Ventilator monitor system and method of using same
First Claim
1. A method for monitoring ventilation support for a patient having an airway, where said method comprises:
- (1) utilizing a monitoring system comprising;
(a) a plurality of measuring sensors that monitor the patient, or that monitor a breathing circuit coupled to the airway of the patient, each measuring sensor generating an output signal, and (b) an intelligence system that receives at least one of the output signals, wherein the intelligence system evaluates at least one output signal to determine the appropriateness of ventilation for the patient;
(2) receiving into the intelligence system at least one of the signals;
(3) implementing the intelligence system, without clinician input, to evaluate the at least one output signal to determine the appropriateness of ventilation for the patient; and
(4) recommending, without clinician input, a setting for at least one of the plurality of ventilator setting controls based on the evaluation of the at least one output signal by the intelligence system, wherein said setting is appropriate for the patient at that particular time.
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Accused Products
Abstract
The present invention provides a system and method for monitoring the ventilation support provided by a ventilator that is supplying a breathing gas to a patient via a breathing circuit that is in fluid communication with the lungs of the patient. The ventilator has a plurality of selectable ventilator setting controls governing the supply of ventilation support from the ventilator, each setting control selectable to a level setting. The ventilator support monitor system preferably receives at least one ventilator setting parameter signal, each ventilator setting parameter signal indicative of the level settings of one ventilator setting control, monitors a plurality of sensors, each sensor producing an output signal indicative of a measured ventilation support parameter, to determine the sufficiency of the ventilation support received by the patient, and determines the desired level settings of the ventilator setting controls in response to the received ventilator setting parameter signal and the output signals. The ventilator support monitor system preferably utilizes a trainable neural netword to determine the desired level settings of the ventilator setting controls.
220 Citations
12 Claims
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1. A method for monitoring ventilation support for a patient having an airway, where said method comprises:
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(1) utilizing a monitoring system comprising;
(a) a plurality of measuring sensors that monitor the patient, or that monitor a breathing circuit coupled to the airway of the patient, each measuring sensor generating an output signal, and (b) an intelligence system that receives at least one of the output signals, wherein the intelligence system evaluates at least one output signal to determine the appropriateness of ventilation for the patient;
(2) receiving into the intelligence system at least one of the signals;
(3) implementing the intelligence system, without clinician input, to evaluate the at least one output signal to determine the appropriateness of ventilation for the patient; and
(4) recommending, without clinician input, a setting for at least one of the plurality of ventilator setting controls based on the evaluation of the at least one output signal by the intelligence system, wherein said setting is appropriate for the patient at that particular time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
causing the ventilator to generate a ventilator parameter signal indicative of a parameter related to the supply of gas from the ventilator to the patient; and
providing the ventilator parameter signal to the intelligence system, wherein the intelligence system evaluates the at least one output signal and the ventilator parameter signal to determine the appropriateness of ventilation.
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4. The method of claim 2, further comprising adjusting at least one of the plurality of ventilator setting controls based on the setting determined in the recommending step.
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5. The method of claim 1, wherein said output signals are selected from the group consisting of:
- an exhaled carbon dioxide signal indicative of the exhaled carbon dioxide (ExCO2) level of the exhaled gas expired by the patient within the breathing circuit;
a flow rate signal indicative of the flow rate (V) of the inhaled/exhaled gas expired by the patient within the breathing circuit;
a pulse oximeter hemoglobin oxygen saturation (SpO2) signal indicative of the oxygen saturation level of the patient;
a pressure (P) signal indicative of the pressure of the breathing gas within the breathing circuit;
a blood pressure (BP) signal indicative of the blood pressure of the patient; and
a temperature (T) signal indicative of the core body temperature of the patient.
- an exhaled carbon dioxide signal indicative of the exhaled carbon dioxide (ExCO2) level of the exhaled gas expired by the patient within the breathing circuit;
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6. The method of claim 5, wherein the output signals also include at least one of the group consisting of:
- an arterial blood gas PaO2 signal;
an arterial blood gas PaCO2signal; and
an arterial blood gas pH signal.
- an arterial blood gas PaO2 signal;
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7. The method of claim 1, wherein the ventilator parameter signals include at least one of the group consisting of:
- a minute ventilation (VE) signal;
a ventilator breathing frequency of (f) signal;
a tidal volume (VT) signal;
a breathing gas flow rate (V) signal;
a pressure limit signal;
a work of breathing (WOB) signal;
a pressure support ventilation (PSV) signal;
a positive end expiratory pressure (PEEP) signal;
a continuous positive airway pressure (CPAP) signal; and
a fractional inhaled oxygen concentration (FIO2) signal.
- a minute ventilation (VE) signal;
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8. The method of claim 1, further comprising displaying the recommended settings of the ventilator setting controls.
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9. The method of claim 1, wherein the intelligence system comprises a neural network, and wherein recommending the settings of the ventilator setting controls of the ventilator comprises applying at least a portion of the output signals and the ventilator parameter signals to the neural network of the intelligence system to determine the recommended settings of the ventilator setting controls.
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10. The method of claim 1, wherein comprising:
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selecting output signals for display; and
displaying the selected output signals in real time.
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11. The method of claim 1, further comprising displaying at least one of the recommended ventilator setting control settings.
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12. The method of claim 1, wherein the intelligence system is programmed with a set of decision rules.
Specification