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Last Updated: June 16, 2024

Claims for Patent: 11,344,685

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Summary for Patent: 11,344,685

Title:	Drug delivery device with electronics
Abstract:	A device for delivering medication to a user may include a main body, an electronics module, and a slider. The main body may include a mouthpiece, a medication reservoir, and a mouthpiece cover, where the mouthpiece cover may be hinged to the main body. The electronics module may include a communication circuit, a pressure sensor, and a switch. The slider may be configured to engage the switch when the mouthpiece cover moves from a closed position to an open position. The switch may be configured to switch the electronics module from an off state or a sleep state to an active state. The electronics module may be configured to never return to the off state after the mouthpiece cover is moved to expose the mouthpiece for the first time by the user.
Inventor(s):	Calderon Oliveras; Enrique (Waterford, IE), Lewis; Carl L. (Cambridgeshire, GB), Cotton; Symon D'Oyly (Cambridge, GB), Gardner; Steven D. (Peterborough, GB), Kivlin; Robert O. (Cambridge, GB)
Assignee:	Norton (Waterford) Limited (Waterford, IE)
Application Number:	15/815,758
Patent Claims:	1. An inhaler for delivering medication to a user, the inhaler comprising: a main body having a mouthpiece and a mouthpiece cover; a slider at least partially disposed within the main body; and an electronics module comprising a controller, sensor, and a switch; wherein the electronics module is configured to be in an off state prior to the mouthpiece cover being moved to expose the mouthpiece for a first time, wherein the first time is when the user exposes the mouthpiece for an initial use; wherein, when the mouthpiece cover is moved to expose the mouthpiece for the first time, the slider is configured to engage the switch, causing the electronics module to transition from the off state to an active state and to sense an inhalation by the user from the mouthpiece using the sensor, and wherein, after the first time, the electronics module is configured to transition from the active state to a sleep state in response to the mouthpiece cover being closed to cover the mouthpiece; wherein, after the mouthpiece cover is moved to expose the mouthpiece for the first time, the electronics module is configured to transition from the sleep state to the active state in response to the mouthpiece cover being moved to expose the mouthpiece such that the electronics module is configured to not return to the off state after the mouthpiece cover is moved to expose the mouthpiece for the first time throughout the life of a battery of the inhaler; and wherein the electronics module is configured to consume less power when in the off state than when in the sleep state, and configured to consume less power when in the sleep state than when in the active state. 2. The inhaler of claim 1, wherein the electronics module is configured to start an internal counter when transitioning from the off state, and wherein the electronics module is configured to timestamp a sensed inhalation or an opening of the mouthpiece cover based on the internal counter. 3. The inhaler of claim 2, wherein the sensor comprises a pressure sensor; and wherein the electronics module is configured to change from the active state to the sleep state upon the electronics module determining that pressure measurements received from the pressure sensor do not fall within a predetermined range for a predetermined amount of time, the predetermined amount of time based on the internal counter. 4. The inhaler of claim 3, wherein the electronics module comprises memory, and wherein the controller is configured to store a timeout event and associated timestamp in the memory when the mouthpiece cover is moved to expose the mouthpiece and the pressure measurements are not within the predetermined range within the predetermined amount of time. 5. The inhaler of claim 1, further comprising medication that comprises (A) salbutamol sulfate, (B) fluticasone propionate, (C) fluticasone propionate and salmeterol, or (D) beclomethasone. 6. The inhaler of claim 1, wherein the sensor comprises a pressure sensor configured to measure pressure within the inhaler after the mouthpiece cover is moved from a closed position to an open position. 7. The inhaler of claim 6, wherein the controller is configured to cause the pressure sensor to take measurements for a predetermined period of time or until a predetermined event is detected. 8. The inhaler of claim 7, wherein the controller is configured to determine one or more inhalation parameters based on the measurements taken by the pressure sensor, and wherein the one or more inhalation parameters comprise: a peak flow rate; a time to peak flow rate; an inhaled volume; and an inhalation duration. 9. The inhaler of claim 8, wherein the electronics module further includes a communications circuit configured to wirelessly transmit the one or more inhalation parameters to an external device. 10. The inhaler of claim 1, wherein the controller of the electronics module is configured to monitor one or more pins of the controller when in the off state, and wherein the electronics module is configured to not supply power to the sensor when in the off state. 11. The inhaler of claim 1, wherein the electronics module further comprises memory and a wireless communication circuit, and wherein the sensor comprises a pressure sensor; and wherein, when in the active state, the electronics module is configured to perform at least one of the following: measure pressure within the inhaler after the mouthpiece cover is moved to expose the mouthpiece; determine one or more inhalation parameters based on the measured pressure; store the one or more inhalation parameters in a local memory; advertise to an external device; or transmit the one or more inhalation parameters to the external device. 12. The inhaler of claim 1, further comprising: a dose counter configured to decrement each time the mouthpiece cover is moved to expose the mouthpiece; and wherein the electronics module is configured to record a dose delivery event each time the switch is engaged and the electronics module to transitions to the active state or when an airflow metric computed based on measurements received from the sensor being above a threshold or within a range. 13. A method for delivering medication via an inhaler comprising a battery and an electronics module, the method comprising: maintaining the electronics module in an off state prior to a mouthpiece cover being moved to expose a mouthpiece for a first time, wherein the first time is when the user exposes the mouthpiece for an initial use, and wherein the electronics module comprising a controller, a sensor, and a switch; actuating the switch, via a slider of the inhaler, when the mouthpiece cover is moved to expose the mouthpiece; transitioning the electronics module from the off state to an active state when the switch is actuated for the first time; sensing an inhalation of a user from the mouthpiece; and delivering a dose of medication; wherein, after the first time, the electronics module is configured to transition from the active state to a sleep state in response to the mouthpiece cover being closed to cover the mouthpiece; wherein, after the mouthpiece cover is moved to expose the mouthpiece for the first time, the electronics module is configured to transition from the sleep state to the active state in response to the mouthpiece cover being moved to expose the mouthpiece such that the electronics module is configured to not return to the off state after the mouthpiece cover is moved to expose the mouthpiece for the first time throughout the life of the battery; and wherein the electronics module is configured to consume less power when in the off state than when in the sleep state, and configured to consume less power when in the sleep state than when in the active state. 14. The method of claim 13, further comprising making the dose of medication available to a flow channel of the mouthpiece when the mouthpiece cover is moved to expose the mouthpiece. 15. The method of claim 13, further comprising: starting an internal counter via a processor within the electronics module when transitioning from the off state and; timestamping the sensed inhalation or the movement of the mouthpiece cover based on the internal counter. 16. The method of claim 13, wherein the slider is at least partially disposed within a housing of the inhaler. 17. The method of claim 13, further comprising measuring, via the sensor of the electronics module, pressure within the inhaler until a predetermined event is detected or for a predetermined period of time after the mouthpiece cover is moved to expose the mouthpiece. 18. The method of claim 17, further comprising determining, via the electronics module, one or more inhalation parameters based on the measured pressure. 19. The method of claim 18, wherein the one or more inhalation parameters comprise: a peak flow rate; a time to peak flow rate; an inhaled volume; and an inhalation duration. 20. The method of claim 19, further comprising wirelessly transmitting, via a wireless communication circuit of the electronics module, the one or more inhalation parameters to an external device. 21. The method of claim 13, wherein the electronics module further comprises memory and a wireless communication circuit, and wherein the method further comprises the electronics module performing at least one of the following when in the active state: measuring pressure within the inhaler; determining one or more inhalation parameters based on the measured pressure; storing the one or more inhalation parameters in a local memory; advertising to an external device; and transmitting the one or more inhalation parameters to the external device. 22. An inhaler comprising: medication; a mouthpiece; a slider; a battery; a cover configured to move between a closed position where the cover conceals the mouthpiece and an open position where the cover exposes the mouthpiece; and an electronics module configured to be in an off state, a sleep state, or an on state, the electronics module configured to consume less power when in the off state than when in the sleep state, and configured to consume less power when in the sleep state than when in the on state; and wherein the electronics module is configured to be in the off state prior to the cover being moved to expose the mouthpiece for a first time, wherein the slider is configured to actuate a switch of the electronics module in response to the cover being moved to expose the mouthpiece, wherein the first time is when the user exposes the mouthpiece for an initial use, and configured to not return to the off state after the cover is moved to expose the mouthpiece for the first time throughout the life of the battery; wherein, after the mouthpiece cover is moved to expose the mouthpiece for the first time, the electronics module is configured to be in the sleep state when the mouthpiece cover is closed and configured to transition to the on state when the mouthpiece cover is moved to expose the mouthpiece. 23. The inhaler of claim 22, wherein the electronics module comprises a controller, a sensor, memory, and a wireless communication circuit. 24. The inhaler of claim 23, wherein the sensor comprises a pressure sensor; and wherein the electronics module is configured to change from the on state to the sleep state upon the electronics module determining that pressure measurements received from the pressure sensor do not fall within a predetermined range for a predetermined amount of time, the predetermined amount of time based on an internal counter of the controller. 25. The inhaler of claim 22, wherein the electronics module is configured to start an internal counter when transitioning from the off state, and wherein the electronics module is configured to timestamp a sensed inhalation or an opening of the mouthpiece cover based on the internal counter.

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