An aerosol forming component for volatilizing a liquid in an aerosol delivery device is disclosed. The aerosol forming component includes a first aerosol-forming member configured to be heated up to a first operating temperature and thereafter to a second higher operating temperature, and a second aerosol-forming member configured to be heated up to at least the first operating temperature as the first aerosol-forming member reaches the second higher operating temperature so that liquid volatilized from the two aerosol-forming members mix with one another.

The present disclosure provides a dose collection apparatus that comprises a first conduit comprising a first inlet port and a first fluid flow path and a second conduit comprising a second inlet port and a second fluid flow path.

An improved spacer connects at one end to metered-dose inhalers with a connector configured to accept the mouth of the inhaler. Additionally, the spacer has a mouthpiece at its opposite end and a collapsible body made of a nonrigid material that maintains it shape with a resilient frame. The mouthpiece and body compress and nest within a cavity of the connector when the spacer is not in use. The spacer can further include a cover, a case, a vent to improve airflow, and/or a valve to cover the spacer to a valved holding chamber.

An atomizer is provided. The atomizer includes a battery rod, including a rod body, a battery, and a first electrical connection part arranged on the rod body and exposed from the rod body, wherein an end of the rod body is disposed with a receiving part, and the first electrical connection part is located in the receiving part, an atomizing head, including a housing and a second electrical connection part arranged on the housing and exposed from the housing, and a mechanical switch, arranged on the rod body and exposed outside the rod body, wherein the mechanical switch is electrically connected between the battery and the first electrical connection part, and configured to turn on or turn off an electrical connection between the battery and the first electrical connection part; wherein the first electrical connection part is in contact with the second electrical connection part when the atomizing head is inserted into the receiving part, the electrical connection between the battery and the first electrical connection part is turned on when the atomizing head is inserted into the receiving part and the mechanical switch is triggered, and thereby an electrical connection between the first electrical connection part and the second electrical connection part is turned on to supply a power to the atomizing head through the battery. Using the mechanical switch to control the battery rod whether supply a power to the atomizing head or not can ensure the effectiveness of triggering power supply for a long time.

Disclosed is a dry powder inhaler for delivering medicament from at least one blister pack, each blister pack having a plurality of spaced-apart blister pockets containing doses of the medicament. The inhaler comprises: a housing for accommodating unused and used portions of the at least one blister pack together with a dispensing mechanism for simultaneously opening at least two blister pockets at a time; and a manifold component through which air can be drawn in use of the inhaler. The manifold component comprises: first and second air inlet openings for receiving external air a first air outlet opening for providing the external air to a first opened blister pocket and a first medicament inlet opening for receiving air-entrained medicament from the first opened blister pocket, the first air outlet opening and the first medicament inlet opening being arranged side-by-side to enable simultaneous communication with the first opened blister pocket; a second air outlet opening for providing the external air to a second opened blister pocket and a second medicament inlet opening for receiving air-entrained medicament from the second opened blister pocket, the second air outlet opening and the second medicament inlet opening being arranged side-by-side to enable simultaneous communication with the second opened blister pocket; and a medicament outlet opening for delivery of the air-entrained medicament from the first and second opened blister pockets to the user, the first and second medicament inlet openings being fluidly connected to the medicament outlet opening by a medicament delivery conduit formed in the manifold component. The first and second air inlet openings are fluidly connected to the first and second air outlet openings by respective first and second air conduits in the manifold component, wherein the air conduits are separately provided so that the external air from each of the first and second air inlet openings does not mix with the external air from the other of the first and second air inlet openings before reaching the first and second opened blister pockets.

A flavored attachment can adhere to the mouthpiece of an inhaler or the like, wherein the attachment is designed so that it lasts for a sufficient duration to ensure the person taking the medicine has taken the proper dosage.

A method for controlling operation of an inhalation device, comprising configuring an inhalation device to store at least one substance; configuring the inhalation device to dispense the at least one substance in a predetermined manner; configuring the inhalation device to gather usage information about the dispensing of the at least one substance, transmit the gathered usage information to a location or device remote from the inhalation device, and receive operational commands from a location or device remote from the inhalation device, wherein the operational commands are provided by a controller that is in electrical or digital communication with the inhalation device, wherein the controller is configured to both receive usage information from the inhalation device and transmit operational commands back to the inhalation device; and wherein the controller is in electrical or digital communication with a remote server that is configured to receive queries from the controller and transmit information relevant to the queries back to the controller.

A mask includes a body having an interior surface defining a cavity shaped to receive a user's nose. An exterior surface of the body is exposed to an ambient environment. The body includes an inlet in fluid communication with the cavity and a one-way exhaust valve in fluid communication between the cavity and the ambient environment. A therapeutic substance dispenser is in fluid communication with the cavity. In one embodiment, a nasal aromatic decongestant is disposed in the therapeutic dispenser. A mask includes an upper nasal cavity separate from a lower oral cavity, with an inlet in fluid communication with only the upper nasal cavity. A medicament delivery assembly, and methods for the use thereof, are also provided.

A dry powder delivery device may be configured to provide micronized dry powder particles to airways of a user. The device may include a cylindrical container delimiting a chamber containing at least one magnetically-responsive object, a motor external to said chamber, a magnet external to the chamber and rotatably coupled with the motor, and an outflow member configured to direct airflow to a user. The magnetically-responsive object may be coated with micronized dry powder particles, and the motor may be operable to rotate the magnet about an axis. Rotation of the magnet creates a magnetic field that causes the magnetically-responsive object to move in response to the magnetic field and collide with a side wall of the container to deaggregate the dry powder particles and aerosolize the dry powder in the chamber.

The invention provides a method of testing an inhaler based on performing an optical analysis of a dry powder medicament plume discharged from the inhaler upon actuation. More particularly, embodiments of the invention comprise illuminating the dry powder plume with a source of electromagnetic radiation and capturing one or more images of a pattern of radiation reflected or diffracted by the illuminated plume. The images are subsequently processed to determine and/or analyse one or more geometric and/or dynamic characteristics of the plume.