Patents by Inventor Alex Michael Margiott
Alex Michael Margiott 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).
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Publication number: 20240115172Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry measurements at a number of different tissue locations of a patient and average two or more of the oximetry measurements by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry measurements if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry measurements which are instantaneous measurement for patient tissue.Type: ApplicationFiled: December 19, 2023Publication date: April 11, 2024Inventors: Alex Michael Margiott, William Welch, Sushant Potdar
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Publication number: 20240065636Abstract: An oximeter probe that takes into account tissue color (e.g., skin color or melanin content) to improve accuracy when determining oxygen saturation of tissue. Light is transmitted from a light source into tissue having melanin (e.g., eumelanin or pheomelanin). Light reflected from the tissue is received by a detector. A compensation factor is determined to account for absorption due to the melanin. The oximeter uses this compensation factor and determines a melanin-corrected oxygen saturation value.Type: ApplicationFiled: November 6, 2023Publication date: February 29, 2024Inventors: Kate LeeAnn Bechtel, Kimberly Merritt Shultz, Alex Michael Margiott, George Edward Kechter
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Publication number: 20240057901Abstract: An oximeter device determines an oxygen saturation for the tissue and determines a quality value for the oxygen saturation and associated measurements of the tissue. The quality value is calculated from reflectance data received at the detectors of the oximeter device. An accelerometer of the oximeter device can detect movement of the oximeter device when oximetry measurements are made by the oximeter device. An amount of the movement is an indicator of a probe face of the oximeter device changing position with respect to the tissue when the measurements are made. The accelerometer information is used by the oximeter device to adjust the quality value to reflect the amount movement. The oxygen saturation and the adjusted quality metric value are displayed on a display of the oximeter device so that a user may view the quality of the displayed information.Type: ApplicationFiled: October 30, 2023Publication date: February 22, 2024Inventors: Alex Michael Margiott, Jordan Sweer, Kate LeeAnn Bechtel
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Patent number: 11844612Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry measurements at a number of different tissue locations of a patient and average two or more of the oximetry measurements by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry measurements if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry measurements which are instantaneous measurement for patient tissue.Type: GrantFiled: January 11, 2021Date of Patent: December 19, 2023Assignee: ViOptix, Inc.Inventors: Alex Michael Margiott, William Welch, Sushant Potdar
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Patent number: 11806170Abstract: An oximeter probe that takes into account tissue color (e.g., skin color or melanin content) to improve accuracy when determining oxygen saturation of tissue. Light is transmitted from a light source into tissue having melanin (e.g., eumelanin or pheomelanin). Light reflected from the tissue is received by a detector. A compensation factor is determined to account for absorption due to the melanin. The oximeter uses this compensation factor and determines a melanin-corrected oxygen saturation value.Type: GrantFiled: November 3, 2020Date of Patent: November 7, 2023Assignee: ViOptix, Inc.Inventors: Kate Leeann Bechtel, Kimberly Merritt Shultz, Alex Michael Margiott, George Edward Kechter
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Patent number: 11800999Abstract: An oximeter device determines an oxygen saturation for the tissue and determines a quality value for the oxygen saturation and associated measurements of the tissue. The quality value is calculated from reflectance data received at the detectors of the oximeter device. An accelerometer of the oximeter device can detect movement of the oximeter device when oximetry measurements are made by the oximeter device. An amount of the movement is an indicator of a probe face of the oximeter device changing position with respect to the tissue when the measurements are made. The accelerometer information is used by the oximeter device to adjust the quality value to reflect the amount movement. The oxygen saturation and the adjusted quality metric value are displayed on a display of the oximeter device so that a user may view the quality of the displayed information.Type: GrantFiled: January 11, 2021Date of Patent: October 31, 2023Assignee: ViOptix, Inc.Inventors: Alex Michael Margiott, Jordan Sweer, Kate LeeAnn Bechtel
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Publication number: 20230329598Abstract: A probe tip of an oximeter device includes first and second printed circuit boards (PCBs) that are coupled to the ends of optical fibers that transmit light between the PCBs and into patient tissue that is to be measured by the oximeter device. The PCBs are oriented at an angle between zero and ninety degrees so that the fibers have a curved shape between the locations at which the fibers are coupled to the first and second PCBs. The angular orientation of the PCBs and curved shape of the fibers allows the fibers to have a longer length than if the fibers were straight and allows for light transmitted through the fibers to have a uniform distribution across a cross-section of the fibers as the light is emitted from the fibers into patient tissue. The uniform distribution of light transmitted into patient tissue allows for reliable oximetry measurements.Type: ApplicationFiled: June 8, 2023Publication date: October 19, 2023Inventors: Kate LeeAnn Bechtel, Alex Michael Margiott, Jennifer Elizabeth Keating, Kimberly Merritt Shultz
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Publication number: 20230263437Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: August 24, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Publication number: 20230240568Abstract: An oximeter probe determines an oxygen saturation for the tissue and determines a quality value for the oxygen saturation and associated measurements of the tissue. The quality value is calculated from reflectance data received at the detectors of the oximeter probe. The oximeter probe then displays a value for the oxygen saturation with the error value to indicate a quality level for the oxygen saturation and associated values used to calculate oxygen saturation.Type: ApplicationFiled: February 24, 2023Publication date: August 3, 2023Inventors: Kate LeeAnn Bechtel, Alex Michael Margiott, Jennifer Elizabeth Keating, Kimberly Merritt Shultz, Scott E. Coleridge, Joseph Heanue
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Publication number: 20230233116Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: July 27, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Publication number: 20230225638Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: July 20, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Publication number: 20230225642Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: July 20, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Publication number: 20230225641Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: July 20, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Publication number: 20230225640Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry readings at a number of different tissue locations of a patient and average two or more of the oximetry readings by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry readings if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry readings which are instantaneous measurement for patient tissue.Type: ApplicationFiled: October 18, 2022Publication date: July 20, 2023Inventors: Alex Michael Margiott, William Welch, Sushant Potdar, Scott E. Coleridge
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Patent number: 11672448Abstract: A probe tip of an oximeter device includes first and second printed circuit boards (PCBs) that are coupled to the ends of optical fibers that transmit light between the PCBs and into patient tissue that is to be measured by the oximeter device. The PCBs are oriented at an angle between zero and ninety degrees so that the fibers have a curved shape between the locations at which the fibers are coupled to the first and second PCBs. The angular orientation of the PCBs and curved shape of the fibers allows the fibers to have a longer length than if the fibers were straight and allows for light transmitted through the fibers to have a uniform distribution across a cross-section of the fibers as the light is emitted from the fibers into patient tissue. The uniform distribution of light transmitted into patient tissue allows for reliable oximetry measurements.Type: GrantFiled: January 11, 2021Date of Patent: June 13, 2023Assignee: ViOptix, Inc.Inventors: Kate LeeAnn Bechtel, Alex Michael Margiott, Jennifer Elizabeth Keating, Kimberly Merritt Shultz
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Patent number: 11589784Abstract: An oximeter probe determines an oxygen saturation for the tissue and determines a quality value for the oxygen saturation and associated measurements of the tissue. The quality value is calculated from reflectance data received at the detectors of the oximeter probe. The oximeter probe then displays a value for the oxygen saturation with the error value to indicate a quality level for the oxygen saturation and associated values used to calculate oxygen saturation.Type: GrantFiled: September 29, 2020Date of Patent: February 28, 2023Assignee: ViOptix, Inc.Inventors: Kate LeeAnn Bechtel, Alex Michael Margiott, Jennifer Elizabeth Keating, Kimberly Merritt Shultz, Scott Coleridge, Joseph Heanue
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Publication number: 20210212610Abstract: An oximeter device determines an oxygen saturation for the tissue and determines a quality value for the oxygen saturation and associated measurements of the tissue. The quality value is calculated from reflectance data received at the detectors of the oximeter device. An accelerometer of the oximeter device can detect movement of the oximeter device when oximetry measurements are made by the oximeter device. An amount of the movement is an indicator of a probe face of the oximeter device changing position with respect to the tissue when the measurements are made. The accelerometer information is used by the oximeter device to adjust the quality value to reflect the amount movement. The oxygen saturation and the adjusted quality metric value are displayed on a display of the oximeter device so that a user may view the quality of the displayed information.Type: ApplicationFiled: January 11, 2021Publication date: July 15, 2021Inventors: Alex Michael Margiott, Jordan Sweer, Kate LeeAnn Bechtel
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Publication number: 20210212584Abstract: A method includes increasing or decreasing a temperature of an oximeter device by cycling oximetry measurements and temperature adjustment at a predetermined frequency. During temperature adjustment, power supplied to LEDs of the oximeter device may be modulated to heat or cool the oximeter device if the oximetry device is above a temperature setpoint or below the temperature setpoint. After the device is heated to the temperature setpoint an oximetry measurement is made using the LED to illuminate patient tissue, detected the light from the tissue after illumination, and determining oximetry information for the tissue. Using the LED for heating and oximetry measurements reduces electronic components of the device improves reliability from the reduction of electronic components. The device can also not power the LEDs to allow the device to cool if the temperature is above the temperature setpoint.Type: ApplicationFiled: January 11, 2021Publication date: July 15, 2021Inventors: Alex Michael Margiott, Roger Stenerson, Lawrence Smith
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Publication number: 20210212613Abstract: An oximetry device sealed in a sheath directs a user to allow the oximetry device to make oximetry measurements at a number of different tissue locations of a patient and average two or more of the oximetry measurements by directing the lifts and placements of the oximetry device and sheath to and from the different tissue locations and detecting the lift and placements. The averages are generated and displayed on a display of the device for the oximetry measurements if the lifts are made while use directions for the lifts are displayed on a display of the oximetry device. The averages are not generated if the lifts are not made while the user directions for the lifts are not displayed. The averages are simultaneously displayed with the oximetry measurements which are instantaneous measurement for patient tissue.Type: ApplicationFiled: January 11, 2021Publication date: July 15, 2021Inventors: Alex Michael Margiott, William Welch, Sushant Potdar
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Patent number: D936223Type: GrantFiled: January 9, 2020Date of Patent: November 16, 2021Assignee: ViOptix, Inc.Inventors: Stephen Matthew Kmak, Joseph G. Santiago, Alex Michael Margiott