The present invention provides for the integration of drug dispersion methods into a drug or medicine delivery system. The drug dispersion methods used include shear (e.g., air across a drug, with or without a gas assist), capillary flow or a venturi effect, mechanical means such as spinning, vibration, or impaction, and turbulence (e.g., using mesh screens, or restrictions in the air path). These methods of drug dispersion allow for all of the drug in the system to be released, allowing control of the dosage size. These methods also provide for drug metering, fluidization, entrainment, deaggragation and deagglomeration. The present invention also provides for the integration of a drug sealing system into the device. The drug sealing system provides a way of blocking the migration of drug from one area of the package to another. The drug seal system can also provide a method of tightly containing the drug until the package is opened, of directing airflow through the package and of managing and containing the drug during the package/device manufacturing process.

A device for converting a consumable into an aerosol with high heat without burning the consumable by packaging the consumable around a susceptor for inductive heating so as to reduce the oxygen content within the consumable. The susceptor can be a flattened piece of steel wool. The encasement can be a coating applied to the consumable can be packaging inside an encasement through which the aerosol can pass. Efficiency of the to create a porous shell. The device can have a receiver with an airtight seal and an airflow controller to optimize the aerosolizing process. The device can also have a recognition system to detect a sign on the consumable-containing package an execute the appropriate administration protocol.

Some embodiments relate to a method for heating for controlled release of at least one substance to be delivered to a user via inhalation, comprising: allowing airflow through a pallet of source material from which the at least one substance is releasable by vaporization; wherein airflow enters the pallet through a first surface and exits the pallet through a second, opposite surface of the pallet; heating a first heating element in contact with the first surface of the pallet according to a first temperature profile; and heating a second heating element in contact with the second surface of the pallet according to a second temperature profile which is different than the first temperature profile.

A breath-powered, dry powder inhaler, a cartridge, and a pulmonary drug delivery system are provided.

Disclosed herein is a multidrug pain management package to dispense two or more medicaments to treat pain comprising a primary n-polygon, and one or more concentric m-polygons, wherein each side of the n-polygon and m-polygons have at least n or m-medicament chambers capable of holding the two or more medicaments. Also disclosed herein is a multidrug pain management package comprising a disk, wherein the disk is divided into equally spaced regions, and wherein each region has chambers capable of holding medicaments. Also disclosed herein are single formulations to treat pain.

A device for dispensing individual doses of powder from respective pockets of a disc-shaped carrier by outwardly rupturing a lidding foil by means of pressure on an opposite side surface, the device providing individual respective deaggregation flow paths for each pocket, split airstreams allowing improved entrainment of powder, a cam mechanism for outwardly rupturing the pockets, an indexing mechanism linked to the cam mechanism and a dose counter.

A dry powder aerosol delivery device and related methods for delivering precise and repeatable dosages to a subject for pulmonary use is disclosed. The dry powder aerosol delivery device includes a housing, a cartridge, and a dry powder dispersion mechanism, and at least one differential pressure sensor. The dry powder delivery device is automatically breath actuated by the user when the differential pressure sensor senses a predetermined pressure change within housing. The dry powder aerosol delivery device is then actuated to generate a plume of particles having an average ejected particle diameter within the respirable size range, e.g., less than about 5-6 μm, so as to target the pulmonary system of the user.

The present application provides a priming member for an inhaler and a method of loading an inhaler with a carrier for treating a respiratory disease by inhaling a powder from the inhaler. The priming member comprises a cantilever blade configured to engage a chassis of the inhaler, the cantilever blade having a proximal portion, a body and a distal portion, the body being disposed between the proximal portion and the distal portion of the cantilever blade and the cantilever blade having a flexible portion extending with the proximal portion of the cantilever blade to allow movement of the cantilever blade relative to the chassis.

Disclosed herein is a multidrug pain management package to dispense two or more medicaments to treat pain comprising a primary n-polygon, and one or more concentric m-polygons, wherein each side of the n-polygon and m-polygons have at least n or m-medicament chambers capable of holding the two or more medicaments. Also disclosed herein is a multidrug pain management package comprising a disk, wherein the disk is divided into equally spaced regions, and wherein each region has chambers capable of holding medicaments. Also disclosed herein are single formulations to treat pain.

A single dose vaporizable formulation including room temperature solid extracts and other botanical extracts and methods of processing and packaging single dose portions of vaporizable formulations. Also, methods of dispensing single dose portions, including segmented dose formulations and applicator-tab devices for vaporizers. A vaporizer having a heating chamber element with an indentation or cavity sized to receive a similarly-shaped, single dose vaporizable formulation.