Pressure support ventilation control system and method
First Claim
1. A pressure support ventilation system, comprising:
- a ventilator unit having an input for connection to a source of breathing gases, an inspiration line for connection to a patient, a gas delivery unit for controlling gas delivery from the source to the inspiration line, an expiratory line for exhausting gases from the patient, and an expiratory unit for controlling removal of gases during expiration;
at least one flow sensor for sensing the level of gas flow in the system;
a pressure sensor for sensing pressure in the system; and
a control unit connected to the gas delivery unit, expiratory unit, and the flow and pressure sensors for controlling the gas delivery and expiratory units to provide an inspiration phase in which gases are supplied to the patient through the gas delivery unit and an expiratory phase in which gases are removed from the patient;
the control unit calculating, for each breath, a patient respiratory time constant based on the outputs of the flow and pressure sensors, and including an expiratory trigger sensitivity controller for varying an expiratory trigger sensitivity in response to variations in the calculated patient respiratory time constant, such that the expiratory trigger sensitivity at which the ventilator unit switches from gas delivery to gas removal is increased with increase in the patient respiratory time constant.
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Abstract
A system and method of controlling the termination of the inhalation phase in a pressure support ventilation system is disclosed, in which an expiratory trigger sensitivity, or ratio of inspiratory flow rate to peak inspiratory flow rate at which the inspiration phase is terminated, is varied in proportion to variations in a calculated respiratory time constant. The system includes sensors for monitoring pressure and flow of gas during each breath, and, based on the sensor outputs, calculates the respiratory time constant for one breath or a series of breaths. The expiratory trigger sensitivity is automatically increased with increasing patient respiratory time constant, providing a closed loop control of expiratory trigger sensitivity. The expiratory trigger sensitivity may also be varied in response to changes in supra-plateau pressure.
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Citations
15 Claims
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1. A pressure support ventilation system, comprising:
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a ventilator unit having an input for connection to a source of breathing gases, an inspiration line for connection to a patient, a gas delivery unit for controlling gas delivery from the source to the inspiration line, an expiratory line for exhausting gases from the patient, and an expiratory unit for controlling removal of gases during expiration;
at least one flow sensor for sensing the level of gas flow in the system;
a pressure sensor for sensing pressure in the system; and
a control unit connected to the gas delivery unit, expiratory unit, and the flow and pressure sensors for controlling the gas delivery and expiratory units to provide an inspiration phase in which gases are supplied to the patient through the gas delivery unit and an expiratory phase in which gases are removed from the patient;
the control unit calculating, for each breath, a patient respiratory time constant based on the outputs of the flow and pressure sensors, and including an expiratory trigger sensitivity controller for varying an expiratory trigger sensitivity in response to variations in the calculated patient respiratory time constant, such that the expiratory trigger sensitivity at which the ventilator unit switches from gas delivery to gas removal is increased with increase in the patient respiratory time constant. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of controlling the termination of the inhalation phase in a pressure support ventilation system, comprising the steps of:
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supplying gases to a patient in a ventilator inspiration phase based on a predetermined target pressure level;
initially selecting a default expiratory trigger sensitivity at which the inspiration phase is terminated and the ventilator switches to expiration;
detecting the pressure and flow of gas during each breath, and calculating a patient respiratory time constant for that breath; and
adjusting the expiratory trigger sensitivity based on the calculated respiratory time constant, such that expiratory trigger sensitivity is increased with increasing patient respiratory time constant. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification