the surface, where it is captured by a detector. The resulting data are processed to obtain blood flow and oxygenation parameters, as well as tissue scattering. These parameters are then combined to calculate metabolism and flow-metabolism coupling/decoupling metrics, which are used to determine ischemic damage, ongoing need for optimal blood flow and oxygenation, and to predict cerebral recovery in patients with acute brain injury during and immediately after cardiac arrest, stroke, traumatic brain injury, etc.
    Type: Application
    Filed: March 9, 2022
    Publication date: June 23, 2022
    Inventors: Robert H. Wilson, Christian Crouzet, Yama Akbari, Bernard Choi, Bruce J. Tromberg
  • Publication number: 20220079840
    Abstract: A multimodal optical imaging platform is used to obtain cerebral perfusion-metabolism mismatch metrics for rapid assessment of acute brain injury, ongoing (real-time) feedback to optimize cardiopulmonary resuscitation to improve neurological outcome, and rapid prognosis of recovery. Light of several wavelengths and types is delivered to the tissue, which is then absorbed and scattered by tissue components such as blood and cellular components. Some of this light scatters back to the surface, where it is captured by a detector. The resulting data are processed to obtain blood flow and oxygenation parameters, as well as tissue scattering. These parameters are then combined to calculate metabolism and flow-metabolism coupling/decoupling metrics, which are used to determine ischemic damage, ongoing need for optimal blood flow and oxygenation, and to predict cerebral recovery in patients with acute brain injury during and immediately after cardiac arrest, stroke, traumatic brain injury, etc.
    Type: Application
    Filed: November 24, 2021
    Publication date: March 17, 2022
    Inventors: Robert H. Wilson, Christian Crouzet, Yama Akbari, Bernard Choi, Bruce J. Tromberg
  • Publication number: 20220032074
    Abstract: Electrophysiologic biomarkers for prognostication of neurological outcome are described herein. An inverse correlation was found between timing of a cortical spreading depolarization (SD) wave and neurological outcome as tested at 24 hours post-CPR. Additionally, a minor image of this SD was identified as a “repolarization (RP) wave.” Quantifying features of SD and RP during cardiac arrest and cardiopulmonary resuscitation (CPR) provide important metrics for diagnosis and prognosis of neurological injury from hypoxia-ischemia and can serve as an early prognostication tool for predicting outcome at subsequent days after successful CPR. This discovery may also allow for novel therapeutic interventions to improve neurological recovery after hypoxia-ischemia insults.
    Type: Application
    Filed: September 23, 2019
    Publication date: February 3, 2022
    Inventors: Yama Akbari, Robert H. Wilson, Christian Crouzet, Bernard Choi, Bruce J. Tromberg
  • Publication number: 20210338092
    Abstract: A portable device for quantitative measurement of tissue autoregulation and neurovascular coupling via portable measurement of blood flow, oxygenation, metabolism, and/or EEG signals and methods for using said device. The device may comprise a body and a plurality of legs pivotably attached to the body. The plurality of legs may comprise at least one reference electrode leg and at least one measurement electrode leg for electrical measurement, and an optical detection fiber leg and at least one optical source fiber leg for optical blood flow, oxygenation, and metabolism measurement. The present invention is additionally directed to a portable device for blood flow measurement and therapeutic photobiomodulation. The device may comprise a body and a plurality of legs. The plurality of legs may comprise at least one optical detection fiber leg and at least one optical source fiber leg, and at least one leg for therapeutic photobiomodulation.
    Type: Application
    Filed: July 15, 2021
    Publication date: November 4, 2021
    Inventors: Yama Akbari, Robert H. Wilson, Christian Crouzet, Thomas Milner, Bernard Choi
  • Publication number: 20200367761
    Abstract: The present invention is directed to a portable device for quantitative measurement of tissue autoregulation and neurovascular coupling via portable measurement of blood flow, oxygenation, metabolism, and/or EEG signals and methods for using said device. The device may comprise a body and a plurality of legs pivotably attached to the body. The plurality of legs may comprise at least one reference electrode leg and at least one measurement electrode leg for electrical measurement, and an optical detection fiber leg and at least one optical source fiber leg for optical blood flow, oxygenation, and metabolism measurement. The present invention is additionally directed to a portable device for blood flow measurement and therapeutic photobiomodulation. The device may comprise a body and a plurality of legs. The plurality of legs may comprise at least one optical detection fiber leg and at least one optical source fiber leg, and at least one leg for therapeutic photobiomodulation.
    Type: Application
    Filed: August 4, 2020
    Publication date: November 26, 2020
    Inventors: Yama Akbari, Robert H. Wilson, Christian Crouzet, Thomas Milner, Bernard Choi
  • Publication number: 20200359948
    Abstract: The technology relates to medical devices for monitoring and assessing vascular health. In one embodiment, the technology is an apparatus that attaches to a subject's finger comprising a heating and cooling component, a coherent source, a temperature sensor, an image detector, and/or a component for data control and management. In another embodiment, there is a component that alters local blood flow in the subject, and laser speckle contrast and photoplethysmography (PPG) signals from the altered blood flow in the subject are compared to monitor the vascular health of the subject.
    Type: Application
    Filed: May 13, 2020
    Publication date: November 19, 2020
    Inventors: CODY DUNN, Christian Crouzet, Bernard Choi