Patents by Inventor Gordon Joseph Malouf
Gordon Joseph Malouf 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: 20240091485Abstract: A flow regulating valve for a respiratory treatment system is disclosed, as well as a vent arrangement comprising the flow regulating valve. The flow regulating valve may include an inlet, an outlet, and a variable conduit in fluid communication with the inlet and the outlet. The variable conduit may include a movable portion that may move to vary an impedance of the variable conduit, thereby regulating a flow rate of the air travelling through the variable conduit. Advantageously, the flow regulating valve may thus reduce wastage of air (e.g. humidified air) that is exhausted from a respiratory treatment system, while maintaining sufficient washout of air.Type: ApplicationFiled: November 17, 2023Publication date: March 21, 2024Inventors: Liam HOLLEY, Barton John KENYON, Gordon Joseph MALOUF, Luke Andrew STANISLAS
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Patent number: 11865266Abstract: A flow regulating valve for a respiratory treatment system is disclosed, as well as a vent arrangement comprising the flow regulating valve. The flow regulating valve may include an inlet, an outlet, and a variable conduit in fluid communication with the inlet and the outlet. The variable conduit may include a movable portion that may move to vary an impedance of the variable conduit, thereby regulating a flow rate of the air travelling through the variable conduit. Advantageously, the flow regulating valve may thus reduce wastage of air (e.g. humidified air) that is exhausted from a respiratory treatment system, while maintaining sufficient washout of air.Type: GrantFiled: March 19, 2021Date of Patent: January 9, 2024Assignee: ResMed Pty LtdInventors: Liam Holley, Barton John Kenyon, Gordon Joseph Malouf, Luke Andrew Stanislas
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Patent number: 11666725Abstract: A patient interface includes a shell with a central opening configured to receive the pressurized flow of air, a foam cushion, and an elastomeric support portion that is attached to the shell, supports the foam cushion, and forms at least part of a chamber together with the shell and the foam cushion. The elastomeric support portion includes a side wall that forms a continuous perimeter around the chamber and a resiliently flexible lip that supports the foam cushion and extends from the side wall toward an interior of the chamber. The resiliently flexible lip has an outer perimeter that is anchored to the side wall and an unsupported inner perimeter. The foam cushion overhangs the inner perimeter of the resiliently flexible lip, and the shell is more rigid than the elastomeric support portion. In addition, the foam cushion is configured to directly contact and engage a portion of the patient's skin in use.Type: GrantFiled: July 26, 2022Date of Patent: June 6, 2023Assignee: ResMed Pty LtdInventors: Michael Berthon-Jones, Michael Kassipillai Gunaratnam, Richard Sokolov, Robin Garth Hitchcock, David John Bassin, Gordon Joseph Malouf, Peter Edward Bateman, Philip Rodney Kwok
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Publication number: 20230149655Abstract: Oxygen concentrator apparatus provides variation in therapy gas during a breathing cycle such as by varying flow rate and/or oxygen purity of enriched air. The apparatus may include a compressor and a valve set that operates sieve bed(s) for the enriching air and to vent exhaust gas from the bed(s). The therapy gas may include released enriched air and exhaust gas. The apparatus has a supply valve to selectively release enriched air from an accumulator via a primary path to a delivery conduit. The apparatus may include a secondary path, such as with a valve, to release a portion of exhaust gas to the delivery conduit. A controller actuates the valve set to produce the enriched air, and the supply valve to release enriched air to the delivery conduit. The controller may actuate the secondary valve in anti-sync with the supply valve to release exhaust gas to the delivery conduit.Type: ApplicationFiled: April 5, 2021Publication date: May 18, 2023Applicant: ResMed Asia Pte. Ltd.Inventors: Stephen YUEN, Rex Dael NAVARRO, Henry ROHLICH, Gordon Joseph MALOUF, Teck Wei TAN, Meiyi JIANG, Tai Liang TING
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Publication number: 20230112963Abstract: Systems and methods for managing the power consumption of an oxygen concentrator are disclosed. An oxygen concentration system may comprise a compression system, a canister system, one or more processors, and at least one of a pressure sensor or a movement sensor. The one or more processors may be configured to transition the oxygen concentration system to at least one of a prescribed mode of operation or a standby mode of operation. The timing of the transition may be based on at least one of a number of breaths detected from the pressure signals generated by the pressure sensor or an estimated energy content of the movement signal generated by the movement sensor. A predetermined volume or concentration of oxygen enriched air may be supplied to a user during the prescribed mode of operation. A reduced power may be provided to the compression system during the standby mode of operation.Type: ApplicationFiled: March 22, 2021Publication date: April 13, 2023Applicants: ResMed Asia Pte. Ltd., ResMed KK, ResMed Pty LtdInventors: Stephen YUEN, Kyi Thu MAUNG, Yong Sern GWEE, Leong Kee CHEE, Praveen JAGADEESAN, Rex Dael NAVARRO, Henry ROHLICH, Gordon Joseph MALOUF, Teck Wei TAN, Meiyi JIANG, Tai Liang TING
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Publication number: 20230111767Abstract: A method of manufacturing a patient interface for sealed delivery of a flow of air at a continuously positive pressure with respect to ambient air pressure to an entrance to the patient's airways includes collecting anthropometric data of a patient's face. Anticipated considerations are identified from the collected anthropometric data during use of the patient interface. The collected anthropometric data is processed to provide a transformed data set based on the anticipated considerations, the transformed data set corresponding to at least one customised patient interface component. At least one patient interface component is modelled based on the transformed data set.Type: ApplicationFiled: December 8, 2022Publication date: April 13, 2023Applicant: ResMed Pty LtdInventors: Tzu-Chin YU, Aaron Samuel DAVIDSON, Robert Henry FRATER, Benjamin Peter JOHNSTON, Paul Jan KLASEK, Robert Anthony PATERSON, Quangang YANG, Gerard Michael RUMMERY, Priyanshu GUPTA, Liam HOLLEY, Gordon Joseph MALOUF
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Publication number: 20230053852Abstract: Apparatus and methods provide system characterisation such as for operation of respiratory treatment apparatus. Such a characterisation may include a determination of a patient interface type and/or an event such as a leak or blocked vent. For a characterisation, one or more controller(s) or processor(s) may be configured to make a determination of parameters that best fit a template curve, such as a quadratic function, to a plurality of measurements, such as data points. Each data point may include a pressure value, and a flow rate value at the pressure value. Parameters from the function may then be applied, such as with a data structure to characterize the system, such as with an identification of the patient interface type from the parameters. In some versions, parameter(s) of operation of the apparatus may be adjusted based on the characterisation, such as by using the parameters of the template.Type: ApplicationFiled: October 13, 2020Publication date: February 23, 2023Applicant: ResMed Pty LtdInventors: Liam HOLLEY, Chinmayee SOMAIYA, Dinesh RAMANAN, Gordon Joseph MALOUF
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Patent number: 11540745Abstract: A method of manufacturing a patient interface for sealed delivery of a flow of air at a continuously positive pressure with respect to ambient air pressure to an entrance to the patient's airways includes collecting anthropometric data of a patient's face. Anticipated considerations are identified from the collected anthropometric data during use of the patient interface. The collected anthropometric data is processed to provide a transformed data set based on the anticipated considerations, the transformed data set corresponding to at least one customised patient interface component. At least one patient interface component is modeled based on the transformed data set.Type: GrantFiled: July 6, 2020Date of Patent: January 3, 2023Inventors: Tzu-Chin Yu, Aaron Samuel Davidson, Robert Henry Frater, Benjamin Peter Johnston, Paul Jan Klasek, Robert Anthony Paterson, Quangang Yang, Gerard Michael Rummery, Priyanshu Gupta, Liam Holley, Gordon Joseph Malouf
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Publication number: 20220355058Abstract: A patient interface includes a shell with a central opening configured to receive the pressurized flow of air, a foam cushion, and an elastomeric support portion that is attached to the shell, supports the foam cushion, and forms at least part of a chamber together with the shell and the foam cushion. The elastomeric support portion includes a side wall that forms a continuous perimeter around the chamber and a resiliently flexible lip that supports the foam cushion and extends from the side wall toward an interior of the chamber. The resiliently flexible lip has an outer perimeter that is anchored to the side wall and an unsupported inner perimeter. The foam cushion overhangs the inner perimeter of the resiliently flexible lip, and the shell is more rigid than the elastomeric support portion. In addition, the foam cushion is configured to directly contact and engage a portion of the patient's skin in use.Type: ApplicationFiled: July 26, 2022Publication date: November 10, 2022Inventors: Michael BERTHON-JONES, Michael Kassipillai GUNARATNAM, Richard SOKOLOV, Robin Garth HITCHCOCK, David John BASSIN, Gordon Joseph MALOUF, Peter Edward BATEMAN, Philip Rodney KWOK
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Patent number: 11406784Abstract: A patient interface assembly includes a cushion and frame assembly with a cushion portion and a frame portion that together form a breathing chamber. The frame portion includes an anterior aperture configured to receive the flow of breathable gas. Headgear includes a back portion, a pair of upper headgear straps extending from the back portion, and a pair of lower headgear straps. The patient interface assembly also includes a shroud in the form of a contoured plate. The shroud is removably mounted on the frame portion by way of a snap-fit connection and includes a pair of lower headgear connectors. The patient interface assembly also includes a forehead support extending from the shroud and having a free end with an upper headgear connector. The forehead support has a first curvature that curves in a first direction around an axis that is offset from the patient interface assembly and extends along a length of the forehead support.Type: GrantFiled: December 23, 2020Date of Patent: August 9, 2022Assignee: ResMed Pty LtdInventors: Michael Berthon-Jones, Michael Kassipillai Gunaratnam, Richard Sokolov, Robin Garth Hitchcock, David John Bassin, Gordon Joseph Malouf, Peter Edward Bateman, Philip Rodney Kwok
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Publication number: 20220203055Abstract: Methods and apparatus for treating a respiratory disorder, m one aspect, include an apparatus that delivers backup breaths at a sustained timed backup rate that is a function of the patient's spontaneous respiratory rate. Other aspects include apparatus that delivers backup breaths at a rate that gradually increases from a spontaneous backup rate to a sustained timed backup rate or, alternatively, apparatus that oscillates a treatment pressure in antiphase with the patient's spontaneous respiratory efforts when a measure indicative of ventilation is greater than a threshold. Other aspects include apparatus configured to treat Cheyne-Stokes respiration by computing the treatment pressure so as to bring a measure indicative of ventilation of the patient towards a target ventilation that is dependent on the measure indicative of ventilation or, alternatively, by periodically elevating the treatment pressure to a high level for a short time.Type: ApplicationFiled: March 16, 2022Publication date: June 30, 2022Applicant: ResMed Pty LtdInventors: Jeffrey Peter ARMITSTEAD, David John BASSIN, Peter Edward BATEMAN, Gordon Joseph MALOUF, Dinesh RAMANAN
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Publication number: 20220203058Abstract: Apparatus and methods provide control for generation of a flow of air to a patient's airways for different respiratory therapies. The pressure and a flow rate may be simultaneously controlled so as to provide a pressure therapy and a flow therapy. The system may include one or more flow generators, in which the control of the pressure and flow rate may include altering the output of one or more of the flow generators and/or an optional adjustable vent. The pressure and flow rate may each be held at a constant. One or both of the pressure and flow rate may also vary in accordance with a desired therapy. The air may be provided via a patient interface that includes a vent to atmosphere, which may be the adjustable vent. The vent may be actuated by a controller to implement the simultaneous control of pressure and flow rate of the air.Type: ApplicationFiled: March 18, 2022Publication date: June 30, 2022Applicant: ResMed Pty LtdInventors: Liam HOLLEY, Gordon Joseph MALOUF, Dion Charles Chewe MARTIN, Peter WLODARCZYK, Quangang YANG
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Publication number: 20220168533Abstract: Components for a respiratory treatment apparatus that is capable of providing a humidified respiratory treatment permit a reduction in condensation in a patient interface and/or its gas delivery tubing. In some embodiments, a rainout valve that may be an integrated component of a humidifier output aperture, or coupled thereto, may reduce condensation with a vapor barrier operable to selectively block and permit humidified gas transfer from the humidifier. For example, the barrier may be operable to open in response to a flow of pressurized breathable gas that may be generated by a flow generator of the respiratory treatment apparatus. In the absence of such a generation of pressurized flow, the barrier may prevent a transfer of the humidified gas such as into a conduit for a patient interface by retracting to a closed position. Example vapor barriers may include a resilient membrane, cover, bellows, flap, shutter or other suitable valve.Type: ApplicationFiled: February 16, 2022Publication date: June 2, 2022Applicant: ResMed Pty LtdInventors: Gordon Joseph MALOUF, Liam HOLLEY, Paul Jan KLASEK
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Patent number: 11318266Abstract: Apparatus and methods provide control for generation of a flow of air to a patient's airways for different respiratory therapies. The pressure and a flow rate may be simultaneously controlled so as to provide a pressure therapy and a flow therapy. The system may include one or more flow generators, in which the control of the pressure and flow rate may include altering the output of one or more of the flow generators and/or an optional adjustable vent. The pressure and flow rate may each be held at a constant. One or both of the pressure and flow rate may also vary in accordance with a desired therapy. The air may be provided via a patient interface that includes a vent to atmosphere, which may be the adjustable vent. The vent may be actuated by a controller to implement the simultaneous control of pressure and flow rate of the air.Type: GrantFiled: December 9, 2016Date of Patent: May 3, 2022Inventors: Liam Holley, Gordon Joseph Malouf, Dion Charles Chewe Martin, Peter Wlodarczyk, Quangang Yang
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Patent number: 11291787Abstract: Methods and apparatus for treating a respiratory disorder, in one aspect, include an apparatus that delivers backup breaths at a sustained timed backup rate that is a function of the patient's spontaneous respiratory rate. Other aspects include apparatus that delivers backup breaths at a rate that gradually increases from a spontaneous backup rate to a sustained timed backup rate or, alternatively, apparatus that oscillates a treatment pressure in antiphase with the patient's spontaneous respiratory efforts when a measure indicative of ventilation is greater than a threshold. Other aspects include apparatus configured to treat Cheyne-Stokes respiration by computing the treatment pressure so as to bring a measure indicative of ventilation of the patient towards a target ventilation that is dependent on the measure indicative of ventilation or, alternatively, by periodically elevating the treatment pressure to a high level for a short time.Type: GrantFiled: June 10, 2015Date of Patent: April 5, 2022Inventors: Jeffrey Peter Armitstead, David John Bassin, Peter Edward Bateman, Gordon Joseph Malouf, Dinesh Ramanan
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Patent number: 11273278Abstract: Components for a respiratory treatment apparatus that is capable of providing a humidified respiratory treatment permit a reduction in condensation in a patient interface and/or its gas delivery tubing. In some embodiments, a rainout valve that may be an integrated component of a humidifier output aperture, or coupled thereto, may reduce condensation with a vapor barrier operable to selectively block and permit humidified gas transfer from the humidifier. For example, the barrier may be operable to open in response to a flow of pressurized breathable gas that may be generated by a flow generator of the respiratory treatment apparatus. In the absence of such a generation of pressurized flow, the barrier may prevent a transfer of the humidified gas such as into a conduit for a patient interface by retracting to a closed position. Example vapor barriers may include a resilient membrane, cover, bellows, flap, shutter or other suitable valve.Type: GrantFiled: August 22, 2018Date of Patent: March 15, 2022Inventors: Gordon Joseph Malouf, Liam Holley, Paul Jan Klasek
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Publication number: 20210386594Abstract: A garment for providing circulatory-related disorder therapy includes a skin contacting layer, a backing layer, and a coupling. The backing layer is coupled to the skin contacting layer such that the skin contacting layer and the backing layer form a plurality of macro-chambers. A first one of the plurality of macro-chambers is partitioned into a plurality of micro-chambers. Each of the plurality of micro-chambers is in direct fluid communication with at least one other of the plurality of micro-chambers. The coupling is coupled to the backing layer and is configured to supply pressurized air directly into the first macro-chamber such that the pressurized air is delivered to a first one of the plurality of micro-chambers of the first macro-chamber.Type: ApplicationFiled: October 9, 2019Publication date: December 16, 2021Inventors: Dinesh RAMANAN, Patricia Collins, Paul Andrew Dickens, Jose Ricardo DOS SANTOS, Liam Holley, Barton John KENYON, Tzu-Chin YU, Bodiyabaduge Dimithri Joseph PERERA, Blythe Guy REES-JONES, Andrew Martin SIMS, Cem TARAKCI, Matthew John BACKLER, Gordon Joseph MALOUF
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Publication number: 20210346633Abstract: Apparatus permit a delivery of a flow of breathable gas to a patient's airways. In one version, a coupler extension may include a seat portion to permit use of a mask with a nasal cannula. In some versions, the coupler extension is configured to conduct the flow of gas to prongs of a nasal cannula. The seat portion can receive and seal with a cushion of a respiratory mask and may have a sealing bevel to promote sealing between the cushion of the respiratory mask and a facial contact surface of a user. In some versions, a nasal interface may include naris pillows to seal with and conduct a flow of breathable gas into a nares of a user. Each naris pillow may include a nasal projection to conduct a further flow of gas. The nasal projection may extend within the naris beyond the seal of the naris pillow.Type: ApplicationFiled: July 23, 2021Publication date: November 11, 2021Applicant: ResMed Pty LtdInventors: David CREUSOT, Liam HOLLEY, Paul Jan KLASEK, Gordon Joseph MALOUF, Klaus Henry SCHINDHELM, Quangang YANG
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Publication number: 20210330910Abstract: Systems or apparatus may be configured with method(s) for hyperarousal disorder such as for determining settings that control respiratory therapy for slowing a patients breathing. They may be configured to determine an interim target breathing rate less than a current spontaneous rate. They may be configured to derive target inspiratory time and expiratory times based on the interim target breathing rate. They may be configured to compute, with first function(s), a parameter set for generating a variable treatment pressure waveform based on target inspiratory/expiratory times. They may be configured to determine pressure settings by generating the waveform with the computed parameter set and second function(s). They may be configured to reduce the interim target breathing rate in response to a subsequent spontaneous breathing rate slowing down toward the interim target rate. They may be configured to generate feedback such as graphics/sound to provide information to promote slowing of breathing.Type: ApplicationFiled: February 15, 2019Publication date: October 28, 2021Applicant: ResMed Pty LtdInventors: Bodiyabaduge Dimithri Joseph PERERA, Dinesh RAMANAN, Gordon Joseph MALOUF, Liam HOLLEY, Neha BANODKAR
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Patent number: 11123511Abstract: Apparatus to permit a delivery of a flow of breathable gas to a patient's airways. In one version, a coupler extension may include a seat portion to permit use of a mask with a nasal cannula. In some versions, the coupler extension is configured to conduct the flow of gas to prongs of a nasal cannula. The seat portion can receive and seal with a cushion of a respiratory mask and may have a sealing bevel to promote sealing between the cushion of the respiratory mask and a facial contact surface of a user. In some versions, a conduit adapted to communicate a flow of gas may comprise a slit valve formed by a portion of the wall material of the conduit. In some versions, a nasal interface may include naris pillows to seal with and conduct a flow of breathable gas into a nares of a user. Each naris pillow may include a nasal projection to conduct a further flow of gas. The nasal projection may extend within the naris beyond the seal of the naris pillow.Type: GrantFiled: June 19, 2015Date of Patent: September 21, 2021Inventors: David Creusot, Liam Holley, Paul Jan Klasek, Gordon Joseph Malouf, Klaus Henry Schindhelm, Quangang Yang