A breathing mask arrangement includes a mask frame, a sealing structure provided to the mask frame and adapted to form a seal with a patient's face, and a forehead support device movably mounted to the mask frame for adjustable movement with respect to the mask frame. The sealing structure is movably mounted to the mask frame for adjustable movement with respect to the mask frame, and the adjustable movement of the sealing structure is independent of the adjustable movement of the forehead support device.

Disclosed is a device for respiration which comprises at least of one body that delimits an inner chamber from an outer chamber, a region for sealing the device against parts of the face of a patient, fastening elements for positioning the device on the patient's head and a connection for supplying respiratory gas. The device is equipped with an actuator, which when adjusted, changes the distance of at least one part of the device from at least one part of the body of the patient.

A respiratory mask assembly for delivering breathable gas to a patient includes a frame to support one of at least first and second compliant patient interfaces and a forehead support adjustably mounted to the frame. The forehead support is structured and configured to be moved between a first position for use with the first patient interface and a second position relative to the frame for use with a second patient interface, whereby the forehead support maintains a horizontal offset distance with the first and second patient interfaces which is substantially constant.

A device and method for increasing a patient's compliance with a therapy relating to an upper airway disorder are presented. The device comprises a receiving unit for receiving for receiving vital sign data including glucose level data of the patient, and therapy data including information regarding the therapy of the patient; a processing unit configured to process the therapy data and the vital sign data in order to determine feedback information based on the therapy data and the vital sign data; and a display unit for displaying the feedback information based on the therapy data and the vital sign data.

A respiratory mask assembly for delivering breathable gas to a patient includes a frame and a cushion. The cushion has a non-face contacting portion structured to be connected to the frame, a face-contacting portion structured to engage the patient's face, and a central portion that interconnects the non-face contacting portion and the face contacting portion. The frame may be structured to allow a forehead support to assume multiple positions, to compensate for replacement cushions that may have a different profile, shape or size. The cushion is structured to compensate for variations in strap tension, treatment pressure and/or movement of the patient. Headgear may be provided with a strap assembly in which one or more straps is provided with selectively adjustable elasticity or extensibility that may be automatically changed in dependence of treatment pressure and/or treatment type.

A cushion pad for a mask worn by a patient, comprising a first side to contact skin of the patient, and a second side, opposite the first side, to contact or face the mask. The pad has a main body portion having a central portion shaped to cover a portion of the patient's nose extending from above the nose tip to the nasal bridge region without obstructing the patient's line of sight, and lateral side portions to extend downward and terminate along the sides of the nose or on the patient's cheeks. The main body is made of a breathable material, e.g., foam. The pad may include adhesive and/or an attached portion, e.g., a ring, to couple the pad to the patient and/or portion of the mask.

A forehead support for a patient interface used in the treatment of sleep disordered breathing, includes a support post provided to a frame and a pair of arms extending from the support post. At least one of the pair of arms is adapted to rotate relative to the support post about an axis that extends transverse to the support post.

A breathing mask arrangement includes an arch body, a sealing lip means for bearing against the surface of the face of a mask user, a respiratory gas conduit means for feeding respiratory gas to a mask internal space which is defined by the arch body and which is in communication with the nose and/or mouth opening of the user of the mask, and an application structure for application of the sealing lip means jointly with the arch body, wherein the application structure has a carrier portion on which a respiratory gas conduit member is releasably coupled.

A respiratory interface device is provided that includes a mask (10) and a brace (40) assembly. The mask has a faceplate (12) and a cushion (15), and the brace assembly has a brace body (42) and a lever assembly (44). The brace body is coupled to the mask faceplate, and the lever assembly has at least one lever arm (70) and at least one actuator assembly (72) for each lever arm. The at least one lever arm has a body (76) and a pivot assembly (90). The lever arm body is pivotally coupled to the brace body at the pivot assembly. The lever arm body is structured to move between two positions, a first position, where the lever arm body does not effectively engage a portion of the mask, and a second position, wherein the lever arm body effectively engages a portion of the mask.

Disclosed is a spring element which is suitable for use with a patient interface and in the form of an elongated body and has an axis along which the spring element is compressed. Arranged in a direction of the axis, the spring element comprises a first region and a second region, at least one characteristic of the spring element in the first region having a value which is different from a value of the at least one characteristic in the second region.