Patents by Inventor Bryan Nowroozi
Bryan Nowroozi 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: 20260060582Abstract: Various packaging assemblies and methods for preserving sterility of a sensing device prior to insertion into a body cavity of a subject are described herein. Some implementations of a packaging assembly include: a bag comprising an interior, the bag at least partially comprising a transparent material; and a tray configured to be positioned within the interior of the bag and configured to retain and protect the sensing device, wherein the tray comprises an opening configured to allow a button of the sensing device to be engaged via a portion of the bag, thereby allowing the sensing device to be transitioned from a non-operational state to an operational state when retained by the tray and positioned within the interior of the bag. Such operational state can be one in which the sensing device can be wirelessly paired with a separate electronic device, for example, to enable wireless data transmission.Type: ApplicationFiled: September 3, 2025Publication date: March 5, 2026Inventors: Derek Herrera, Tracy Maahs, Peman Montazemi, Teresa Nguyen, Bryan Nowroozi, Hamed Shamkhalichenar, Kevin Arnal, Jordan Burich, Morgan Wendl
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Patent number: 12426817Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: GrantFiled: November 25, 2024Date of Patent: September 30, 2025Assignee: Bright Uro, Inc.Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Patent number: 12426818Abstract: Various packaging assemblies and methods for preserving sterility of a sensing device prior to insertion into a body cavity of a subject are described herein. Some implementations of a packaging assembly include: a bag comprising an interior, the bag at least partially comprising a transparent material; and a tray configured to be positioned within the interior of the bag and configured to retain and protect the sensing device, wherein the tray comprises an opening configured to allow a button of the sensing device to be engaged via a portion of the bag, thereby allowing the sensing device to be transitioned from a non-operational state to an operational state when retained by the tray and positioned within the interior of the bag. Such operational state can be one in which the sensing device can be wirelessly paired with a separate electronic device, for example, to enable wireless data transmission.Type: GrantFiled: December 3, 2024Date of Patent: September 30, 2025Assignee: Bright Uro, Inc.Inventors: Derek Herrera, Tracy Maahs, Peman Montazemi, Teresa Nguyen, Bryan Nowroozi, Hamed Shamkhalichenar, Kevin Arnal, Jordan Burich, Morgan Wendl
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Publication number: 20250090064Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: ApplicationFiled: November 25, 2024Publication date: March 20, 2025Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Publication number: 20250090065Abstract: Various packaging assemblies and methods for preserving sterility of a sensing device prior to insertion into a body cavity of a subject are described herein. Some implementations of a packaging assembly include: a bag comprising an interior, the bag at least partially comprising a transparent material; and a tray configured to be positioned within the interior of the bag and configured to retain and protect the sensing device, wherein the tray comprises an opening configured to allow a button of the sensing device to be engaged via a portion of the bag, thereby allowing the sensing device to be transitioned from a non-operational state to an operational state when retained by the tray and positioned within the interior of the bag. Such operational state can be one in which the sensing device can be wirelessly paired with a separate electronic device, for example, to enable wireless data transmission.Type: ApplicationFiled: December 3, 2024Publication date: March 20, 2025Inventors: Derek Herrera, Tracy Maahs, Peman Montazemi, Teresa Nguyen, Bryan Nowroozi, Hamed Shamkhalichenar, Kevin Arnal, Jordan Burich, Morgan Wendl
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Publication number: 20250072802Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: ApplicationFiled: October 25, 2024Publication date: March 6, 2025Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Patent number: 12186084Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: GrantFiled: June 10, 2024Date of Patent: January 7, 2025Assignee: Bright Uro, Inc.Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Patent number: 12161469Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: GrantFiled: June 10, 2024Date of Patent: December 10, 2024Assignee: Bright Uro, Inc.Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Publication number: 20240366133Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: ApplicationFiled: June 10, 2024Publication date: November 7, 2024Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Publication number: 20240324927Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: ApplicationFiled: June 10, 2024Publication date: October 3, 2024Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Patent number: 12036023Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: GrantFiled: September 28, 2023Date of Patent: July 16, 2024Assignee: Bright Uro, Inc.Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Publication number: 20240090811Abstract: A flexible sensor configured for use in a bladder is flexible and moveable from a first position in which it is configured to not be discharged from the bladder to a second position in which it is configured to be inserted into the bladder. A sensor insertion tool includes an over sheath, a push rod configured to be inserted into a first lumen of the over sheath. The flexible sensor is positioned in the first lumen of the over sheath, the push rod is then inserted partially into the over sheath behind the flexible sensor. The sensor insertion tool is then positioned at a location, such as the opening to the bladder, in which the sensor is to be deployed.Type: ApplicationFiled: September 28, 2023Publication date: March 21, 2024Inventors: Derek Herrera, Bryan Nowroozi, Peman Montazemi, Hamed Shamkhalichenar, Kevin Arnal, Morgan Wendl, Jordan Burich
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Patent number: 11660012Abstract: Systems, methods and apparatuses for performing wound analysis using THz imaging are provided. Due to the large complex component of water's dielectric constant in the THz regime, and the relative frequency invariance of non-aqueous tissue constituents, this modality is highly sensitive to the water content of tissue. It has been found that using THz imaging turns the presence of edema into a contrast mechanism, and allows for the use of the spatial distributions of edema to assess wound status immediately. Apparatus and methods enable earlier diagnosis of wound status which could result in accelerated treatment and shorter overall hospital stays.Type: GrantFiled: April 17, 2017Date of Patent: May 30, 2023Assignee: The Regents of the University of CaliforniaInventors: Bryan Nowroozi, Warren S. Grundfest, Zachary Taylor, James Garritano, Priyamvada Tewari, Shijun Sung, Neha Bajwa
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Patent number: 10939844Abstract: Methods and apparatus for corneal imaging and sensing are provided. Apparatus capable of utilizing single or multiple frequency emissions at terahertz (THz) wavelengths to create reflectivity maps of the cornea in either a contact or non-contact modes are also provided. Methods of obtaining data from THz imaging and sensing apparatus about the corneal tissue-aqueous humor system, including information about the corneal tissue water content (CTWC) and/or the central corneal thickness (CCT) are likewise provided. Methodologies may use multiple transfer functions (frequencies) in obtaining simultaneous data about CTWC and CCT. Methods using frequency sweeping to allow for determination of CTWC and CCT may also be utilized. Methods may also be used to assess CTWC using multiple bandwidths at the same frequency, or multiple frequencies at the same bandwidth. Methods may use data from CTWC measurements to aid in the diagnosis of various corneal and brain disorders.Type: GrantFiled: April 17, 2017Date of Patent: March 9, 2021Assignee: The Regents of the University of CaliforniaInventors: Warren S. Grundfest, Zachary Taylor, James Garritano, Bryan Nowroozi, Neha Bajwa, Shijun Sung
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Publication number: 20190117109Abstract: Methods and apparatus for corneal imaging and sensing are provided. Apparatus capable of utilizing single or multiple frequency emissions at terahertz (THz) wavelengths to create reflectivity maps of the cornea in either a contact or non-contact modes are also provided. Methods of obtaining data from THz imaging and sensing apparatus about the corneal tissue-aqueous humor system, including information about the corneal tissue water content (CTWC) and/or the central corneal thickness (CCT) are likewise provided. Methodologies may use multiple transfer functions (frequencies) in obtaining simultaneous data about CTWC and CCT. Methods using frequency sweeping to allow for determination of CTWC and CCT may also be utilized. Methods may also be used to assess CTWC using multiple bandwidths at the same frequency, or multiple frequencies at the same bandwidth. Methods may use data from CTWC measurements to aid in the diagnosis of various corneal and brain disorders.Type: ApplicationFiled: April 17, 2017Publication date: April 25, 2019Applicant: The Regents of the University of CaliforniaInventors: Warren S. Grundfest, Zachary Taylor, James Garritano, Bryan Nowroozi, Neha Bajwa, Shijun Sung
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Publication number: 20190082998Abstract: Systems, methods and apparatuses for performing wound analysis using THz imaging are provided. Due to the large complex component of water's dielectric constant in the THz regime, and the relative frequency invariance of non-aqueous tissue constituents, this modality is highly sensitive to the water content of tissue. It has been found that using THz imaging turns the presence of edema into a contrast mechanism, and allows for the use of the spatial distributions of edema to assess wound status immediately. Apparatus and methods enable earlier diagnosis of wound status which could result in accelerated treatment and shorter overall hospital stays.Type: ApplicationFiled: April 17, 2017Publication date: March 21, 2019Applicant: The Regents of the University of CaliforniaInventors: Bryan Nowroozi, Warren S. Grundfest, Zachary Taylor, James Garritano, Priyamvada Tewari, Shijun Sung, Neha Bajwa
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Publication number: 20190000501Abstract: Body access device variations are described herein which may comprise a cannula configured for insertion into a body, an electrode at or near a distal end of the cannula, where the electrode is positioned to contact tissue adjacent to the distal end of the cannula during advancement into the body.Type: ApplicationFiled: July 3, 2018Publication date: January 3, 2019Inventors: Bryan Nowroozi, Saheel Sutaria, Daniel Burnett