Patents by Inventor James Cupp

James Cupp 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).

  • Patent number: 12514478
    Abstract: An electrode assembly (preferably in the form of a nerve cuff) comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or can comprise multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires, which are in electrical communication with the each of the foils, extend from the nerve cuff and are adapted to be electrically connected to a signal monitor. When the nerve cuff is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the nerve cuff to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Grant
    Filed: May 29, 2025
    Date of Patent: January 6, 2026
    Assignee: RETROPSOAS TECHNOLOGIES, LLC
    Inventors: Nicholas Poulos, James Cupp
  • Publication number: 20250288236
    Abstract: An electrode assembly (preferably in the form of a nerve cuff) comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or can comprise multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires, which are in electrical communication with the each of the foils, extend from the nerve cuff and are adapted to be electrically connected to a signal monitor. When the nerve cuff is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the nerve cuff to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Application
    Filed: May 29, 2025
    Publication date: September 18, 2025
    Inventors: Nicholas POULOS, James CUPP
  • Publication number: 20250288797
    Abstract: An electrode assembly comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires electrically connect the foils electrically to a signal monitor. When the electrode assembly is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the electrode assembly to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Application
    Filed: May 30, 2025
    Publication date: September 18, 2025
    Inventors: Nicholas POULOS, James CUPP
  • Publication number: 20250204843
    Abstract: An electrode assembly (preferably in the form of a nerve cuff) comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or can comprise multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires, which are in electrical communication with the each of the foils, extend from the nerve cuff and are adapted to be electrically connected to a signal monitor. When the nerve cuff is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the nerve cuff to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Application
    Filed: March 17, 2025
    Publication date: June 26, 2025
    Inventors: Nicholas POULOS, James CUPP
  • Patent number: 12167915
    Abstract: An electrode assembly (preferably in the form of a nerve cuff) comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or can comprise multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires, which are in electrical communication with the each of the foils, extend from the nerve cuff and are adapted to be electrically connected to a signal monitor. When the nerve cuff is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the nerve cuff to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Grant
    Filed: April 30, 2024
    Date of Patent: December 17, 2024
    Assignee: Retropsoas Technologies, LLC
    Inventors: Nicholas Poulos, James Cupp
  • Publication number: 20240350064
    Abstract: An electrode assembly (preferably in the form of a nerve cuff) comprises a base with first and second arms extending from opposite sides of the base, and which, in combination, define an arc. First and second electrically conductive electrodes extend along the inner surface of the first and second arms. Each electrode can comprise a single length of foil can or can comprise multiple discrete foil segments. The foils are electrically isolated from each other. Electrical wires, which are in electrical communication with the each of the foils, extend from the nerve cuff and are adapted to be electrically connected to a signal monitor. When the nerve cuff is applied to a nerve, the foils, in combination, substantially surround the nerve, with the first and second electrodes being on opposite sides of the nerve from each other. Also disclosed is a method of using the nerve cuff to monitor a nerve during a lumbar spinal surgery while the patient is anesthetized and paralyzed.
    Type: Application
    Filed: April 30, 2024
    Publication date: October 24, 2024
    Inventors: Nicholas POULOS, James CUPP
  • Patent number: 6219565
    Abstract: Disclosed is a probe 2 suitable for use in the non-invasive sensing of glucose concentrations in the body of a patient. The probe 2 includes at least three radiation receiving fibers 16 extending between a probe body 12 and a spectrograph 8, and spaced apart from each other in a substantially uniform manner and aligned in a predetermined fixed pattern at the probe body 12. A radiation transmitting means 10 conducts radiation from a radiation source 4 and extends from the radiation source 4 to the probe body 12. The radiation transmitting means 10 is formed in the probe 2 into ring means for conducting radiation in a ring-shaped area immediately surrounding each of said receiving fibers 16. The radiation transmitting means 10 and the receiving fibers 16 terminate at the probe body 12 in a unitary structure having an outer surface configured for contacting the skin of a patient.
    Type: Grant
    Filed: December 3, 1998
    Date of Patent: April 17, 2001
    Assignee: Diasense, Inc.
    Inventors: James Cupp, Raymond Fowler