Patents by Inventor Blair Simon

Blair Simon 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: 20250160727
    Abstract: A method for simultaneously detecting scattered light, deflected light, or a combination thereof from a target in a subject at a plurality of locations, the method including: placing a sensor head on the subject proximal the target, the sensor head including: a housing; an illumination output coupled to an illumination source; a plurality of light collection units each comprising one or more polished ends of one or more respective optical fibers, each light collection unit disposed at a respective predetermined radial distance from the illumination output; wherein a number of polished ends in each light collection unit corresponds to the respective predetermined radial distance; generating, with the illumination source, the light energy; collecting, with at least one of the light collection units, at least one of scattered light and/or refracted light to provide collected light; and passing at least a portion of the collected light through a spectrometer.
    Type: Application
    Filed: January 23, 2025
    Publication date: May 22, 2025
    Inventors: David Bannon, Domhnull Granquist-Fraser, Paul Bartel, Kevin Didona, Carson Roberts, Blair Simon
  • Patent number: 12295737
    Abstract: A device and system for non-invasively measuring wavelength-dependent changes in optical absorption of brain tissue damaged by CTE, TBI, concussion, repetitive trauma, and/or Lou Gehrig's disease in comparison to signals from healthy normal tissue for a subject in vivo. The brain, tissues, and fluids superficial to the brain are trans-cranially illuminated by light source(s) in low-absorption spectral windows for tissue in the visible and/or near-infrared parts of the spectrum. Optode(s) are disposed at predetermined radial distance(s) from a light output to collect the scattered and/or deflected signal from the surface of the head. The predetermined radial distance from the light output to the optode is correlated with the depth of tissue penetration for the light collected by the optode. A spectrometer and computer analyze the collected light for characteristic optical signatures of the brain tissue damage utilizing the absorbance and/or reflectance and/or transmission spectra generated as a result.
    Type: Grant
    Filed: February 28, 2023
    Date of Patent: May 13, 2025
    Assignee: Headwall Photonics, Inc.
    Inventors: David Bannon, Domhnull Granquist-Fraser, Paul Bartel, Kevin Didona, Carson Roberts, Blair Simon
  • Publication number: 20230200717
    Abstract: A device and system for non-invasively measuring wavelength-dependent changes in optical absorption of brain tissue damaged by CTE, TBI, concussion, repetitive trauma, and/or Lou Gehrig’s disease in comparison to signals from healthy normal tissue for a subject in vivo. The brain, tissues, and fluids superficial to the brain are trans-cranially illuminated by light source(s) in low-absorption spectral windows for tissue in the visible and/or near-infrared parts of the spectrum. Optode(s) are disposed at predetermined radial distance(s) from a light output to collect the scattered and/or deflected signal from the surface of the head. The predetermined radial distance from the light output to the optode is correlated with the depth of tissue penetration for the light collected by the optode. A spectrometer and computer analyze the collected light for characteristic optical signatures of the brain tissue damage utilizing the absorbance and/or reflectance and/or transmission spectra generated as a result.
    Type: Application
    Filed: February 28, 2023
    Publication date: June 29, 2023
    Inventors: David Bannon, Domhnull Granquist-Fraser, Paul Bartel, Kevin Didona, Carson Roberts, Blair Simon
  • Patent number: 11642070
    Abstract: A device and system for non-invasively measuring wavelength-dependent changes in optical absorption of brain tissue damaged by CTE, TBI, concussion, repetitive trauma, and/or Lou Gehrig's disease in comparison to signals from healthy normal tissue for a subject in vivo. The brain, tissues, and fluids superficial to the brain are trans-cranially illuminated by light source(s) in low-absorption spectral windows for tissue in the visible and/or near-infrared parts of the spectrum. Optode(s) are disposed at predetermined radial distance(s) from a light output to collect the scattered and/or deflected signal from the surface of the head. The predetermined radial distance from the light output to the optode is correlated with the depth of tissue penetration for the light collected by the optode. A spectrometer and computer analyze the collected light for characteristic optical signatures of the brain tissue damage utilizing the absorbance and/or reflectance and/or transmission spectra generated as a result.
    Type: Grant
    Filed: July 18, 2018
    Date of Patent: May 9, 2023
    Assignee: Headwall Photonics, Inc.
    Inventors: David Bannon, Domhnull Granquist-Fraser, Paul Bartel, Kevin Didona, Carson Roberts, Blair Simon
  • Publication number: 20190021646
    Abstract: A device and system for non-invasively measuring wavelength-dependent changes in optical absorption of brain tissue damaged by CTE, TBI, concussion, repetitive trauma, and/or Lou Gehrig's disease in comparison to signals from healthy normal tissue for a subject in vivo. The brain, tissues, and fluids superficial to the brain are trans-cranially illuminated by light source(s) in low-absorption spectral windows for tissue in the visible and/or near-infrared parts of the spectrum. Optode(s) are disposed at predetermined radial distance(s) from a light output to collect the scattered and/or deflected signal from the surface of the head. The predetermined radial distance from the light output to the optode is correlated with the depth of tissue penetration for the light collected by the optode. A spectrometer and computer analyze the collected light for characteristic optical signatures of the brain tissue damage utilizing the absorbance and/or reflectance and/or transmission spectra generated as a result.
    Type: Application
    Filed: July 18, 2018
    Publication date: January 24, 2019
    Inventors: David Bannon, Domhnull Granquist-Fraser, Paul Bartel, Kevin Didona, Carson Roberts, Blair Simon