Automatic rise time adjustment for bi-level pressure support system
First Claim
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1. A pressure support system comprising:
- a pressure generating system adapted to produce a flow of breathing gas at an inspiratory positive airway pressure (IPAP) level and an expiratory positive airway pressure (EPAP) level that is less than the IPAP level;
a conduit operatively coupled to the pressure generating system to deliver the flow of breathing gas to an airway of a patient;
a sensor adapted to detect a physiological condition associated with such a patient receiving the flow of breathing gas; and
a processor receiving an output of the sensor and providing a control signal to the pressure generating system, wherein the processor is programmed to control the pressure generating system so as to;
a) deliver the flow of breathing gas to such a patient at the IPAP level during at least a portion of an inspiratory phase of such a patient, and to deliver the flow of breathing gas to such a patient at the EPAP level during at least a portion of an expiratory phase of such a patient, b) maintain the IPAP level and the EPAP level at a substantially fixed value over a plurality of respiratory cycles of the patient, and c) automatically adjust a rise time from the EPAP level to the IPAP level during the plurality of respiratory cycles based on the output of the sensor.
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Abstract
An apparatus and method for a bi-level positive airway pressure support in which the rise time from the expiratory positive airway pressure to the inspiratory positive airway pressure is automatically controlled by the pressure support system. The pressure support system includes a sensor, a control system, and a pressure generating system. The sensor monitors the patient'"'"'s respiration to detect respiratory events, such as an apnea, hyponea or other disturbance, and the control system responds to the sensor information to adjust the rise time from the expiratory positive airway pressure to the inspiratory positive airway pressure gas pressure to maximize patient comfort and pressure support treatment effectiveness.
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Citations
18 Claims
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1. A pressure support system comprising:
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a pressure generating system adapted to produce a flow of breathing gas at an inspiratory positive airway pressure (IPAP) level and an expiratory positive airway pressure (EPAP) level that is less than the IPAP level;
a conduit operatively coupled to the pressure generating system to deliver the flow of breathing gas to an airway of a patient;
a sensor adapted to detect a physiological condition associated with such a patient receiving the flow of breathing gas; and
a processor receiving an output of the sensor and providing a control signal to the pressure generating system, wherein the processor is programmed to control the pressure generating system so as to;
a) deliver the flow of breathing gas to such a patient at the IPAP level during at least a portion of an inspiratory phase of such a patient, and to deliver the flow of breathing gas to such a patient at the EPAP level during at least a portion of an expiratory phase of such a patient, b) maintain the IPAP level and the EPAP level at a substantially fixed value over a plurality of respiratory cycles of the patient, and c) automatically adjust a rise time from the EPAP level to the IPAP level during the plurality of respiratory cycles based on the output of the sensor. - View Dependent Claims (2, 3, 4, 5, 6)
an input/output device operatively coupled to the processor; and
at least one timer operatively connected to the processor, wherein the processor determines whether to adjust the rise time from the EPAP level to the IPAP level based on an output of the timer.
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3. The pressure support system of claim 2, wherein the input/output device is used to set at least one of (1) a time interval during which the processor checks an output signal from the sensor to determine whether to adjust the rise time, (2) a number of apenic events that can occur in the time interval before the processor will adjust the rise time, and (3) an amount by which the rise time is incremented or decremented by the processor.
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4. The pressure support system of claim 1, wherein the processor dynamically determines at least one of (1) a time interval during which the processor checks an output signal from the sensor to determine whether to adjust the rise time, (2) a number of apenic events that can occur in the time interval before the processor will adjust the rise time, and (3) an amount by which the rise time is incremented or decremented by the processor.
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5. The pressure support system of claim 1, wherein the sensor is a flow sensor, a pressure sensor associated with the conduit, or both.
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6. The pressure support system of claim 1, wherein the processor controls the pressure generating system so as to adjust a fall time from the IPAP level to the EPAP level.
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7. A pressure support system comprising:
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pressure generating means for producing a flow of breathing gas at an inspiratory positive airway pressure (IPAP) level and an expiratory positive airway pressure (EPAP) level that is less than the IPAP level;
sensing means for detecting a physiological condition associated with a patient receiving the flow of breathing gas; and
controlling means, operatively connected to the sensing means and the pressure generating means, for;
a) determining a rise time from the EPAP level to the IPAP level based on an output of the sensing means, b) causing the pressure generating means to deliver the flow of breathing gas to such a patient at the IPAP level during at least a portion of an inspiratory phase of such a patient, and to deliver the flow of breathing gas to such a patient at the EPAP level during at least a portion of an expiratory phase of such a patient, c) maintaining the IPAP level and the EPAP level at a substantially fixed value over a plurality of respiratory cycles of the patient, and d) controlling a rate of change from the EPEP level to the IPAP level over the plurality of respiratory cycles based on the rise time. - View Dependent Claims (8, 9, 10, 11, 12, 13)
inputting means, operatively coupled to the controlling means, for providing information thereto; and
timing means, operatively connected to the controlling means, wherein the controlling means determines whether to adjust the rise time from the EPAP level to the IPAP level based on an output of the timing means.
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11. The pressure support system of claim 7, wherein the sensing means comprises a flow sensor, a pressure sensor associated with the pressure generating means, or both.
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12. The pressure support system of claim 7, wherein the controlling means dynamically determines at least one of (1) a time interval during which the controlling means checks an output signal from the sensing means to determine whether to adjust the rise time, (2) a number of apenic events that can occur in the time interval before the controlling means will adjust the rise time, and (3) an amount by which the rise time is incremented or decremented by the controlling means.
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13. The pressure support system of claim 7, wherein the controlling means also controls the pressure generating means so as to adjust a fall time from the IPAP level to the EPAP level.
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14. A method for automatically adjusting a rise time of a pressure support system, comprising:
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producing a flow of breathing gas at an inspiratory positive airway pressure (IPAP) level and an expiratory positive airway pressure (EPAP) level that is less than the inspiratory positive airway pressure;
detecting a physiological condition associated with a patient receiving the flow of breathing gas;
determining a rise time from the EPAP level to the IPAP level based on the physiological condition associated with such a patient;
delivering the flow of breathing gas to such a patient at the IPAP level during at least a portion of an inspiratory phase of such a patient, and delivering the flow of breathing gas to such a patient at the EPAP level during at least a portion of an expiratory phase of such a patient;
maintaining the IPAP level and the EPAP level at a substantially fixed value over a plurality of respiratory cycles of the patient; and
controlling a rate of change from the EPAP level to the IPAP level based on the rise time. - View Dependent Claims (15, 16, 17, 18)
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Specification
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Current AssigneeRIC INVESTMENTS LLC (Koninklijke Philips N.V.)
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Original AssigneeRespironics Incorporated (Koninklijke Philips N.V.)
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InventorsYurko, Gregory
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Primary Examiner(s)DOERRLER, WILLIAM CHARLES
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Application NumberUS09/896,644Time in Patent Office627 DaysField of Search128/204.23, 128/204.21, 128/204.26, 128/204.22, 128/204.18, 128/205.23US Class Current128/204.26CPC Class CodesA61M 16/0066 Blowers or centrifugal pumpsA61M 16/0069 the speed thereof being con...A61M 16/024 including calculation means...A61M 16/06 Respiratory or anaesthetic ...A61M 2016/0021 with a proportional output ...A61M 2016/0039 in the inspiratory circuitA61M 2230/60 Muscle strain, i.e. measure...A61M 2230/63 Motion, e.g. physical activity
