Patents by Inventor Enrico Brambilla
Enrico Brambilla 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: 20240325666Abstract: A patient circuit of a ventilation system, such as a non-invasive open ventilation system, wherein the patient circuit comprises a nasal pillows style patient interface that incorporates at least one “Venturi effect” jet pump proximal to the patient. The patient circuit further comprises a pair of uniquely configured 3-way connectors which, in cooperation with several uniquely configured tri-lumen tubing segments, facilitate the cooperative engagement of the patient interface to a ventilator of the ventilation system.Type: ApplicationFiled: June 6, 2024Publication date: October 3, 2024Inventors: Enrico Brambilla, Samir Ahmad, Larry Mastrovich, Gary Berman, David Mastrovich
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Patent number: 12102767Abstract: An oxygen concentrator includes one or more adsorbent sieve beds operable to remove nitrogen from air to produce concentrated oxygen gas at respective outlets thereof, a product tank fluidly coupled to the respective outlets of the sieve bed(s), a compressor operable to pressurize ambient air, one or more sieve bed flow paths from the compressor to respective inlets of the sieve bed(s), a bypass flow path from the compressor to the product tank that bypasses the sieve bed(s), and a valve unit operable to selectively allow flow of pressurized ambient air from the compressor along the one or more sieve bed flow paths and along the bypass flow path in response to a control signal. The valve unit may be controlled in response to a command issued by a ventilator based on a calculated or estimated total flow of gas and entrained air or % FiO2 of a patient.Type: GrantFiled: February 14, 2023Date of Patent: October 1, 2024Assignee: Breathe Technologies, Inc.Inventors: Tom Westfall, Enrico Brambilla
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Patent number: 12029848Abstract: A respiratory treatment apparatus configured to provide a flow of breathable gas to a patient, including a breathable air outlet, an outside air inlet, and an pneumatic block module, wherein the pneumatic block module includes: a volute assembly including an inlet air passage, a mount for a blower and an outlet air passage; the blower being mounted in the mount such that an impeller of the blower is in a flow passage connecting the inlet air passage and the outlet air passage; a casing enclosing the volute assembly, wherein air passages within the casing connect air ports on the volute assembly, wherein the inlet air passage of the volute assembly is in fluid communication with the outside air inlet and the outlet air passage of the volute assembly is in fluid communication with the air outlet.Type: GrantFiled: December 16, 2020Date of Patent: July 9, 2024Assignee: RESMED PARIS SASInventors: Kenneth Taylor, Simon Robert Cork, Jonathan Huw Thomas, Eva Ng, Benjamin John Leavens, Enrico Brambilla, Frank Van Regteren, Philippe Auguste Chalvignac, Zdzislaw Antoni Ziolkowski, Arthur Kin-Wai Yee, Geoff Crumblin, David Creusot
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Patent number: 12017002Abstract: A patient circuit of a ventilation system, such as a non-invasive open ventilation system, wherein the patient circuit comprises a nasal pillows style patient interface that incorporates at least one “Venturi effect” jet pump proximal to the patient. The patient circuit further comprises a pair of uniquely configured 3-way connectors which, in cooperation with several uniquely configured tri-lumen tubing segments, facilitate the cooperative engagement of the patient interface to a ventilator of the ventilation system.Type: GrantFiled: September 16, 2020Date of Patent: June 25, 2024Assignee: Breathe Technologies, Inc.Inventors: Enrico Brambilla, Samir Ahmad, Lawrence Mastrovich, Gary Berman, David Mastrovich
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Publication number: 20240197174Abstract: Eye health of a patient can be monitored and various ocular conditions treated such as using information about an intraocular pressure (IOP) characteristic of the patient, information about a blood pressure (BP) characteristic of the patient, and information about a patient therapy, such as from a patient treatment system. In an example, a quantitative ocular health index can be determined for a patient based on information about an IOP characteristic, a BP characteristic, and the patient therapy.Type: ApplicationFiled: April 27, 2022Publication date: June 20, 2024Inventors: John Berdahl, Gary Berman, Enrico Brambilla
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Publication number: 20230414101Abstract: An apparatus to treat, inhibit, or prevent an eye condition in a patient can include a cover, sized and shaped to fit over an eye of a patient to define a cavity between the cover and an anterior surface of the eye when the cover is located over the patient eye. The apparatus can include a pressure source, in communication with the cavity, capable of applying non-ambient pressure in the cavity. The apparatus can include control circuitry, in communication with the pressure source, configured to vary non-ambient pressure applied to the cavity to affect a targeted pressure relationship between an indication of a first physiological pressure level and a second physiological pressure level associated with the eye of the patient.Type: ApplicationFiled: September 8, 2023Publication date: December 28, 2023Inventors: John Berdahl, George Tsai, Hal Walbrink, Vance Michael Thompson, Enrico Brambilla
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Publication number: 20230355902Abstract: A respiratory treatment apparatus configured to provide a flow of breathable gas to a patient, including a breathable air outlet, an outside air inlet, and an pneumatic block module, wherein the pneumatic block module includes: a volute assembly including an inlet air passage, a mount for a blower and an outlet air passage; the blower being mounted in the mount such that an impeller of the blower is in a flow passage connecting the inlet air passage and the outlet air passage; a casing enclosing the volute assembly, wherein air passages within the casing connect air ports on the volute assembly, wherein the inlet air passage of the volute assembly is in fluid communication with the outside air inlet and the outlet air passage of the volute assembly is in fluid communication with the air outlet.Type: ApplicationFiled: July 11, 2023Publication date: November 9, 2023Applicant: ResMed Paris SASInventors: Kenneth Taylor, Simon Robert Cork, Jonathan Huw Thomas, Eva Ng, Benjamin John Leavens, Enrico Brambilla, Frank Van Regteren, Philippe Auguste Chalvignac, Zdzislaw Antoni Ziolkowski, Arthur Kin-Wai Yee, Geoff Crumblin, David Creusot
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Publication number: 20230347099Abstract: A breathable gas inlet control device permits flow regulation at the inlet of a flow generator for a respiratory treatment apparatus such as a ventilator or continuous positive airway pressure device. The device may implement a variable inlet aperture size based on flow conditions. In one embodiment, an inlet flow seal opens or closes the inlet to a blower in accordance with changes in pressure within a seal activation chamber near the seal. The seal may be formed by a flexible membrane. A controller selectively changes the pressure of the seal activation chamber by controlling a set of one or more flow control valves to selectively stop forward flow, prevent back flow or lock open the seal to permit either back flow or forward flow. The controller may set the flow control valves as a function of detected respiratory conditions based on data from pressure and/or flow sensors.Type: ApplicationFiled: July 7, 2023Publication date: November 2, 2023Inventors: Philippe Auguste CHALVIGNAC, Arthur Kin-Wal Yee, David Creusot, Enrico Brambilla
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Patent number: 11786122Abstract: An apparatus to treat, inhibit, or prevent an eye condition in a patient can include a cover, sized and shaped to fit over an eye of a patient to define a cavity between the cover and an anterior surface of the eye when the cover is located over the patient eye. The apparatus can include a pressure source, in communication with the cavity, capable of applying non-ambient pressure in the cavity. The apparatus can include control circuitry, in communication with the pressure source, configured to vary non-ambient pressure applied to the cavity to affect a targeted pressure relationship between an indication of a first physiological pressure level and a second physiological pressure level associated with the eye of the patient.Type: GrantFiled: February 5, 2021Date of Patent: October 17, 2023Assignee: Equinox Ophthalmic, Inc.Inventors: John Berdahl, George Tsai, Hal Walbrink, Vance Michael Thompson, Enrico Brambilla
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Patent number: 11724049Abstract: A respiratory treatment apparatus configured to provide a flow of breathable gas to a patient, including a breathable air outlet, an outside air inlet, and an pneumatic block module, wherein the pneumatic block module includes: a volute assembly including an inlet air passage, a mount for a blower and an outlet air passage; the blower being mounted in the mount such that an impeller of the blower is in a flow passage connecting the inlet air passage and the outlet air passage; a casing enclosing the volute assembly, wherein air passages within the casing connect air ports on the volute assembly, wherein the inlet air passage of the volute assembly is in fluid communication with the outside air inlet and the outlet air passage of the volute assembly is in fluid communication with the air outlet.Type: GrantFiled: March 19, 2021Date of Patent: August 15, 2023Inventors: Kenneth Taylor, Simon Robert Cork, Jonathan Huw Thomas, Eva Ng, Benjamin John Leavens, Enrico Brambilla, Frank Van Regteren, Philippe Auguste Chalvignac, Zdzislaw Antoni Ziolkowski, Arthur Kin-Wai Yee, Geoff Crumblin, David Creusot
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Patent number: 11717637Abstract: A breathable gas inlet control device permits flow regulation at the inlet of a flow generator for a respiratory treatment apparatus such as a ventilator or continuous positive airway pressure device. The device may implement a variable inlet aperture size based on flow conditions. In one embodiment, an inlet flow seal opens or closes the inlet to a blower in accordance with changes in pressure within a seal activation chamber near the seal. The seal may be formed by a flexible membrane. A controller selectively changes the pressure of the seal activation chamber by controlling a set of one or more flow control valves to selectively stop forward flow, prevent back flow or lock open the seal to permit either back flow or forward flow. The controller may set the flow control valves as a function of detected respiratory conditions based on data from pressure and/or flow sensors.Type: GrantFiled: May 13, 2022Date of Patent: August 8, 2023Inventors: Philippe Auguste Chalvignac, Arthur Kin-Wai Yee, David Creusot, Enrico Brambilla
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Publication number: 20230181861Abstract: An oxygen concentrator includes one or more adsorbent sieve beds operable to remove nitrogen from air to produce concentrated oxygen gas at respective outlets thereof, a product tank fluidly coupled to the respective outlets of the sieve bed(s), a compressor operable to pressurize ambient air, one or more sieve bed flow paths from the compressor to respective inlets of the sieve bed(s), a bypass flow path from the compressor to the product tank that bypasses the sieve bed(s), and a valve unit operable to selectively allow flow of pressurized ambient air from the compressor along the one or more sieve bed flow paths and along the bypass flow path in response to a control signal. The valve unit may be controlled in response to a command issued by a ventilator based on a calculated or estimated total flow of gas and entrained air or % FiO2 of a patient.Type: ApplicationFiled: February 14, 2023Publication date: June 15, 2023Inventors: Tom Westfall, Enrico Brambilla
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Patent number: 11642486Abstract: A portable oxygen concentrator retrofit system and method in which an existing portable oxygen concentrator may be retrofitted to output an enriched oxygen gas at a flow rate suitable for use in a patient ventilation system without the need for an external source of compressed gas.Type: GrantFiled: April 29, 2020Date of Patent: May 9, 2023Assignee: BREATHE TECHNOLOGIES, INC.Inventors: Tom Westfall, Enrico Brambilla
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Publication number: 20230108081Abstract: A head-mountable flow generator is configured to deliver a flow of breathable gas at a continuously positive pressure with respect to ambient air pressure to a patient interface in communication with an entrance to a patient's airways including at least an entrance of the patient's nares, while the patient is sleeping, to ameliorate sleep disordered breathing. The flow generator includes a motor, an impeller assembly and housing that encases the motor and the impeller assembly. The housing is configured to be mounted on the patient's head and comprises an inlet to receive the flow of breathable gas and a pair of opposing outlets to deliver the flow of breathable gas. In addition, the impeller assembly is configured to pressurize the flow of breathable gas received from the inlet, and the housing is configured to convey the pressurized flow of breathable gas through both outlets.Type: ApplicationFiled: December 8, 2022Publication date: April 6, 2023Inventors: Barton John KENYON, Renee Frances FLOWER, Enrico BRAMBILLA, Philip Rodney KWOK
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Patent number: 11607519Abstract: An oxygen concentrator includes one or more adsorbent sieve beds operable to remove nitrogen from air to produce concentrated oxygen gas at respective outlets thereof, a product tank fluidly coupled to the respective outlets of the sieve bed(s), a compressor operable to pressurize ambient air, one or more sieve bed flow paths from the compressor to respective inlets of the sieve bed(s), a bypass flow path from the compressor to the product tank that bypasses the sieve bed(s), and a valve unit operable to selectively allow flow of pressurized ambient air from the compressor along the one or more sieve bed flow paths and along the bypass flow path in response to a control signal. The valve unit may be controlled in response to a command issued by a ventilator based on a calculated or estimated total flow of gas and entrained air or % FiO2 of a patient.Type: GrantFiled: May 14, 2020Date of Patent: March 21, 2023Assignee: Breathe Technologies, Inc.Inventors: Tom Westfall, Enrico Brambilla
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Publication number: 20230030244Abstract: A patient interface assembly includes a flexible cushion configured to sealingly engage the patient's nares and a frame with a pair of flexible extending members that extend laterally from opposite sides of the frame. The frame and the flexible cushion together form a chamber. The patient interface assembly also includes a positioning and stabilising structure configured to maintain the flexible cushion in engagement with the patient's nares. The positioning and stabilizing structure has a pair of headgear straps. Each headgear strap is connected to a respective one of the flexible extending members. The flexible extending members do not form an airflow path for the breathable gas. The headgear straps have a multi-layered structure, at least one layer being made of fabric and at least one layer being made of plastic. In addition, the at least one plastic layer is a rigidizer that adds rigidity to the respective headgear strap.Type: ApplicationFiled: September 23, 2022Publication date: February 2, 2023Inventors: Michiel KOOIJ, Paul Jan KLASEK, Adam Vivian BENJAFIELD, Peter John SWEENEY, Richard SOKOLOV, Philip Rodney KWOK, Gerard Michael RUMMERY, Scott Alexander HOWARD, Robert Edward HENRY, Renee Frances FLOWER, Enrico BRAMBILLA, Dieter HEIDMANN, Glenn RICHARDS
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Publication number: 20230014248Abstract: Modular ventilatory support systems and methods are disclosed in which a user may transition the system between a stationary configuration, an extended range configuration, and a stand-alone configuration. The modular components of the system include a compressor unit, a ventilator which may dock with the compressor unit, and a patient interface which may be connected to either the compressor unit or the ventilator unit. By rearranging these modular components into different configurations, mobility and duration of use may be optimized to fit the present needs. In the stationary configuration, mobility is most restricted, but duration of use is maximized. In the extended range configuration, mobility is enhanced, with duration of use limited by the battery power of the ventilator. In the stand-alone configuration, mobility is maximized, with duration of use limited by battery power of the ventilator and the quantity of an external gas supply.Type: ApplicationFiled: September 21, 2022Publication date: January 19, 2023Inventors: Samir S. Ahmad, Enrico Brambilla, Ali Nikkhah, Lawrence A. Mastrovich, Gary Berman, Masoud Vahidi
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Patent number: 11547828Abstract: A mask system includes a frame adapted to attach headgear, a sealing arrangement releasably connectable to the frame, and an elbow provided to the sealing arrangement and adapted to be connected to an air delivery tube that delivers breathable gas to the patient. The sealing arrangement defines a breathing chamber and is adapted to form a seal with the patient's face. The sealing arrangement includes structure to establish a positive connection with the frame and with the elbow.Type: GrantFiled: December 17, 2021Date of Patent: January 10, 2023Assignee: ResMed Pty LtdInventors: Brent James Dravitzki, Enrico Brambilla, Lemmy Nga, Nigel Quarmby, Aaron Samuel Davidson, Joel Edward Gibson, Anthony Paul Barbara, Justin John Formica, Angelene Marie Ozolins, Robert Thomas Burnham, Lachlan Richard Goldspink
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Patent number: 11547820Abstract: A head-mountable flow generator is configured to deliver a flow of breathable gas at a continuously positive pressure with respect to ambient air pressure to a patient interface in communication with an entrance to a patient's airways including at least an entrance of the patient's nares, while the patient is sleeping, to ameliorate sleep disordered breathing. The flow generator includes a motor, an impeller assembly and housing that encases the motor and the impeller assembly. The housing is configured to be mounted on the patient's head and comprises an inlet to receive the flow of breathable gas and a pair of opposing outlets to deliver the flow of breathable gas. In addition, the impeller assembly is configured to pressurize the flow of breathable gas received from the inlet, and the housing is configured to convey the pressurized flow of breathable gas through both outlets.Type: GrantFiled: June 13, 2019Date of Patent: January 10, 2023Assignee: ResMed Pty LtdInventors: Barton John Kenyon, Renee Frances Flower, Enrico Brambilla, Philip Rodney Kwok
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Patent number: 11484676Abstract: A patient interface assembly includes a flexible cushion configured to sealingly engage the patient's nares and a frame with a pair of flexible extending members that extend laterally from opposite sides of the frame. The frame and the flexible cushion together form a chamber. The patient interface assembly also includes a positioning and stabilising structure configured to maintain the flexible cushion in engagement with the patient's nares. The positioning and stabilizing structure has a pair of headgear straps. Each headgear strap is connected to a respective one of the flexible extending members. The flexible extending members do not form an airflow path for the breathable gas. The headgear straps have a multi-layered structure, at least one layer being made of fabric and at least one layer being made of plastic. In addition, the at least one plastic layer is a rigidizer that adds rigidity to the respective headgear strap.Type: GrantFiled: September 5, 2018Date of Patent: November 1, 2022Inventors: Michiel Kooij, Paul Jan Klasek, Adam Vivian Benjafield, Peter John Sweeney, Richard Sokolov, Philip Rodney Kwok, Gerard Michael Rummery, Scott Alexander Howard, Robert Edward Henry, Renee Frances Flower, Enrico Brambilla, Dieter Heidmann, Glenn Richards