A respiratory assistance device including a respiratory interface device configured to be worn by a user and deliver a gas, a gas temperature measurement unit configured to measure a gas temperature that is a temperature of the gas, a warming unit configured to warm the gas, and a temperature change unit configured to change the gas temperature by controlling the warming unit. The respiratory assistance device can administer comfortable respiratory assistance even during sleep.

Non-pharmaceuticals method of treating the effects of addiction withdrawal are described. The method includes providing a person with stimuli include visual and/or auditory stimuli which are pulsed at the rate of various types of brain waves. The use of the method lessens various withdrawal symptoms, such as anxiety, sleepiness, sweating, tearing of the eyes, running of the nose, goosebumps, shaking, hot flushes, cold flushes, bones aching, muscles aching, restlessness, nausea, vomiting, muscle twitching, stomach cramps, pain, the need to use an opioid, the desire to use an opioid, sleep disturbances. and the use of rescue medications.

Non-pharmaceuticals method of treating the effects of addiction withdrawal are described. The method includes providing a person with stimuli include visual and/or auditory stimuli which are pulsed at the rate of various types of brain waves. The use of the method lessens various withdrawal symptoms, such as anxiety, sleepiness, sweating, tearing of the eyes, running of the nose, goosebumps, shaking, hot flushes, cold flushes, bones aching, muscles aching, restlessness, nausea, vomiting, muscle twitching, stomach cramps, pain, the need to use an opioid, the desire to use an opioid, sleep disturbances. and the use of rescue medications.

A method includes: obtaining a desired value for a parameter relevant to the automatic delivery of breathable gas; saving, by the system, the desired parameter value; finding, by the system, an actual value of the parameter; querying, by the system, whether the actual parameter value agrees with the desired parameter value; determining, by the system, that the actual parameter value does not agree with the desired parameter value; adjusting, by the system, a system setting so as to attain the desired parameter value; querying, by the system, whether the actual revised parameter value agrees with the desired parameter value; and repeating, by the system, the steps of determining, adjusting, and querying whether the actual revised parameter value agrees with the desired parameter value until the actual revised parameter value agrees with the desired parameter value.

There is provided a respiratory apparatus. The respiratory apparatus comprises a respiratory interface configured to aid a user in respiration and an attachment configured to hold the respiratory interface in position on the face of the user. The respiratory apparatus also comprises at least one electrode configured to provide electrical stimulation to one or more facial muscles of the user.

There is provided a respiratory apparatus. The respiratory apparatus comprises a respiratory interface configured to aid a user in respiration and an attachment configured to hold the respiratory interface in position on the face of the user. The respiratory apparatus also comprises at least one electrode configured to provide electrical stimulation to one or more facial muscles of the user.

A method or apparatus to improve sleep aid efficacy is described. The method comprises monitoring the sleeping patterns of a user utilizing a non-intrusive sleep monitoring device. The method further correlates the user's sleep quality and sleep quantity with use of the sleep aid. In one embodiment, the method adjusts the sleep aid based on the sleep statistics.

The system includes an air flow generator configured to deliver an air flow at a positive therapeutic pressure during the treatment, and an expiratory valve with an open pressure connected to the air flow generator. The open pressure is dependent on the therapeutic pressure from the air flow generator. The expiratory valve further exerts a back pressure upon each exhalation from the patient sufficient to create a pneumatic splint in the patient's respiratory tract. The exhalation from the patient has a first half followed by a second half, and the back pressure is varied such that during the start of the first half, the back pressure is between 0 and 50% of a peak back pressure, and increases to a peak back pressure in the second half.

A method and an apparatus for controlling a temperature adjustment device using a sensing device are provided. The method includes setting a test temperature, transmitting a temperature adjustment instruction corresponding to the test temperature to a temperature adjustment device, calculating a sleep score based on bio information received from the sensor, when applying the test temperature, and determining a sleep optimal temperature based on the calculated sleep score.

The present disclosure pertains to shortening sleep latency during the wake to sleep transition. Sensory stimulation is delivered to a subject by sensory stimulators during a sleep session, and a measure of wakefulness of the subject is determined. The sensory stimulators are controlled based on the measure of wakefulness of the subject. The sensory stimulators may be controlled to modulate an intensity of the sensory stimulation delivered to the subject. For example, the sensory stimulators may decrease the intensity of the sensory stimulation as the measure of wakefulness decreases. The system then determines that the measure of wakefulness has reached stable sleep. The sensory stimulators are controlled based on the determination that the measure of wakefulness has reached stable sleep. The sensory stimulators may decrease the intensity of the sensory stimulation at a faster rate once the measure of wakefulness reaches stable sleep.