A method for controlling a vaporizer device may include determining a first temperature, vaporizing an inhalable substance at the first temperature, raising the first temperature by a temperature quantity, wherein a second temperature is a sum of the temperature quantity and the first temperature; and vaporizing the inhalable substance at the second temperature, wherein the temperature quantity is less than 3° C.

A method for controlling a vaporizer device may include determining a first temperature, vaporizing an inhalable substance at the first temperature, raising the first temperature by a temperature quantity, wherein a second temperature is a sum of the temperature quantity and the first temperature; and vaporizing the inhalable substance at the second temperature, wherein the temperature quantity is less than 3° C.

A drug delivery device (400) comprises a tip (416) configured to be positioned in a nose of a patient, the tip having an opening (414) therein, a coupling mechanism (402) configured to releasably couple to a first vial (404) containing a first drug therein, to release the first vial therefrom, and to subsequently be releasably coupled to a second vial containing a second drug therein, and a plunger configured to be actuated to cause the first drug to exit through the opening and to be subsequently actuated to cause the second drug to exit through the opening. The same drug delivery device is therefore configured to deliver multiple doses. There are also disclosed various exemplary reloadable drug vials for multi-dose delivery, drug products utilizing the same, and methods of using reloadable drug vials for multi-dose delivery.

A dry powder inhaler which contains a blister pack, such as a blister strip, is provided. The blister pack has a plurality of blisters, and a blister, or group of blisters, provides a dose of powdered medicament for inhalation. The blister pack has non-numerical indicia which encode an individual, unique number that is associated with each dose. The inhaler is adapted for mounting a monitor. The monitor comprises one or more sensors, such as optical sensors, for reading the non-numerical indicia on the blister pack.

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.

The invention provides a unit dose dispenser in the form of a blister containing a dry powder for inhalation. The blister comprises a base material in which a cavity is formed comprising a bowl that contains the powder and a channel that opens into the bowl. The channel contains a tube that has separate sections that provide an air outlet and an air inlet. The air outlet is further from the bowl than the air inlet. The upper side of the tube is flat and level with the top of the channel A lid material, such as a foil or foil laminate, seals the cavity. The blister has a detachable portion which, when removed, exposes the air inlet and the air outlet. A process for making the unit dose dispensers is also provided, which is based on the conventional process for manufacturing blister strips for dry powder inhalers.

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.

An inhaler tracker module is secured to an inhaler and has an activation sensor for sensing use of the inhaler. The tracker module includes a memory for storing inhaler use data, and a communications component for wirelessly transmitting the stored inhaler use data. The tracker module is wrapped around the inhaler body and includes a pressure switch located at the top of the canister to detect a user pressing the canister into the body for inhaler use. The tracking module has a standby mode in which it remains until inhaler use or until inhaler use data is stored and it is transmitted. A pairing function is provided.

A medicament delivery device for dispensing discrete doses of medicament comprises: first and second medicament carriers each comprising said doses of medicament contained in a plurality of individual compartments spaced along a carrier strip and sealed by a sealing layer; first and second opening mechanisms each arranged to handle a respective one of the first and second medicament carriers and to open each compartment of the respective medicament carrier by separating the sealing layer from the carrier strip as the medicament carrier is advanced through the device; a take-up spool arranged to wind the separated sealing layers thereon such as to maintain the separated sealing layers in tension, each separated sealing layer having a path of travel between a respective one of the first and second opening mechanisms and the take-up spool; and a tension control element in contact with each of the separated sealing layers, wherein at least a part of the tension control element is arranged to be movable by a biasing force, which is exerted on the tension control element by the separated sealing layers as a result of any inequality in the tensions of the separated sealing layers wound by the take-up spool, to alter the length of the path of travel of each separated sealing layer so as to substantially equalise the tensions in the separated sealing layers.

A respiratory system and method comprise a tracker module adaptable to be secured to a variety of inhalers, the tracker module sensing activation of the medication canister of the inhaler for delivery of medication to a user. The tracker module also senses the rate of inhalation air flow of the user when inhaling medication for determination of proper inhaler use. Upstream and downstream sensors provide flow information to determine quality of the inhalation. A flow sensor is an integral part of the tracking module and can be used on multiple inhalers. Other sensors are provided that monitor user presence at the inhaler, user technique in using the inhaler, and the attitude of the inhaler when it was used. Low power devices are used to conserve battery power. A spirometer provides user lung function data.