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Last Updated: May 19, 2024

Claims for Patent: 10,918,816

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Summary for Patent: 10,918,816

Title:	Compliance monitoring module for a breath-actuated inhaler
Abstract:	A compliance monitoring module for a breath-actuated inhaler comprising: a miniature pressure sensor, a sensor port of said sensor being pneumatically coupled to a flow channel through which a user can inhale; a processor configured to: receive a signal originating from a dosing mechanism of the inhaler indicating that medication has been released; receive data from a sensing element of the sensor; and based on said signal from said dosing mechanism and said data from said sensing element, make a determination that inhalation of a breath containing medication through said flow channel complies with one or more predetermined requirements for successful dosing; and a transmitter configured to, responsive to said determination, issue a dosing report.
Inventor(s):	Morrison; Mark Steven (Basking Ridge, NJ), Weitzel; Douglas E. (Hamilton, NJ), Calderon Oliveras; Enrique (Waterford, IE), Buck; Daniel (Waterford, IE)
Assignee:	Norton (Waterford) Limited (Waterford, IE)
Application Number:	16/148,075
Patent Claims:	1. An inhaler for delivering a dose of medicament to treat a respiratory condition, the inhaler comprising: a mouthpiece comprising a flow channel through which the dose of medicament can be delivered to a user; a barometric pressure sensor pneumatically coupled to the flow channel, wherein the barometric pressure sensor is configured to measure a barometric pressure change within the inhaler resulting from an inhalation or an exhalation into the mouthpiece; a processor electrically coupled to the barometric pressure sensor, wherein the processor is configured to determine a value indicative of the inhalation or the exhalation into the mouthpiece based on the pressure change; a first housing that includes a reservoir comprising the medicament; and a second housing mechanically coupled to the first housing, wherein the second housing includes the barometric pressure sensor and the processor. 2. The inhaler of claim 1, wherein the barometric pressure sensor is further configured to measure a first barometric pressure prior to the inhalation or the exhalation into the mouthpiece and a second barometric pressure during the inhalation or the exhalation into the mouthpiece. 3. The inhaler of claim 1, wherein the first housing is a boot shaped inhaler housing comprising the mouthpiece, and the second housing is disposed at a distal end of the first housing, the distal end being opposite to the mouthpiece. 4. The inhaler of claim 1, further comprising an indicator, wherein the processor is configured to change a status of the indicator based on the pressure change or the value indicative of the inhalation or the exhalation. 5. The inhaler of claim 1, further comprising the medicament, wherein the medicament comprises one or more of salbutamol sulfate, fluticasone propionate, salmeterol, or beclomethasone. 6. The inhaler of claim 1, wherein the inhaler further comprises a wireless transmitter; wherein the processor is further configured to calculate a patient flow profile based on the pressure change to create a waveform associated with fluctuations of pressure detected by the barometric pressure sensor; and wherein the wireless transmitter is configured to transmit the patient flow profile to a user device comprising a smartphone, a tablet, a laptop, or a desktop computer. 7. The inhaler of claim 1, further comprising a mouthpiece cover, wherein the dose of medicament is made available to the flow channel based on movement of the mouthpiece cover. 8. A method of operating an inhaler having a mouthpiece and a flow channel for delivering a dose of medicament to a user, the method comprising: priming the inhaler for use to make the dose of medicament available to the flow channel; measuring a barometric pressure change outside of the flow channel resulting from an exhalation into the mouthpiece; and determining a value indicative of the exhalation into the mouthpiece based on the pressure change. 9. The method of claim 8, further comprising measuring a first barometric pressure prior to the exhalation into the mouthpiece and a second barometric pressure during the exhalation into the mouthpiece. 10. The method of claim 8, further comprising changing a status of an indicator disposed on the inhaler based on the pressure change or the value indicative of the exhalation. 11. The method of claim 8, further comprising actuating a switch disposed on the inhaler based on movement of a mouthpiece cover and changing a status of the indicator based on actuation of the switch, wherein changing the status of the indicator comprises changing a color or illumination of a light. 12. The method of claim 8, further comprising transmitting the pressure change or the value indicative of the exhalation to a user device comprising a smartphone, a tablet, a laptop, or a desktop computer. 13. The method of claim 8, wherein the medicament comprises one or more of salbutamol sulfate, fluticasone propionate, salmeterol, or beclomethasone. 14. A medicament delivery system comprising: an inhaler for delivering a dose of medicament to treat a respiratory condition, wherein the inhaler comprises: a mouthpiece; a flow channel through which the dose of medicament can be delivered to a user when the user inhales through the mouthpiece; a barometric pressure sensor pneumatically coupled to the flow channel, wherein the barometric pressure sensor is configured to measure a barometric pressure change outside of the flow channel resulting from an inhalation or an exhalation into the mouthpiece; a processor electrically coupled to the barometric pressure sensor, wherein the processor is configured to determine a value indicative of the inhalation or the exhalation into the mouthpiece based on the pressure change; and a wireless transmitter configured to transmit the value indicative of the inhalation or the exhalation; a smartphone application residing on a smartphone configured for wireless communication with the inhaler, wherein the smartphone application is further configured to receive the value indicative of the inhalation or the exhalation from the inhaler. 15. The medicament delivery system of claim 14, wherein the inhaler further comprises a mouthpiece cover; wherein the processor is configured to generate a time stamp when the mouthpiece cover is moved to expose the mouthpiece; wherein the wireless transmitter is configured to transmit the time stamp; and wherein the smartphone application is further configured to receive the time stamp. 16. The medicament delivery system of claim 14, wherein the inhaler comprises medicament, and wherein the medicament comprises one or more of salbutamol sulfate, fluticasone propionate, salmeterol, or beclomethasone. 17. The medicament delivery system of claim 14, wherein the inhaler further comprises a mouthpiece cover, and wherein the inhaler is configured to make the dose of medicament available to the flow channel based on movement of the mouthpiece cover. 18. The medicament delivery system of claim 14, wherein the inhaler further comprises a mouthpiece cover; and wherein the pressure sensor is configured to change from a first state to a second state associated when the mouthpiece cover is moved to expose the mouthpiece, wherein the first state is an off state or a sleep state, and the second state is an on state. 19. The medicament delivery system of claim 14, wherein the inhaler further comprises: a first housing that includes a reservoir comprising the medicament; and a second housing mechanically coupled to the first housing, wherein the second housing includes the barometric pressure sensor and the processor. 20. The medicament delivery system of claim 14, wherein the processor is further configured to record a patient flow profile based on the pressure change, wherein the wireless transmitter is configure to transmit the patient flow profile, and wherein the smartphone application is configured to receive the patient flow profile.

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