A device to reduce left ventricle afterload in a target blood vessel in a mammal includes a cushion configured for positioning within a lumen of the target blood vessel and receipt of a fluid and configured to contract during systole and expand during diastole, a reservoir having a cavity for receiving the fluid, and a conduit extending between and fluidically coupling the cushion and the reservoir, whereby during use fluid in the cushion is transferred to the reservoir during systole and returned to the cushion during diastole. The cushion has an annular cross section defining a central lumen for blood flow and is configured for positioning in the lumen of the target vessel abutting an inner wall of the target vessel, whereby during use blood flow is directed through the central lumen of the cushion.

Nasal cannulas are described herein. The nasal cannula (110) includes a cannula housing (112), a reservoir (160), a nebulizer channel (154), and a gas channel (120). The cannula housing includes at least one nasal extension (116) extending from the cannula housing, wherein the at least one nasal extension is configured to be disposed within a patient's nares. The reservoir includes a reservoir volume configured to dispense a medicament. The nebulizer channel is in fluid communication with the reservoir volume and the at least one nasal extension. The gas channel is configured to direct a gas flow toward the at least one nasal extension through the nebulizer channel, drawing a portion of the medicament from the reservoir through the nebulizer channel with the gas flow toward the at least one nasal extension.

An illustrated view of a non-kinking air hose for preventing an air hose from kinking is presented. The non-kinking air hose is useful for providing an air flow from an air tank to a patient where the air hose is prevented from forming a kinking condition. The non-kinking air hose further prevents damage or reduced/zero air flow from an air tank to a patient.

A patient interface device includes a frame member and a cushion having a main body, a sealing portion, and first and second posts extending from the main body. The frame member defines a first orifice and a second orifice. The first post of the cushion is rotatably received within the first orifice and the second post is rotatably received within the second orifice in a manner that permits the cushion to rotate relative to the frame member.

A humidification system can include a heater base, a chamber, and a breathing circuit. The heater base includes a heater plate positioned in a recessed region, and a heat conductive portion of the chamber is configured to contact the heater plate. The heater base includes a guard configured to control movement of the chamber into and out of the recessed region. The guard includes an anti-racking mechanism. The chamber includes an inlet port, an outlet port. A downward extension extends into the chamber from the inlet port, and a baffle is disposed at a lower end of the downward extension. A component of the breathing circuit can include a conduit hanging end cap for shipping and storage. The end cap can include a hanging component to allow the breathing circuit component to be hung from a medical stand. The system can detect when breathing circuits are connected in reverse.

A hemostasis valve assembly for use in a medical device. The hemostasis valve assembly may include a main body portion defining an internal cavity, a seal cartridge disposed within the internal cavity, and a low pressure valve assembly positioned within the internal cavity adjacent to the seal cartridge. The low pressure valve assembly may include a first valve member having a first valve body and a second valve member having second valve body. A portion of a distal side of the first valve member may abut at least a portion of a proximal side of the second valve member.

A patient interface for respiratory therapy includes a nasal interface having nasal prongs configured to contact nares of the user and form a seal. The patient interface also includes a securement portion having a pair of facial pads, each of the facial pads configured to engage the face of a user on opposing sides of the nasal interface. The facial pads are coupled to the bridging portions configured to urge the nasal interface toward the user's face to create or maintain sealing engagement between the nasal interface and the user's face. In some configurations, the securement portion and the nasal interface are detachably coupled to each other.

A syringe-shaped spraying device includes: a syringe-shaped spraying device main body including a barrel that stores a liquid medicine, a plunger having a front end inserted in the barrel with a gasket being attached to the front end, and a nozzle that is provided with a spraying hole for spraying the liquid medicine and that is connected to a front end of the barrel; a vial adapter having a transfer needle to pierce a vial that stores a liquid medicine so as to suction the liquid medicine; and a connection adapter that is attached to the syringe-shaped spraying device main body and that connects the vial adapter to the syringe-shaped spraying device main body.

The present invention includes a mask body having a cord attached at three locations on the mask body and a deformable bridge piece. The cord is attached at the middle of an upper edge of the mask body generally aligning with the location of the bridge of the wearer's nose. The cord is further attached at each of two lower positions on the mask body, preferably near or at the bottom corners of the mask body. The cord is further threaded through eyelets located at each of two upper positions on the mask body, preferably near or at the upper corners of the mask body. The deformable bridge piece is located along the upper edge of the mask body, and generally centered on the bridge of the wearer's nose.

A headgear assembly includes a strap of a first flexible material with an elongate edge, and a second flexible material folded around and running along the elongate edge. The second flexible material may be an elastic material. The second flexible material may also cover an intersection or joint in the first flexible material such that the first flexible material may be made from two flexible materials layered together or joined end to end.