A positive airway pressure apparatus is automatically adjusting. Pressure increases in response to apnea events when the apparatus is in one or more responsive states. Pressure does not increase in response to apnea events when the apparatus is in a non-responsive state. The apparatus switches betwe
A positive airway pressure apparatus is automatically adjusting. Pressure increases in response to apnea events when the apparatus is in one or more responsive states. Pressure does not increase in response to apnea events when the apparatus is in a non-responsive state. The apparatus switches between responsive and nonresponsive states depending upon any of a number of different criteria that help differentiate between open airway apnea events and closed airway apnea events.
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1. A method for controlling an automatically adjusting PAP apparatus, comprising: operating a controller in a first responsive state in which the controller is configured to respond to a first series of non-isolated apneas by increasing an output pressure of a gases flow source;entering a pause stat
1. A method for controlling an automatically adjusting PAP apparatus, comprising: operating a controller in a first responsive state in which the controller is configured to respond to a first series of non-isolated apneas by increasing an output pressure of a gases flow source;entering a pause state when a total number of pressure increases in response to non-isolated apneas exceeds a threshold, the pause state having a predefined duration, wherein during the pause state, the controller increases the output pressure of the gases flow source in response to flow-limited breaths and non-flow limited hypopneas but does not increase the output pressure in response to apneas; andafter the pause state, operating the controller in a second responsive state in which the controller is configured to respond to a second series of non-isolated apneas by increasing an output pressure of a gases flow source. 2. The method of claim 1, wherein increasing the output pressure of the gases flow source comprises increasing the output pressure by 1 cm H2O in response to each non-isolated apnea. 3. The method of claim 1, further comprising entering a suppressed state when a total number of pressure increases in response to non-isolated apneas since exiting the pause state exceeds a second threshold, wherein the controller is configured to remain in the suppressed state until the output pressure falls below a threshold, wherein during the suppressed state the controller is configured to not increase the output pressure in response to apneas but is configured to increase the output pressure in response to flow-limited breaths and non-flow limited hypopneas. 4. The method of claim 1, wherein the controller is configured to enter the pause state when a total number of non-isolated apneas or non-flow limited hypopneas less nominal periods of normal breathing exceeds the threshold. 5. The method of claim 1, further comprising sensing pressure or flow or both supplied by the gases flow source or supplied to a patient. 6. The method of claim 5, further comprising determining apneas, non-flow limited hypopneas, and flow limited breaths based on the sensed pressure or flow. 7. The method of claim 1, wherein the controller is configured to increase the output pressure in response to flow-limited breaths subject to a maximum therapy pressure. 8. A method for controlling an automatically adjusting PAP apparatus, comprising: operating a controller in a first responsive state in which the controller is configured to respond to a first series of non-isolated apneas by increasing an output pressure of a gases flow source, wherein in the first responsive state the controller is also configured to respond to non-flow limited hypopneas by increasing the output pressure; andentering a pause state when a total number of pressure increases in response to non-flow limited hypopneas and non-isolated apneas less nominal periods of normal breathing exceeds a threshold, the pause state having a predefined duration, wherein during the pause state, the controller does not increase the output pressure in response to apneas but is configured to increase the output pressure in response to flow-limited breaths and non-flow limited hypopneas. 9. The method of claim 8, further comprising sensing pressure or flow or both supplied by the gases flow source or supplied to a patient. 10. The method of claim 9, further comprising determining apneas, non-flow limited hypopneas, and flow limited breaths based on the sensed pressure or flow. 11. The method of claim 8, further comprising exiting the pause state at the end of the predefined duration and operating the controller in a second responsive state in which the controller is configured to respond to a second series of non-isolated apneas or non-flow limited hypopneas by increasing an output pressure of a gases flow source. 12. The method of claim 11, further comprising entering a suppressed state when a total number of pressure increases in response to non-isolated apneas or non-isolated apneas less nominal periods of normal breathing since exiting the pause state exceeds a second threshold, wherein the controller is configured to remain in the suppressed state until the output pressure falls below a threshold, wherein during the suppressed state the controller is configured to not increase the output pressure in response to apneas but is configured to increase the output pressure in response to flow-limited breaths and non-flow limited hypopneas. 13. The method of claim 8, wherein the controller is configured to reduce the output pressure after a predefined period without an apnea or non-flow limited hypopnea. 14. The method of claim 13, wherein the predefined period is 2.5 minutes. 15. The method of claim 13, wherein the controller is configured to reduce the output pressure by 0.5 cm H2O after the predefined period without an apnea or non-flow limited hypopnea. 16. The method of claim 8, wherein the controller is configured to increase the output pressure in response to flow-limited breaths subject to a maximum therapy pressure. 17. A method for controlling an automatically adjusting PAP apparatus, comprising: operating a controller in a first responsive state in which the controller is configured to respond to a first series of non-isolated apneas by increasing an output pressure of a gases flow source;entering a pause state when a total number of pressure increases in response to non-isolated apneas exceeds a first threshold, the pause state having a predefined duration, wherein during the pause state, the controller does not increase the output pressure in response to apneas;after the pause state, operating the controller in a second responsive state in which the controller is configured to respond to a second series of non-isolated apneas by increasing an output pressure of a gases flow source; andentering a suppressed state when a total number of pressure increases in response to non-isolated apneas since exiting the pause state exceeds a second threshold, wherein the controller is configured to remain in the suppressed state until the output pressure falls below a threshold, wherein during the suppressed state the controller is configured to not increase the output pressure in response to apneas but is configured to increase the output pressure in response to flow-limited breaths and non-flow limited hypopneas. 18. The method of claim 17, wherein the controller is configured to enter the pause state when a total number of non-isolated apneas or non-flow limited hypopneas less nominal periods of normal breathing exceeds the first threshold. 19. The method of claim 17, further comprising sensing pressure or flow or both supplied by the gases flow source or supplied to a patient. 20. The method of claim 19, further comprising determining apneas, non-flow limited hypopneas, and flow limited breaths based on the sensed pressure or flow.
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이 특허에 인용된 특허 (3)
Berthon-Jones, Michael; Farrugia, Steven Paul, Administration of CPAP treatment pressure in presence of apnea.
Rapport, David M.; Norman, Robert G., Method and apparatus for optimizing controlled positive airway pressure using the detection of cardiogenic oscillations.
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