Abstract: A device and method for measuring a volume of liquid expelled from a syringe is provided. The device generally includes a syringe barrel, a plunger actuated with a plunger rod, and a sensor. The sensor may include two ports with one port being in fluid communication with a source of fluid external to the syringe barrel, while the second port is in fluid communication either with a proximal end portion of the syringe barrel or a hollow plunger rod having a first end closed by the plunger. The method may include expelling liquid from the syringe; detecting and recording differential pressure with the sensor over time; and calculating the volume of liquid expelled from the syringe from the recorded differential pressure over time.

Abstract: A compliance monitoring module for an inhaler comprising: a miniature pressure sensor, a sensor port of said sensor being configured to be pneumatically coupled to a flow channel of said inhaler through which a user can inhale; a processor configured to: receive data from a sensing element of the pressure sensor; receive data from a mode sensor configured to detect when the inhaler changes from an inactive mode to an active mode; and based on said data from said pressure sensor sensing element and said data from said mode sensor, compile a compliance report; and a transmitter configured to issue said compliance report.

Abstract: A device and method for measuring a volume of liquid expelled from a syringe is provided. The device generally includes a syringe barrel, a plunger actuated with a plunger rod, and a sensor. The sensor may include two ports with one port being in fluid communication with a source of fluid external to the syringe barrel, while the second port is in fluid communication either with a proximal end portion of the syringe barrel or a hollow plunger rod having a first end closed by the plunger. The method may include expelling liquid from the syringe; detecting and recording differential pressure with the sensor over time; and calculating the volume of liquid expelled from the syringe from the recorded differential pressure over time.

Abstract: An inhalation monitoring system includes an inhaler having a medicament delivery apparatus configured to deliver medicament to a user during an inhalation of the user; inhalation monitoring apparatus, configured to, during the inhalation, gather data for determining a measure of the user's lung function and/or lung health; and a processor configured to receive the data from the inhalation monitoring apparatus and, using the data, determine a measure of the user's lung function and/or lung health.

Abstract: An inhalation monitoring system includes an inhaler having a medicament delivery apparatus configured to deliver medicament to a user during an inhalation of the user; inhalation monitoring apparatus, configured to, during the inhalation, gather data for determining a measure of the user's lung function and/or lung health; and a processor configured to receive the data from the inhalation monitoring apparatus and, using the data, determine a measure of the user's lung function and/or lung health.

Abstract: An inhalation monitoring system includes an inhaler having a medicament delivery apparatus configured to deliver medicament to a user during an inhalation of the user; inhalation monitoring apparatus, configured to, during the inhalation, gather data for determining a measure of the user's lung function and/or lung health; and a processor configured to receive the data from the inhalation monitoring apparatus and, using the data, determine a measure of the user's lung function and/or lung health.

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.

Abstract: A compliance monitoring module for an inhaler comprising: a miniature pressure sensor, a sensor port of said sensor being configured to be pneumatically coupled to a flow channel of said inhaler through which a user can inhale; a processor configured to: receive data from a sensing element of the pressure sensor; receive data from a mode sensor configured to detect when the inhaler changes from an inactive mode to an active mode; and based on said data from said pressure sensor sensing element and said data from said mode sensor, compile a compliance report; and a transmitter configured to issue said compliance report.

Abstract: Systems and methods for delivering therapy and/or medicament to a subject use one or more sensors to generate signals that represent characteristics of ultrasonic energy emitted during the use of respiratory medicament delivery devices. Parameters based on these signals indicate energy amplitude in one or more frequency ranges. Such parameters can be used to characterize the emitted ultrasonic energy and control and/or monitor device operation and/or patient adherence.

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.

Abstract: A compliance monitoring module for an inhaler comprising: a miniature pressure sensor, a sensor port of said sensor being configured to be pneumatically coupled to a flow channel of said inhaler through which a user can inhale; a processor configured to: receive data from a sensing element of the pressure sensor; receive data from a mode sensor configured to detect when the inhaler changes from an inactive mode to an active mode; and based on said data from said pressure sensor sensing element and said data from said mode sensor, compile a compliance report; and a transmitter configured to issue said compliance report.

Abstract: Systems and methods for delivering medicament to a subject use one or more sensors to generate signals that represent characteristics of the ultrasonic energy emitted by a respiratory medicament delivery device during operation. Parameters based on these signals indicate energy amplitude in one or more frequency ranges. Such parameters can be used to control and/or monitor device operation and/or patient adherence.

Abstract: A tidal dry powder 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 process data received from a sensing element of the sensor to make a determination that inhalation of a spontaneous breath through said flow channel is in progress; a controller configured to, responsive to said determination, issue a start dosing signal; and a dosing mechanism configured to release dry powder medicament into the flow channel during inhalation of said spontaneous breath in response to receiving said signal.

Abstract: Systems and methods for delivering medicament to a subject use one or more sensors to generate signals that represent characteristics of the ultrasonic energy emitted into or by a respiratory medicament delivery device. Parameters based on these signals indicate energy amplitude in one or more frequency ranges. Such parameters can be used to determine respiratory parameters, patient adherence, and/or other parameters.

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.

Abstract: An inhalation device for delivering medication to a user may include a mouthpiece, a dosing chamber, and a flow channel connecting the mouthpiece to the dosing chamber. The dosing chamber may be configured to deliver the medication to the user via the mouthpiece. The inhalation device may include an electronically driven vibratory element, a sensor system configured to generate a pressure signal indicative of air flow through the flow channel, and a controller. The controller may be configured to receive the pressure signal from the sensor system (e.g., a micro-electrical mechanical (MEMS) pressure sensor). The controller may be configured to perform an inhalation detection procedure to determine a plurality of successful inhalations. For example, the controller may be configured to generate a trigger signal to control timing of operation of the electronically driven vibratory element to release medication into the dosing chamber based on the plurality of successful inhalations.

Abstract: A system and method for communicating data from a medical device to a lighting device is provided. The system may include the medical device, the lighting device, and/or one or more interface devices. The medical device may be configured to transmit data to the lighting device, which for example, may include information relating to the medical device, dosage information, diagnostic data, medical device training feedback, health monitoring information, and/or air quality information. The lighting device may be configured to receive data from the medical device and control one or more lighting characteristics based on the received data. A characteristic of the light may include one or more of color, color temperature, intensity, flashing or steady-state, on or off, and/or the like. The system may provide for a home based adherence and/or compliance monitoring system, in which a patient's interaction with a medical device may be monitored and an alert/indication provided.

Abstract: A system and method for communicating data from a medical device to a lighting device is provided. The system may include the medical device, the lighting device, and/or one or more interface devices. The medical device may be configured to transmit data to the lighting device, which for example, may include information relating to the medical device, dosage information, diagnostic data, medical device training feedback, health monitoring information, and/or air quality information. The lighting device may be configured to receive data from the medical device and control one or more lighting characteristics based on the received data. A characteristic of the light may include one or more of color, color temperature, intensity, flashing or steady-state, on or off, and/or the like. The system may provide for a home based adherence and/or compliance monitoring system, in which a patient's interaction with a medical device may be monitored and an alert/indication provided.

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.

Abstract: An inhalation monitoring system includes an inhaler having a medicament delivery apparatus configured to deliver medicament to a user during an inhalation of the user; inhalation monitoring apparatus, configured to, during the inhalation, gather data for determining a measure of the user's lung function and/or lung health; and a processor configured to receive the data from the inhalation monitoring apparatus and, using the data, determine a measure of the user's lung function and/or lung health.