Patents by Inventor Liam Holley
Liam Holley 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: 20200246564Abstract: An exchanger conduit permits temperature and/or humidity conditioning of a gas for a patient respiratory interface. In an example embodiment, a conduit has a first channel and a second channel where the first channel is configured to conduct an inspiratory gas and the second channel configured to conduct an expiratory gas. An exchanger is positioned along the first channel and the second channel to separate the first channel and the second channel. The exchanger is configured to transfer a component (e.g., temperature or humidity) of the gas of the second channel to the gas of the first channel. In some embodiments, an optional flow resistor may be implemented to permit venting at pressures above atmospheric pressure so as to allow pressure stenting of a patient respiratory system without a substantial direct flow from a flow generator of respiratory treatment apparatus to the patient during patient expiration.Type: ApplicationFiled: February 7, 2020Publication date: August 6, 2020Applicant: ResMed Pty LtdInventors: Liam HOLLEY, Paul Jan KLASEK, Robert Henry FRATER, Quangang YANG, Pallavi GOSAIN
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Publication number: 20200215277Abstract: A respiratory assistance component is disclosed that changes shape when an electrical charge is provided. The amount of electrical charge that is applied may be based on values, characteristics, or user controlled parameters of the respiratory assistance system. The component may be all or part of a patient interface, a tube, a flow generator, and/or a sleep mat.Type: ApplicationFiled: March 15, 2020Publication date: July 9, 2020Inventors: Kai STUEBIGER, Justin John FORMICA, Aaron Samuel DAVIDSON, Gerard Michael RUMMERY, Clancy John DENNIS, Liam HOLLEY
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Publication number: 20200187852Abstract: A system screens, diagnoses, or monitors sleep disordered breathing of a patient. The system may include a nasal cannula, a conduit connected to the nasal cannula at a first end, an adaptor configured to receive a second end of the conduit and/or a portable computing device. The adaptor may be configured to position the second end of the conduit in proximity with a microphone of the portable computing device. Optionally, a processor may generate an indicator to guide placement of the adaptor for use. Such positioning may, in use, permit the microphone to generate a patient breathing sound signal via the adaptor for processor(s) of the device. The processor(s) may then process the breathing sound signal. The process may include detecting SDB events from an extracted and/or de-rectified loudness signal. The process may include computing a metric of severity of a respiratory condition of the patient using detected SDB events.Type: ApplicationFiled: May 4, 2018Publication date: June 18, 2020Applicant: ResMed Pty LtdInventor: Liam HOLLEY
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Publication number: 20200114100Abstract: Methods and apparatus provide acoustic detection for automated devices such as respiratory treatment apparatus. In some embodiments of the technology, acoustic analysis of noise or sound pulses, such as a cepstrum analysis, based on signals of a sound sensor (104) permits detection of obstruction (O) such as within a patient interface, mask or respiratory conduit (108) or within patient respiratory system. Some embodiments further permit detection of accessories such as an identification thereof or a condition of use thereof, such as a leak. Still further embodiments of the technology permit the detection of a patient or user who is intended to use the automated device.Type: ApplicationFiled: December 10, 2019Publication date: April 16, 2020Applicant: ResMed Pty LtdInventors: Liam HOLLEY, Dion Charles Chewe MARTIN, Steven Paul FARRUGIA
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Patent number: 10589042Abstract: An exchanger conduit permits temperature and/or humidity conditioning of a gas for a patient respiratory interface. In an example embodiment, a conduit has a first channel and a second channel where the first channel is configured to conduct an inspiratory gas and the second channel configured to conduct an expiratory gas. An exchanger is positioned along the first channel and the second channel to separate the first channel and the second channel. The exchanger is configured to transfer a component (e.g., temperature or humidity) of the gas of the second channel to the gas of the first channel. In some embodiments, an optional flow resistor may be implemented to permit venting at pressures above atmospheric pressure so as to allow pressure stenting of a patient respiratory system without a substantial direct flow from a flow generator of respiratory treatment apparatus to the patient during patient expiration.Type: GrantFiled: November 9, 2012Date of Patent: March 17, 2020Assignee: ResMed Pty LtdInventors: Liam Holley, Paul Jan Klasek, Robert Henry Frater, Quangang Yang, Pallavi Gosain
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Publication number: 20190269871Abstract: The present technology is directed to a respiratory pressure therapy system, that includes a plenum chamber pressurisable to a therapeutic pressure above ambient air pressure, a seal-forming structure to form a seal with an entrance to the patient's airways to maintain said therapeutic pressure in the plenum chamber throughout the patient's respiratory cycle in use, a positioning and stabilising structure constructed and arranged to provide an elastic force to hold the seal-forming structure in a therapeutically effective position on the patient's head, a blower configured to generate the flow of air and pressurise the plenum chamber to the therapeutic pressure, the blower having a motor, the blower being connected to the plenum chamber such that the blower is suspended from the patient's head and the axis of rotation of the motor is perpendicular to the patient's sagittal plane, and a power supply configured to provide electrical power to the blower.Type: ApplicationFiled: July 25, 2017Publication date: September 5, 2019Applicant: ResMed Pty LtdInventors: Barton John KENYON, Emily Claire SHRUBB, Liam HOLLEY
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Publication number: 20190232014Abstract: 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: April 3, 2019Publication date: August 1, 2019Applicant: RESMED PARIS SASInventors: Liam HOLLEY, Kenneth TAYLOR, Quangang YANG, Sebastien DEUBEL, Joern LANGE
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Publication number: 20190232013Abstract: 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: July 2, 2015Publication date: August 1, 2019Applicant: ResMed LimitedInventors: 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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Patent number: 10286175Abstract: 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: May 16, 2014Date of Patent: May 14, 2019Assignee: ResMed Paris SASInventors: Liam Holley, Kenneth Taylor, Quangang Yang, Sebastien Deubel, Joern Lange
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Publication number: 20190111232Abstract: A respiratory valve, such as a positive end expiratory pressure valve, permits pressure control for respiratory apparatus such as a ventilator or positive airway pressure device. The valve may include a flexible gas passage cover. The cover may be configured with a first side surface to operatively block and open an aperture of the gas passage at a valve seat to respectively prevent and permit gas flow through the aperture defined by the valve seat. The cover may include a second side surface opposite the first surface. The second surface may include at least one drop section forming a reduction in thickness of the cover between the first surface and the second surface. The first surface may include a coating to reduce friction of a membrane material of the first surface. The rim of the valve seat may comprise a variation in height relative the flexible cover.Type: ApplicationFiled: May 16, 2017Publication date: April 18, 2019Applicant: ResMed LimitedInventors: Liam Holley, Simon Robert Cork, Sebastien Deubel
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Publication number: 20190111226Abstract: 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: December 9, 2016Publication date: April 18, 2019Applicant: ResMed LimitedInventors: Liam Holley, Gordon Joseph Malouf, Dion Charles Chewe Martin, Peter Wlodarczyk, Quangang Yang
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Publication number: 20180361100Abstract: 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: August 22, 2018Publication date: December 20, 2018Applicant: ResMed LimitedInventors: Gordon Joseph Malouf, Liam Holley, Paul Jan Klasek
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Publication number: 20180338743Abstract: Certain examples described herein relate to acoustic detection mask systems and/or methods. In certain examples, an acoustic detection mask system is provided. An example acoustic detection mask system includes a mask having a microphone located therein or thereon. The microphone is connected to a data logger that is configured to capture vibrations and/or sounds registered by the microphone. The data logger may store such information in a computer readable storage media thereof for subsequent analysis, e.g., via a computer program accessing such data after the data logger is connected to a separate computer system. The microphone may be positioned and the data analyzed so as to determine differences between oral and nasal breathing, as well as sleep-disordered breath and/or snoring. Such components may be provided as a part of a system or in any suitable combination or sub-combination. Associated methods also are described herein as a part of the technology.Type: ApplicationFiled: August 2, 2018Publication date: November 29, 2018Inventors: Liam HOLLEY, Robert John KING
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Patent number: 10076628Abstract: 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: September 2, 2011Date of Patent: September 18, 2018Assignee: ResMed LimitedInventors: Gordon Joseph Malouf, Liam Holley, Paul Jan Klasek
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Publication number: 20180185607Abstract: 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: June 30, 2016Publication date: July 5, 2018Inventors: Liam HOLLEY, Barton John KENYON, Gordon Joseph MALOUF, Luke Andrew STANISLAS
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Publication number: 20180169361Abstract: A method, such as in a controller associated with a respiratory therapy device, determines whether high flow therapy is being used by a patient. The method may include determining whether a property of a flow of air being delivered by a respiratory therapy device along an air circuit to an unsealed patient interface contains a significant oscillation within a breathing rate frequency band. The method may also include generating, dependent on the determination, an indication of whether high flow therapy is being used by the patient.Type: ApplicationFiled: March 14, 2016Publication date: June 21, 2018Applicant: RedMed LimitedInventors: Clancy John DENNIS, Liam HOLLEY, Gordon Joseph MALOUF, Dion Charles Chewe MARTIN, Peter WLODARCZYK
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Publication number: 20180161532Abstract: A respiratory apparatus comprising a base and removable chamber, wherein the chamber is configured to hold a supply of water and include a blower arrangement adapted to provide a supply of pressurized air or gas to the supply of water. In certain embodiments the respiratory apparatus includes a split motor, wherein the stationary components are located within a base and the rotating portions are located within a chamber.Type: ApplicationFiled: November 1, 2017Publication date: June 14, 2018Inventors: Paul Jan Klasek, Liam Holley, Quangang Yang, Steven Paul Farrugia, Timothy Tsun-Fai Fu, Robert Henry Frater
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Patent number: 9855397Abstract: A CPAP system includes a PAP device (5) structured to generate a supply of pressurized air, a patient interface (15) adapted to engage with the patient's face to provide a seal, an air delivery conduit (102,104) provided between the PAP device and the patient interface to deliver the supply of pressurized air along a gas delivery path from the PAP device to the patient interface, and a muffler (100) provided along the gas delivery path downstream of the PAP device.Type: GrantFiled: August 4, 2010Date of Patent: January 2, 2018Assignee: ResMed LimitedInventors: Gregory Robert Peake, Jeffrey Peter Armitstead, Paul Andrew Dickens, Dmitri Anatolievich Doudkine, Robert Edward Henry, Liam Holley, Gerard Michael Rummery, Lee James Veliss
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Patent number: D824030Type: GrantFiled: April 18, 2017Date of Patent: July 24, 2018Assignee: ResMed LimitedInventors: Liam Holley, Simon Robert Cork, Sebastien Deubel
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Patent number: D837379Type: GrantFiled: May 30, 2018Date of Patent: January 1, 2019Assignee: ResMed LimitedInventors: Liam Holley, Simon Robert Cork, Sebastien Deubel