A dry powder inhaler includes an inhalation channel connected to a mouthpiece, a container for storing a powdered medicament, a de-agglomerator with a vortex chamber located at an end of the inhalation channel, a metering device including a shuttle having a dosing recess. The shuttle is movable between a filling position, in which the dosing recess is in alignment with an opening of the container, and an inhalation position, in which the dosing recess is in alignment with the vortex chamber. The opening of the container is elongated along a major axis and the dosing recess is elongated along a main axis and, when the shuttle is in the filling position, an edge of the opening of the container encloses the dosing recess.

The present disclosure provides a method and device for delivering a pharmaceutical to the airway of a human or animal patient. In one aspect, the device includes a dose drum formed into a cylinder and including a plurality of dose compartments for containing individual doses. In another aspect, the device may include a reservoir containing a pharmaceutical material in bulk form and a metering recess for metering the pharmaceutical material to form a pharmaceutical dose. Another aspect provides an inhaler with a combined reservoir and dosing chamber configured to contain multiple doses of a pharmaceutical material.

A moisture or hydrating liquid activatable solid formulation for nitric oxide (NO) generation includes a nitrite source; a copper (I) or copper (II) catalyst; an NO generation accelerant; and a solid pH buffer. The nitrite source is to generate NO when exposed to an effective amount of moisture or a hydrating liquid. The pH buffer is present in an amount sufficient to render a pH of the moisture or hydrating liquid activatable solid formulation from greater than 4 to about 9.0.

A flap (20) for an inhalation actuated mechanism (18) of a powder inhaler (1) comprises a base member (29), a skirt structure (24) projecting from a surface of the base member (29), and a coupling portion (21) to be coupled to a resilient member (40) of the inhalation actuated mechanism (18).

A flap (20) for an inhalation actuated mechanism (18) of a powder inhaler (1) comprises a base member (29), a skirt structure (24) projecting from a surface of the base member (29), and a coupling portion (21) to be coupled to a resilient member (40) of the inhalation actuated mechanism (18).

Oxygen concentrator apparatus and method of use are described herein. The oxygen concentration may include at least one canister; gas separation adsorbent disposed in at least one canister, and a compression system. The compression system may include at least one compressor coupled to the at least one canister. The compressor may include a first rotor comprising at least two projections and a second rotor comprising at least two recesses. During rotation of the first and second rotors, gas moves through the compressor to at least one of the canisters. In the canisters, gas separation adsorbent may separate at least some nitrogen from air produce oxygen enriched gas.

A method and device for delivering a pharmaceutical to the airway of a human or animal patient, in one aspect, includes a dose drum formed into a cylinder and including a plurality of dose compartments for containing individual doses. In another aspect, the device may include a reservoir containing a pharmaceutical material in bulk form and a metering recess for metering the pharmaceutical material to form a pharmaceutical dose. Another aspect provides an inhaler with a combined reservoir and dosing chamber configured to contain multiple doses of a pharmaceutical material.

A metering device activated by a user induced airstream for an inhalation of a medicinal substance. The device includes: a closure cap; a piston; a mouthpiece; and an annular chamber disposed upstream of the mouthpiece. A storage chamber stores the substance which can be moved out of the storage chamber when the closure cap is removed. A metering rod for removing the medicinal substance out of the storage chamber into an emptying-standby position. In the emptying-standby position, the metering chamber is closed by the piston. The piston is displaceable by airstream into an emptying-release position. In the emptying-release position, a metering chamber is released and the substance removed by the suction airstream. The metering device includes an outer cylinder which accommodates an inner cylinder.

There is provided in accordance with an exemplary embodiment of the invention, a device and a method for controlled extraction of at least one active substance from at least one type of plant matter by application of heat, the device comprising: a heating element adapted to apply heat to an area of the plant matter to extract the substance; and a mechanism adapted for moving the plant matter relative to the heating element. Optionally, the active substance is a restricted substance. There is also provided in accordance with an exemplary embodiment of the invention, a method of monitoring and controlling inhalation of a restricted substance. There is provided in accordance with an exemplary embodiment of the invention, a method of manufacturing a tape of plant matter comprising an active substance.

A dry powder drug-dosing device comprises a flow passage member (10), a drug powder storage container (19), and a drug-dosing metering component. A drug powder storage container (19), an annular manual rotation portion (3) and a rotational slide passage (23) are disposed on the outer surface of the housing. A sliding block (26) is disposed at an inner side of the annular manual rotation portion (3) A stirring gear (28) disposed on a transmission sleeve (27) is fit with the raised vibration tooth (21), so as to form a vibration component for enabling an outlet of the inverted conical drug powder storage container (19) to generate vibration. The dry powder drug-dosing device is applicable to the inhalation administration of various medicines in the form of dry powder.