This invention provides a budesonide/formoterol dry powder inhaler (10) comprising: a reservoir (14) containing a dry powder medicament and an arrangement for delivering a metered dose of the medicament from the reservoir; a cyclone deagglomerator (10′) for breaking up agglomerates of the dry powder medicament; a delivery passageway (34) for directing an inhalation-induced air flow through a mouthpiece (24), the delivery passageway extending to the metered dose of medicament, wherein the medicament comprises micronised formoterol fumarate, micronised budesonide and a lactose carrier, the lactose carrier having a particle size distribution of d10=20-65 μm, d50=80-120 μm, d90=130-180 μm and <10 um=<10%.

A dry powder inhaler for providing pharmaceutically active particles includes a mouthpiece portion removably coupled to a distal end portion. The mouthpiece portion extends between the mouthpiece end and a first mating end. The distal end portion extends between a second mating end and the distal end. A capsule cavity is defined within the first mating end. An airflow element is disposed within the distal end portion and extends a longitudinal length to the capsule cavity. The airflow element includes an airflow channel extending the longitudinal length of the airflow channel and non-parallel with the longitudinal axis, the airflow channel directs inlet air into the capsule cavity, and a resealable membrane configured to reseal when a piercing element is withdrawn from the resealable membrane.

Dry powder inhaler dose counters capable of making a display move swiftly between digits. In contrast to the progressive movement that occurs in simple gearing mechanisms, there is provided a dry powder inhalation device comprising a housing defining a chamber, a patient port in communication with said chamber, an elongate carrier carrying medicament, an advancement mechanism for advancing a length of the elongate carrier into the chamber, a displacement sensor that advances in association with continuous advancement of the elongate carrier, and a transfer component that converts the advancement of the displacement sensor into intermittent motion of a units dose display.

This disclosure relates to nicotine powder inhalers where the nicotine powder is delivered at air flow rates that mimic a smoking regime.

A medical device includes a user interface component and an energy harvesting system coupled to the user interface component. The energy harvesting system energy includes a harvesting component, a power storage device connected to the energy harvesting component and an output is coupled to the user interface and operably connected to the power storage device. A method of using the medical device is also provided.

A positive exhalation pressure device (1) is described. The device (1) comprises a housing (2) having an annular chamber (5), a chamber inlet (6) configured to permit air into the chamber, a chamber outlet (7) configured to permit air out of the chamber, and a mouthpiece (8) in fluid communication with the chamber inlet. A movable body such as a ball (3) is disposed in the housing within the annular chamber and configured to revolve around the annular chamber in response to flow of air through the chamber from the chamber inlet to the chamber outlet. The movable body is configured to at least partially block the chamber outlet as it revolves around the annular chamber causing cyclical fluctuations in airflow resistance.

A novel dry powder inhaler. By providing a plurality of capsule chambers (1a, 1b, 1c, 1d) arranged in parallel in a capsule dry powder inhalation device, a medicine dispenser containing active components of a composite product or their mixture separately is provided. The dry powder inhaler has a simple structure and is convenient to operate. In addition, the parameters of air inlet channels and an air outlet channel can be adjusted by means of each capsule chamber (1a, 1b, 1c, 1d) according to the properties of powder of a medicine or a combination, so as to provide an appropriate particle distribution for each active component.

A dry powder medicament inhaler for metering an inhalation of dry powdered medicament may include at least one inlet and at least one outlet, wherein a communication between said inlet and outlet at least includes a mixing and deaggregation chamber and at least two dosage communications between the inlet and the chamber. The inhaler may also include a dosage mechanism for arranging at least one dose of a medicament between the inlet and the chamber, such that said at least one dose may be delivered upon inhalation at said outlet through said communications. The inhaler may further include a locking mechanism, wherein on moving the dosage mechanism from a dose collecting position to a dose administering position the locking mechanism may be moved from an unlocked to a locked position preventing the metering of any further doses prior to resetting of the locking mechanism. Instead of a locking mechanism, the inhaler may include a dosage indicator or a counterweight mechanism. The inhaler may also include combinations of a locking mechanism, a dosage indicator, and a counterweight mechanism.

Delivery of a dry powder via inhalation can be performed using an inhalation device having an inhalation tube and a hollow extension housing an assembly of components including a plurality of impellers, a puncturing device, and a dry powder container. The delivery of dry powder through the inhalation device is facilitated by the puncturing device puncturing the dry powder container, the impellers directing air flow, and the configuration of the extension and inhalation tube.

A positive exhalation pressure device (1) is described. The device (1) comprises a housing (2) having an annular chamber (5), a chamber inlet (6) configured to permit air into the chamber, a chamber outlet (7) configured to permit air out of the chamber, and a mouthpiece (8) in fluid communication with the chamber inlet. A movable body such as a ball (3) is disposed in the housing within the annular chamber and configured to revolve around the annular chamber in response to flow of air through the chamber from the chamber inlet to the chamber outlet. The movable body is configured to at least partially block the chamber outlet as it revolves around the annular chamber causing cyclical fluctuations in airflow resistance.