The accessory (110) for an inhaler (100) is adapted to be removably assembled on a casing (101) of the inhaler (100), and comprises: an acceleration sensor (112), an optical type proximity sensor (113), an electronic circuitry (114) electrically connected to the acceleration sensor (112) and to the proximity sensor (113); the electronic circuitry (114) in combination with the acceleration sensor (112) and the proximity sensor (113) is adapted to detect a drug administration process; the electronic circuitry (114) in combination with the acceleration sensor (112) is adapted to detect an inhalation flow inside said inhaler (100).

The accessory (110) for an inhaler (100) is adapted to be removably assembled on a casing (101) of the inhaler (100), and comprises: an acceleration sensor (112), an optical type proximity sensor (113), an electronic circuitry (114) electrically connected to the acceleration sensor (112) and to the proximity sensor (113); the electronic circuitry (114) in combination with the acceleration sensor (112) and the proximity sensor (113) is adapted to detect a drug administration process; the electronic circuitry (114) in combination with the acceleration sensor (112) is adapted to detect an inhalation flow inside said inhaler (100).

An inhaler (10) has a main body for accommodating a medicament reservoir (84), a canister fire system for moving a canister (50) to release a dose in response to air flow, a cap housing (12) for enclosing the canister fire system and canister within an interior chamber defined by the main body (14) and a cap housing, wherein a lock system (250) is provided for locking the cap housing on the main body.

A powder inhaler assembly includes a powder inhaler including a metering device having a dosing recess and movable, with respect to a container and to an inhalation channel, between an idle state, in which the dosing recess is in communication with an opening of the container so as to be filled with a dose of the powdered medicament, and a triggered state, in which the dosing recess is in communication with the inhalation channel for enabling inhalation of a dose of the powdered medicament contained in the dosing recess through a mouthpiece. An electronic module is attachable to the powder inhaler and includes a non-contact sensor positioned and configured to sense position(s) of at least part of the metering device to detect at least when the metering device is in the triggered state.

An inhaler for administering powdery dry substances comprises two substance carrying disks (2, 3). Each disk has a cavity filled with a powdery dry substance. The substance carrying disks (2, 3) are rotatably arranged about a common axis of rotation such that the cavities are opposite each other. The inhaler further has an airway (4) having a piercing nozzle (41). The piercing nozzle is disposed between the substance carrying disks (2, 3).

A hookah device (202) which attaches to a hookah (246). The hookah device (202) comprises a plurality of ultrasonic mist generator devices (201) for generating a mist for inhalation by a user. The hookah device (202) comprises a driver device (202) which controls the mist generator devices (201) to maximize the efficiency of mist generation by the mist generator devices (201) and optimize mist output from the hookah device (202).

A nebulizer device for administering aerosol cannabinoid mixtures to a user includes a mouthpiece, a first reservoir, a second reservoir, and a nebulizer device. The nebulizer module is configured to receive a first dosage of the first liquid from the first reservoir and a second dosage of a second liquid from the second reservoir. The nebulizer module is also configured to transform the first liquid into an inhalant and the second liquid into an aerosol that are provided to the user through the mouthpiece. The device further includes a dosage module configured to independently control the delivery of the first liquid and the second liquid to the nebulizer module to set a ratio between the first dosage of the first liquid and the second dosage of the second liquid. The dosage module thereby controls a composition of an aerosol cannabinoid mixture administered to the user.

Pre-connected analyte sensors are provided. A pre-connected analyte sensor includes a sensor carrier attached to an analyte sensor. The sensor carrier includes a substrate configured for mechanical coupling of the sensor to testing, calibration, or wearable equipment. The sensor carrier also includes conductive contacts for electrically coupling sensor electrodes to the testing, calibration, or wearable equipment.

Pre-connected analyte sensors are provided. A pre-connected analyte sensor includes a sensor carrier attached to an analyte sensor. The sensor carrier includes a substrate configured for mechanical coupling of the sensor to testing, calibration, or wearable equipment. The sensor carrier also includes conductive contacts for electrically coupling sensor electrodes to the testing, calibration, or wearable equipment.

The invention relates to the field of inhalation methods and inhalation devices for liquids. In particular, the invention relates to an inhalation method using an inhalation device adapted to separately eject at least two liquid compositions each having different properties, and to a method for the generation of an aerosol of at least two medicinal formulations by means of such inhalation device.