A holder (150) for an inhaler article (110) includes a housing (151) defining an inhaler article cavity (154). A piercing element (160) is fixed to and extends into the inhaler article cavity. A sleeve (180) is disposed within the inhaler article cavity and is configured to retain an inhaler article. The sleeve is movable along the housing longitudinal axis. A spring element (200) is configured to bias the sleeve toward the open proximal end (156) of the housing.

A personal vapor inhaling unit is disclosed. An electronic flameless vapor inhaler unit that may simulate a cigarette has a cavity that receives a cartridge in the distal end of the inhaler unit. The cartridge brings a substance to be vaporized in contact with a wick. When the unit is activated, and the user provides suction, the substance to be vaporized is drawn out of the cartridge, through the wick, and is atomized by the wick into a cavity containing a heating element. The heating element vaporizes the atomized substance. The vapors then continue to be pulled by the user through a mouthpiece and mouthpiece cover where they may be inhaled.

The present disclosure provides aerosol delivery devices. In an example implementation, an aerosol delivery device comprises an aerosol source member that defines an outer surface and an interior area and includes a substrate material having an aerosol precursor composition associated therewith, a control body having a housing that is configured to receive the aerosol source member, an electrical energy source coupled with the housing, and a heating assembly operatively connected to the electrical energy source. The heating assembly includes a plurality of spikes that may be configured to articulate between a retracted position, in which the plurality of spikes is not in contact with the aerosol source member, and a heating position, in which the plurality of spikes pierces through the outer surface of the substrate material and into a portion of the interior area thereof.

A device for inhaling powder-type substances includes a plurality of substance containers that can be moved successively into an emptying position, wherein the substance containers—which are not connected to one another—are accommodated in direct contact with one another in a guide unit attached to the device and can be moved by contact pressure propagating among the substance containers. The guide unit has a drive wheel with accommodating forms separated by drive teeth. The substance container in the emptying position is located in an accommodating form of the drive wheel. A substance container for a device for inhaling powder-type substances has two sub-regions, each separately having an amount of the substance, and both sub-regions have an openable, pierceable cover. A method for filling a device for inhaling powder-type substances uses a plurality of substance containers that can be moved successively into an emptying position.

The present invention provides a particulate delivery device with an automatic activation mechanism that pierces or cuts a composition capsule when a cap is removed. The cap cannot be replaced once the device is activated for use. The device allows for gas flow through the device from a gas inlet to a gas outlet through a composition receptacle and dispersion chamber to deliver particulate to the airway of a subject.

The present disclosure provides a nasal delivery device with a device body that includes a trigger end and an outlet end. The nasal delivery device also includes a trigger assembly coupled to the trigger end of the device body, a drug container supported by the device body, and a spring-loaded activator assembly supported by the device body and disposed between the trigger assembly and the drug container.

A dry pharmaceutical composition is provided that is suitable for respiratory tract delivery of levodopa and DDI for treatment of Parkinson's disease or Parkinson syndrome. The dry pharmaceutical composition comprises levodopa, a dopa decarboxylase inhibitor (DDI) and at least one excipient. A unit dosage form of the dry pharmaceutical composition and a method of treating a patient with Parkinson's disease or Parkinson syndrome by administering the dry pharmaceutical composition are also provided.

A device for inhaling powdery substances contained in capsules has a housing, a capsule receiver, a closing cover, a mouth piece, and a closure cap. The closure cap is designed to cover simultaneously the mouthpiece, closing cover and capsule receiver, wherein the closure cap, mouthpiece and closing cover are hinged in a pivoting manner. Two pivot axes, which are different but run in the same direction, are formed, which, in respect of a side view in which geometric axes of the pivot axes are represented in the form of points, are arranged next to each other and on a same side of the capsule receiver. In a usage state of the device, the first pivot axis is arranged closer to the capsule receiver. The closing cover and the mouthpiece can be pivoted about the first pivot axis and only the closure cap can be pivoted about the second pivot axis.

A vibration conveyor is provided for a capsule-based, single-dose dry powder inhaler of the type comprising an inhaler body comprising a capsule chamber for receiving a dry powder formulation capsule, an inhalation channel in fluid communication with the chamber, and means for piercing a capsule in the chamber to allow outside air flow to be mixed with the contents of said capsule for inhalation thereof, means for monitoring vibrations resulting from inhalation, and means for transferring said vibrations from the inhaler body to the monitoring means. The conveyor comprises a plate interposed between the body and the means for monitoring.

A nebuliser device with a vibrating mesh, for administering medicaments is provided. The nebuliser device includes a casing, a nozzle, a nebuliser and a chamber that houses a medicament. The chamber housing a medicament is a disposable capsule forming an independent body that can be extracted from the casing of the device. The disposable capsule attaches to the nebuliser and to the casing. An attachment between the nebuliser and the casing allows the disposable capsule to be coupled to the nebuliser device or to be uncoupled therefrom.