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.

An inhaler for facilitating inhalation of dry powder includes a body defining an interior space and a mouth piece. At least one annular member is positioned within the interior space and is rotatable with respect to the mouth piece. The at least one annular member includes a plurality of compartments. Each compartment defines a cavity configured to hold dry powder. Each compartment includes at least one flap and an opening configured to release the dry powder when the at least one flap is reconfigured from a closed position to an open position. The at least one flap covers the opening and inhibits the dry powder from being released from the cavity in the closed position.

A medicament for inhalation is provided. The medicament comprises at least a first layer comprising a first active pharmaceutical ingredient in powder form and at least a second layer comprising at least a second active pharmaceutical ingredient in powder form. The second layer is disposed on the first layer. A container for dispensing a medicament and methods of making are also described.

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).

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 delivering a predetermined amount of at least one substance to a body orifice of a subject includes a) a container for containing said at least one substance; b) a delivery end for placement in proximity to the orifice, the delivery end being in fluid communication with the container; c) a valve mechanically connectable to said container, characterized by at least two configurations: (i) an ACTIVE CONFIGURATION in which said valve enables delivery of predetermined amount of said substance from said container to said body orifice via said delivery end; and, (ii) an INACTIVE CONFIGURATION, in which said valve prevents delivery of said predetermined amount of said substance from said container to said body orifice; d) a trigger mechanism adapted to reconfigure said valve from said INACTIVE CONFIGURATION to said ACTIVE CONFIGURATION, and vice versa; and e) a fluid tight chamber.

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.

A method for fabricating an inhalation device includes the steps of disposing a medicament carrier with a first member, the carrier being connected with a layer; engaging a second member with the first member to support the layer therebetween, the second member including a cutting surface and defining a cavity; and translating the carrier relative to the members to dispose the carrier with the cavity and cut the layer about the carrier. In some embodiments, manufacturing systems, manufacturing apparatus, inhalation devices, dispensing devices, and medicaments are disclosed.

A filling head (20) for filling a container (22) includes a receptacle (24). The receptacle (24) includes an interior surface (26) configured to receive a powder (28) and having a plurality of openings (34) disposed therein to allow passage of the powder (28); and an exterior surface (52). The exterior surface (52) of the receptacle (24) has a plurality of raised surfaces (54), each of the plurality of raised surfaces having a plurality of openings (56) aligned with at least one of the plurality of openings (34) of the interior surface (26) to allow passage of the powder (28) from the receptacle (24) to the container (22). Methods of filling a container (22) are also provided.

A unit dose capsule for use with a sonic generator includes a deformable membrane adapted to releasably engage the distal end of the elongate horn, a nozzle including at least one delivery opening; a nozzle including at least one delivery opening; and a reservoir containing a liquid composition disposed therebetween. When the unit dose capsule is engaged to the distal end of the elongate horn, the nozzle is disposed in an outwardly facing orientation, and the reservoir is in liquid communication with the at least one nozzle. The unit dose capsule can be included in a kit with a handheld misting device comprising a housing having a dispensing window arranged and configured to contain a sonic generator and a power source.