Patents Assigned to Stamford Devices Limited
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Publication number: 20210252231Abstract: A nebulizer comprises a controller linked at its output to a nebulizer head, and at its input to a USB cable and USB plug for connection to a host system. The link between the USB plug and the controller is a USB cable with power and data channels. The controller comprises a boost circuit, a microcontroller 11, and a drive circuit. The latter provides power and control signals via a cable and proprietary plug to the nebulizer head. These signals provide power and control for a vibrating membrane receiving a liquid to be aerosolised. The controller has a housing with LED status lamps, and an ON/OFF button. The controller can be controlled via a host, either locally or remotely.Type: ApplicationFiled: May 4, 2021Publication date: August 19, 2021Applicant: Stamford Devices LimitedInventors: Michael CASEY, Joseph Grehan, Kieran Hyland, John Power
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Patent number: 11065399Abstract: A nebulizer has an aperture plate, a mounting, an actuator, and an aperture plate drive circuit (2-4). A controller measures an electrical drive parameter at each of a plurality of measuring points, each measuring point having a drive frequency; and based on the values of the parameter at the measuring points makes a determination of optimum drive frequency and also an end-of-dose prediction. The controller performs a short scan at regular sub-second intervals at which drive current is measured at two measuring points with different drive frequencies. According to drive parameter measurements at these points the controller determines if a full scan sweeping across a larger number of measuring points should be performed. The full scan provides the optimum drive frequency for the device and also an end of dose indication.Type: GrantFiled: September 16, 2019Date of Patent: July 20, 2021Assignee: STAMFORD DEVICES LIMITEDInventors: Joseph Grehan, Niall Smith
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Publication number: 20210187209Abstract: A digital processor of a nebulizer controller controls and monitors drive current (I) applied to an aperture plate. The drive current is detected as a series of discrete values at each of multiple measuring points, each having a particular drive frequency The processor in real time calculates a slope or rate of change of drive current with frequency and additionally determines a minimum value for drive current leading up to the peak value. The processor uses both the value of the minimum drive current during the scan and also the maximum slope value to achieve reliable prediction of end of dose, when the aperture plate becomes dry.Type: ApplicationFiled: March 8, 2021Publication date: June 24, 2021Applicant: Stamford Devices LimitedInventors: Joseph Grehan, Michael Casey, Shaun Porter, Niall Smith
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Patent number: 11027076Abstract: A nebulizer comprises a controller linked at its output to a nebulizer head, and at its input to a USB cable and USB plug for connection to a host system. The link between the USB plug and the controller is a USB cable with power and data channels. The controller comprises a boost circuit, a microcontroller 11, and a drive circuit. The latter provides power and control signals via a cable and proprietary plug to the nebulizer head. These signals provide power and control for a vibrating membrane receiving a liquid to be aerosolised. The controller has a housing with LED status lamps, and an ON/OFF button. The controller can be controlled via a host, either locally or remotely.Type: GrantFiled: June 26, 2018Date of Patent: June 8, 2021Assignee: STAMFORD DEVICES LIMITEDInventors: Michael Casey, Joseph Grehan, Kieran Hyland, John Power
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Patent number: 10967138Abstract: A digital processor of a nebulizer controller controls and monitors drive current (I) applied to an aperture plate. The drive current is detected as a series of discrete values at each of multiple measuring points, each having a particular drive frequency The processor in real time calculates a slope or rate of change of drive current with frequency and additionally determines a minimum value for drive current leading up to the peak value. The processor uses both the value of the minimum drive current during the scan and also the maximum slope value to achieve reliable prediction of end of dose, when the aperture plate becomes dry.Type: GrantFiled: September 22, 2016Date of Patent: April 6, 2021Assignee: STAMFORD DEVICES LIMITEDInventors: Joseph Grehan, Michael Casey, Shaun Porter, Niall Smith
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Publication number: 20200405995Abstract: A supplemental oxygen delivery system is described in which Aerosol is delivered into a housing 10, 20, which sits in the circuit from the supplemental oxygen supply and optional humidifier. The supplemental oxygen passes through this chamber 10, 20 in which the aerosol is located, and collects the aerosol transporting it to a patient via a nasal cannula 3 or a face mask 4. An aerosol generator 9 is mounted to the housing 10, 20 and delivers aerosol into an oxygen stream 13 flowing between an inlet 14 and an outlet 15 of the housing 10. The housing 10 also has a removable plug 16 in the base 17 thereof for draining any liquid that accumulates in the housing 10. There is no disruption of oxygen delivery to patients using nasal cannulas who currently have to use a separate face-mask when receiving nebulized medication.Type: ApplicationFiled: September 9, 2020Publication date: December 31, 2020Applicant: Stamford Devices LimitedInventors: John Sylvester Power, James B. Fink, Conor Paul Duffy, Trevor Stephen Fahy
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Publication number: 20200347507Abstract: In one embodiment, a method for manufacturing an aperture plate includes depositing a releasable seed layer above a substrate, applying a first patterned photolithography mask above the releasable seed layer, the first patterned photolithography mask having a negative pattern to a desired aperture pattern, electroplating a first material above the exposed portions of the releasable seed layer and defined by the first mask, applying a second photolithography mask above the first material, the second photolithography mask having a negative pattern to a first cavity, electroplating a second material above the exposed portions of the first material and defined by the second mask, removing both masks, and etching the releasable seed layer to release the first material and the second material. The first and second material form an aperture plate for use in aerosolizing a liquid. Other aperture plates and methods of producing aperture plates are described according to other embodiments.Type: ApplicationFiled: April 20, 2020Publication date: November 5, 2020Applicant: Stamford Devices LimitedInventor: Hong XU
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Patent number: 10792455Abstract: A supplemental oxygen delivery system is described in which Aerosol is delivered into a housing 10, 20, which sits in the circuit from the supplemental oxygen supply and optional humidifier. The supplemental oxygen passes through this chamber 10, 20 in which the aerosol is located, and collects the aerosol transporting it to a patient via a nasal cannula 3 or a face mask 4. An aerosol generator 9 is mounted to the housing 10, 20 and delivers aerosol into an oxygen stream 13 flowing between an inlet 14 and an outlet 15 of the housing 10. The housing 10 also has a removable plug 16 in the base 17 thereof for draining any liquid that accumulates in the housing 10. There is no disruption of oxygen delivery to patients using nasal cannulas who currently have to use a separate face-mask when receiving nebulized medication.Type: GrantFiled: January 4, 2017Date of Patent: October 6, 2020Assignee: STAMFORD DEVICES LIMITEDInventors: John Sylvester Power, James B. Fink, Conor Paul Duffy, Trevor Stephen Fahy
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Publication number: 20200276607Abstract: An aperture plate (1) is attached at its rim (203) to a support washer (3) by adhesive. Anchor grooves (204) having a zig-zag pattern in plan are machined in the lower surface of the rim (203 of the aperture plate before application of the adhesive. The grooves (204) extend out to the edge of the aperture plate (1). The anchor grooves have a depth in the range of 10 ?m to 40 ?m, and a width in the range of 20 ?m to 150 ?m, and an angular pitch in the range of 2.5° to 12.5°. Excellent bonding strength is achieved for long term reliable attachment in an environment of high frequency vibration and moisture and chemical corrosion.Type: ApplicationFiled: November 27, 2018Publication date: September 3, 2020Applicant: STAMFORD DEVICES LIMITEDInventors: Michael AHERNE, Colga COYE, Philip SCANLON
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Publication number: 20200246558Abstract: A system for delivery of aerosol therapy to spontaneously breathing patients comprises a housing which defines a chamber. The housing has a base, a top and a main body extending between the base and the top. An ambient air inlet is located adjacent to the base and is normally closed by an inlet valve. The housing also has a patient port for receiving a mouthpiece or a face mask. The mouthpiece has an exhaust outlet closed by an exhaust valve. Similarly, the face mask has an exhaust outlet closed by an exhaust valve. Exhaled air is exhausted through the valves and to prevent recirculation through the chamber which would adversely affect dose efficiencies. The housing also has an aerosol port for receiving a vibrating mesh aerosol generating device. The aerosol port is located in a side of the main body of the housing for delivery of aerosol into the chamber between the inlet valve and the patient port.Type: ApplicationFiled: April 24, 2020Publication date: August 6, 2020Applicant: Stamford Devices LimitedInventors: Patrick Joseph POWER, Jimmy EATON-EVANS
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Patent number: 10695787Abstract: An aerosol generator (100) has a vibratable plate (1) with apertures therein and an annular piezo (2) which causes movement of the vibratable plate (1). An annular support member (3) supports the piezo (2) and the vibratable plate (1). A first electrical power conducting pin (10) engages directly with a first, top, surface of the piezo (2). A second electrical power conducting pin (11) indirectly conducts electrical power to a second surface of the piezo (2), by contacting an extension tab (103) of the support member (20), also on its top side. There is a film of cured epoxy adhesive on the tab (103), providing excellent gripping force between the pin (11) and the support (3). The aerosol generator (100) avoids need for soldered joints for electrical contact, and the pins are conveniently mounted parallel to each on the on the same lateral and top side of the piezo and support member. The pins may have multi-point tips (50) for particularly effective electrical contact.Type: GrantFiled: March 31, 2017Date of Patent: June 30, 2020Assignee: STAMFORD DEVICES LIMITEDInventors: Brendan Hogan, Kieran Hyland, Anthony Redmond
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Publication number: 20200197647Abstract: Apparatus and methods are provided for delivery of a medicament to a respiratory system. A reservoir is provided for a liquid medicament with the reservoir having a liquid medicament inlet port and a medicament outlet. An aerosol generator is provided at the medicament outlet of the reservoir for aerosolizing the liquid medicament. A connector entrains the aerosolized medicament from the aerosol generator with a gas.Type: ApplicationFiled: January 3, 2020Publication date: June 25, 2020Applicant: Stamford Devices LimitedInventors: John POWER, Desmond REGAN, Declan MORAN
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Patent number: 10661031Abstract: An aerosol delivery system has a nebulizer and a humidifier providing a gas flow to the nebulizer. A controller varies humidity level of the gas flow to the nebulizer so that if the nebulizer is not operating it has about 100% humidity and it is operating the value is less to allow for the humidification effect of the nebulizer. The control may be achieved by dynamically varying proportions of flow through a dry branch and a humidification branch.Type: GrantFiled: June 10, 2015Date of Patent: May 26, 2020Assignee: STAMFORD DEVICES LIMITEDInventor: Patrick Power
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Patent number: 10662543Abstract: A method for manufacturing an aperture plate includes depositing a releasable seed layer above a substrate, applying a first patterned photolithography mask above the releasable seed layer, the first patterned photolithography mask having a negative pattern to a desired aperture pattern, electroplating a first material above the exposed portions of the releasable seed layer and defined by the first mask, applying a second photolithography mask above the first material, the second photolithography mask having a negative pattern to a first cavity, electroplating a second material above the exposed portions of the first material and defined by the second mask, removing both masks, and etching the releasable seed layer to release the first material and the second material. The first and second material form an aperture plate for use in aerosolizing a liquid. Other aperture plates and methods of producing aperture plates are described.Type: GrantFiled: January 20, 2016Date of Patent: May 26, 2020Assignee: STAMFORD DEVICES LIMITEDInventor: Hong Xu
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Publication number: 20200156098Abstract: An aerosol delivery system has an aerosol generator with a vibrating aperture plate (10) and an actuator (11, 16, 17, 19), a controller (18, 19). The controller in real time monitors (201) the aerosol generator as it is driven for vibration of the aperture plate, and detects (202) a change in an electrical characteristic in response to a transition from a wet state to a dry state of the aperture plate. It automatically modifies (203, 205, 206), during the transition, operation of the aerosol generator in response to the detected change. The modification includes reducing applied power (203). The controller continues (204) to monitor during the transition, including monitoring the aperture plate for presence of residual liquid on the aperture plate first surface.Type: ApplicationFiled: August 23, 2018Publication date: May 21, 2020Applicant: STAMFORD DEVICES LIMITEDInventors: Joseph GREHAN, Noel COYLE, Russell GREANEY, Stephen THORNTON
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Publication number: 20200155788Abstract: A high flow nasal therapy system (1) has a gas supply (2), a nebulizer (12), and a nasal interface (7). There are two branches (11, 10) and a valve (6) linked with the controller, the branches including a first branch (11) for delivery of aerosol and a second branch (10) for delivery of non-aerosolized gas. The controller controls delivery into the branches (11, 10), in which flow is unidirectional in the first and second branches, from the gas supply towards the nasal interface. The first branch (11) includes the nebulizer (12) and a line configured to store a bolus of aerosol during flow through the second branch (10). The valve (6) comprises a Y-junction between the gas inlet on one side and the branches on the other side.Type: ApplicationFiled: January 23, 2020Publication date: May 21, 2020Applicant: Stamford Devices LimitedInventors: Ronan MACLOUGHLIN, Niall Smith
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Publication number: 20200155786Abstract: A supplemental oxygen delivery system is described in which Aerosol is delivered into a housing 10, 20, which sits in the circuit from the supplemental oxygen supply and optional humidifier. The supplemental oxygen passes through this chamber 10, 20 in which the aerosol is located, and collects the aerosol transporting it to a patient via a nasal cannula 3 or a face mask 4. An aerosol generator 9 is mounted to the housing 10, 20 and delivers aerosol into an oxygen stream 13 flowing between an inlet 14 and an outlet 15 of the housing 10. The housing 10 also has a removable plug 16 in the base 17 thereof for draining any liquid that accumulates in the housing 10. There is no disruption of oxygen delivery to patients using nasal cannulas who currently have to use a separate face-mask when receiving nebulized medication.Type: ApplicationFiled: January 22, 2020Publication date: May 21, 2020Applicant: Stamford Devices LimitedInventors: John Sylvester Power, James B. Fink, Conor Paul Duffy, Trevor Stephen Fahy
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Publication number: 20200114112Abstract: A gas therapy system (1) has a flow line (3, 2), a coupler (6) to a gas source, and an aerosol generator (4) for aerosol delivery, and a patient interface such as a nasal interface (2). A controller (10) is configured to modulate gas flow and aerosol delivery in real time. The controller changes gas flow rate and dynamically reduces aerosol delivery during upper gas flow rates such as 60 LPM, and activates aerosol delivery during lower gas flow rates of for example 10 LPM. The control may also include sensors to detect breathing, so that there is a bias towards increased aerosol delivery during inhalation in addition to during lower level gas flow.Type: ApplicationFiled: July 3, 2018Publication date: April 16, 2020Applicant: STAMFORD DEVICES LIMITEDInventors: Ronan MACLOUGHLIN, Shaun PORTER, Conor DUFFY, John POWER
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Patent number: 10617840Abstract: A high flow nasal therapy system (1) has a gas supply (2), a nebulizer (12), and a nasal interface (7). There are two branches (11, 10) and a valve (6) linked with the controller, the branches including a first branch (11) for delivery of aerosol and a second branch (10) for delivery of non-aerosolized gas. The controller controls delivery into the branches (11, 10), in which flow is unidirectional in the first and second branches, from the gas supply towards the nasal interface. The first branch (11) includes the nebulizer (12) and a line configured to store a bolus of aerosol during flow through the second branch (10). The valve (6) comprises a Y-junction between the gas inlet on one side and the branches on the other side.Type: GrantFiled: April 10, 2015Date of Patent: April 14, 2020Assignee: STAMFORD DEVICES LIMITEDInventors: Ronan MacLoughlin, Niall Smith
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Publication number: 20200078536Abstract: A photo-resist (21) is applied in a pattern or vertical columns having the dimensions of holes or pores of the aperture plate to be produced. This mask pattern provides the apertures which define the aerosol particle size, having up to 2500 holes per square mm. There is electro-deposition of metal (22) into the spaces around the columns (21). There is further application of a second photo-resist mask (25) of much larger (wider and taller) columns, encompassing the area of a number of first columns (21). The hole diameter in the second plating layer is chosen according to a desired flow rate.Type: ApplicationFiled: November 18, 2019Publication date: March 12, 2020Applicant: Stamford Devices LimitedInventor: Brendan HOGAN