Embodiments relate to an intranasal drug delivery device, system, and process. The drug delivery device can have a compliant/flexible soft nib. The drug delivery device can have an actuator and shot chamber. The drug delivery device can have a non-air interface mechanically pressurized fluid reservoir. The drug delivery device can have a facial or device recognition application to prevent intentional or unintentional misuse.

An ultrasonic medicine application device that strongly promotes medicine absorption, having a housing, a control panel and a circuit board inside the housing, a medicine supply mechanism and an ultrasonic massage mechanism on a bottom surface of the housing. The ultrasonic massage mechanism has a base panel having massage projections, and also an electrical ultrasonic vibration element, which drives the projections make high frequency ultrasonic vibration. The medicine supply mechanism is positioned between the ultrasonic massage mechanism and the circuit board, and is configured to supply medicine towards the ultrasonic massage mechanism.

Disclosed is a valve for use in a pump for a wearable drug delivery device for moving a liquid drug from reservoir into a pump chamber and thereafter from the pump chamber to a patient interface. The valve can comprise two needles, a first needle in fluid communication with the reservoir and a second needle in fluid communication with the patient interface. The first and second needles may be linearly translated to either cover the lumen opening of a needle with a septum or place the lumen opening of the needle in fluid communication with the pump chamber. When the first needle is in fluid communication with the pump chamber, the liquid drug may be transferred from the reservoir to the pump chamber via suction created by a plunger in the pump chamber. When the second needle is in fluid communication with the pump chamber, the liquid drug may be transferred from the pump chamber to the patient interface via a pressure created by the plunger in the pump chamber.

A self-righting device is disclosed having a support body for supporting a medicament delivery device, where the support body has a mass, a center of gravity (G) and a shape such that the self-righting device, when positioned on a substantially horizontal surface, moves from an unbalanced position to an upright position. The self-righting device can also have a mechanical adaptor configured for attachment to the support body and for holding an elongated medicament delivery device at an angle less than 30 degrees from a vertical axis when the self-righting device is in the upright position. An assembly of a self-righting device and an elongated medicament delivery device is also provided.

An oxygen concentrator may have a compressor to feed a feed gas for sieve bed(s) via a first manifold, an accumulator to receive enriched air from the bed(s) via a second manifold. It may include an outer housing for the manifolds, the compressor, and the accumulator. The housing may include an access portal to a compartment therein, for removably receiving the bed(s) as a canister assembly. The first manifold may be adjacent to the compartment and have inlet coupling(s) for removably coupling respectively with inlet(s) of the canister assembly. The inlet coupling(s) may each have a first central axis. The second manifold may be adjacent to the compartment and have outlet coupling(s) for removably coupling respectively with outlet(s) of the canister assembly. The outlet coupling(s) may each having a second central axis. The first and second central axes may form any one of an obtuse, acute, or right angle.

An electronic device for producing an aerosol for inhalation has a mouthpiece and an elongate housing. The mouthpiece attaches to an upper end of the housing. The housing contains a liquid container and a mesh assembly with mesh material that vibrates when actuated for aerosolizing liquid from the container. The mouthpiece covers the mesh assembly at the upper end of the housing, and the aerosol produced by the mesh assembly may be inhaled through the mouthpiece by a person. The housing contains circuitry and a power supply, preferably are located in a lower half of the housing, for actuating vibration of the mesh material. Electrical pathways connect the mesh assembly with the circuitry and power supply. The power supply may comprise one or more batteries located at the lower end of the housing. The aerosol is produced without smoldering of the liquid and without using a compressed gas.

An aerosol generating device includes a housing having an open end and forms a cavity in communication with the open end for receiving an aerosol generating article. The device further includes a rotatable capture element disposed in the cavity. The rotatable capture element is operable to retain the aerosol generating article within the cavity. The rotatable capture element is longitudinally movable within the cavity. The device further includes a heating element in communication with the cavity. The heating element is operable to heat the aerosol generating article retained by the capture element within the cavity. Combined rotation and longitudinal movement of the capture element causes the aerosol generating element to spiral relative to the heating element.

A device for performing a tracheotomy on a patient without the assistance of a medical professional. The device may include one or more mechanical arms that cause a blade to create an incision, cause a dilating tool to dilate the incision, and cause a tracheotomy tube to be inserted into the incision. The device may further include a scanner and/or a hollow needle connected to an air pressure sensor that may be used to detect whether the device is aligned with the patient's airway.

The invention of the present disclosure relates to a medicament dispenser for dispensing medicament from a plurality of elongate form medicament carriers, the dispenser comprising a dispensing mechanism for dispensing the medicament held within the dispenser, wherein the dispensing mechanism is capable of independently advancing each medicament carrier held within the dispenser, the dispensing mechanism comprising a driver, a carrier engagement for each medicament carrier for individually advancing the medicament dose portions thereof, an advancer for each carrier engagement, a flow director capable of dispensing a medicament dose from a plurality of medicament carriers, and a cover for the medicament access body operating as a component of the dispenser actuation mechanism.

The present disclosure provides a gastroretentive drug delivery device having an expandable structure. The drug delivery device includes: a capsule body having a space formed therein; an arm mounted at one end of the capsule body, the arm comprising a first hinge part, a second hinge part, a third hinge part and an elastic support part which enable unfolding and folding, wherein the first hinge part engages the elastic support part, the second hinge part engages a wing of the arm and is connected rotatably to the first hinge part, the third hinge part is positioned at one end of the wing and is connected rotatably to the second hinge part, a sustained-release supporter is positioned to face the third hinge part, an immediate-release formulation is positioned to face the elastic support part, and a sustained-release formulation is positioned between the sustained-release supporter and the immediate-release formulation; an elastic body acting to move the elastic support part in a direction toward the one end of the capsule body within the capsule body; and a capsule cap configured to engage the other end of the capsule body.