Mask system

What is claimed is: 1. A patient interface assembly configured to deliver respiratory therapy to a patient's airways, the patient interface assembly comprising: a flexible cushion with a nares sealing portion configured to sealingly engage the patient's nose around the nares and a mouth sealing portion configured to seal against the patient's face at or around the patient's mouth, the nares sealing portion being located on a superior side of the mouth sealing portion and comprising a nose tip engaging portion positioned between a pair of lateral nares engagement portions; a frame attachment structure that is attached to the flexible cushion and forms at least part of a plenum chamber with the flexible cushion, the frame attachment structure being more rigid than the flexible cushion and comprising a central opening; a frame that is more rigid than the flexible cushion and comprises a plurality of headgear attachment points, a superior portion of the frame extending beyond the mouth sealing portion in a superior direction to overlap at least a part of the pair of lateral nares engagement portions of the nares sealing portion; and headgear configured to be anchored to the frame at the headgear attachment points, wherein the frame attachment structure is attachable to the frame at a rim around the central opening, wherein at least a part of the nares sealing portion of the flexible cushion is decoupled from both the frame attachment structure and the superior portion of the frame that overlaps at least a part of the pair of lateral nares engagement portions of the nares sealing portion so that the lateral nares engagement portions of the nares sealing portion are movable independently of the frame and the frame attachment structure, wherein the nares sealing portion of the flexible cushion comprises a first aperture configured to communicate with the patient's nasal airways in use, and wherein the mouth sealing portion of the flexible cushion comprises a second aperture configured to communicate with the patient's mouth in use, the first and second apertures being separate apertures. 2. The patient interface assembly of claim 1 , wherein the frame is in the form of a transparent window. 3. The patient interface assembly of claim 1 , wherein the frame and the frame attachment structure are made of thermoplastic and the flexible cushion is made of silicone. 4. The patient interface assembly of claim 1 , wherein the headgear comprises: a rear panel configured to be positioned at a rear of the patient's head in use, a crown strap connected to the rear panel and configured to cup the crown of the patient's head in use, a pair of upper side straps that extend from the crown strap and are configured to extend over the patient's ears in use, and a pair of lower side straps that extend from the rear panel and are configured to extend below the patient's ears in use. 5. The patient interface assembly of claim 4 , wherein the crown strap is adjustable. 6. The patient interface assembly of claim 4 , wherein each of the upper side straps are configured to extend across a respective one of the patient's cheek, under a respective one of the patient's eyes, and over a respective one of the patient's ears. 7. The patient interface assembly of claim 4 , wherein the flexible cushion, the frame attachment structure, and the frame form a core body of the patient interface assembly, and wherein the upper side straps are configured to be secured to the core body of the patient interface assembly by way of a push fit tab connection. 8. The patient interface assembly of claim 1 , wherein an inferior side of the frame comprises an inlet opening configured to receive a pressurized flow of respiratory gas from an air delivery tube so that the patient interface assembly receives the pressurized flow of respiratory gas from an inferior direction. 9. The patient interface assembly of claim 8 , further comprising an anti-asphyxiation valve assembly at the inlet opening. 10. The patient interface assembly of claim 1 , wherein the headgear attachment points on the frame are located on opposing lateral sides of the frame. 11. The patient interface assembly of claim 1 , wherein an outer side of the frame is convex shaped. 12. The patient interface assembly of claim 1 , wherein the flexible cushion is molded to the frame attachment structure. 13. The patient interface assembly of claim 1 , wherein a wall thickness of the nares sealing portion is increased at the lateral nares engagement portions. 14. The patient interface assembly of claim 1 , further comprising a gas washout vent comprising an array of vent holes that are arranged to vent exhaled gas to atmosphere. 15. The patient interface assembly of claim 1 , wherein the flexible cushion is configured to avoid contact with the patient's nasal bridge. 16. The patient interface assembly of claim 1 , wherein the flexible cushion has a single wall construction. 17. The patient interface assembly of claim 1 , further comprising: a gas washout vent comprising an array of vent holes that are arranged to vent exhaled gas to atmosphere; and an anti-asphyxiation valve assembly, wherein an inferior side of the frame comprises an inlet opening configured to receive a pressurized flow of respiratory gas from an air delivery tube so that the patient interface assembly receives the pressurized flow of respiratory gas from an inferior direction, wherein the anti-asphyxiation valve assembly is located at the inlet opening, wherein the frame is in the form of a transparent window, wherein the headgear comprises: a rear panel configured to be positioned at a rear of the patient's head in use, a crown strap connected to the rear panel and configured to cup the crown of the patient's head in use, a pair of upper side straps that extend from the crown strap and are configured to extend over the patient's ears in use, and a pair of lower side straps that extend from the rear panel and are configured to extend below the patient's ears in use, wherein the crown strap is adjustable, wherein each of the upper side straps are configured to extend across a respective one of the patient's cheek, under a respective one of the patient's eyes, and over a respective one of the patient's ears, wherein the headgear attachment points on the frame are located on opposing lateral sides of the frame, wherein an outer side of the frame is convex shaped, wherein the flexible cushion is configured to avoid contact with the patient's nasal bridge, and wherein the flexible cushion has a single wall construction. 18. The patient interface assembly of claim 17 , wherein the frame and the frame attachment structure are made of thermoplastic, wherein the flexible cushion is molded to the frame attachment structure, wherein a wall thickness of the nares sealing portion is increased at the lateral nares engagement portions, and wherein the flexible cushion, the frame attachment structure, and the frame form a core body of the patient interface assembly, and wherein the upper side straps are configured to be secured to the core body of the patient interface assembly by way of a push fit tab connection. 19. The patient interface assembly of claim 1 , further comprising an air delivery tube configured to be connected to the frame. 20. A patient interface assembly configured to deliver respiratory therapy to a patient's airways, the patient interface assembly comprising: a flexible cushion assembly comprising: a mouth