The invention relates to a method and an apparatus to identify alveolar opening and collapse of a lung. To automatically generate the settings of ventilator parameters in a simple and gentle way, the hemoglobin oxygen saturation and/or the endtidal CO2 concentration and/or the CO2 output are-measure
The invention relates to a method and an apparatus to identify alveolar opening and collapse of a lung. To automatically generate the settings of ventilator parameters in a simple and gentle way, the hemoglobin oxygen saturation and/or the endtidal CO2 concentration and/or the CO2 output are-measured and processing to detect alveolar opening and closing. From the knowledge of the corresponding airway pressures, a central processing unit may generate the settings of ventilation parameters such that gas exchange is maximal while the mechanical stress of the lung tissue is minimal.
대표청구항▼
What is claimed is: 1. Method for determining the alveolar opening or closing of a lung ventilated by an artificial ventilator, comprising the steps of: measuring the hemoglobin oxygen saturation (SO2), and changing the airway pressure (Paw) wherein from the observation of the resulting course of
What is claimed is: 1. Method for determining the alveolar opening or closing of a lung ventilated by an artificial ventilator, comprising the steps of: measuring the hemoglobin oxygen saturation (SO2), and changing the airway pressure (Paw) wherein from the observation of the resulting course of the measured hemoglobin oxygen saturation (SO2) the airway pressure level at which alveolar opening or closing occurs is determined. 2. Method according to claim 1, wherein the inspiratory oxygen fraction (fiO2) at the artificial ventilator is adjusted such that the measured hemoglobin oxygen saturation (SO2) is approximately equal to a given reference value, and wherein the airway pressure is changed and from the resulting course of the adjusted inspiratory oxygen fraction (fiO2) an airway pressure level is determined, which corresponds to the alveolar opening or the alveolar closing of the lung. 3. Method according to claim 2, wherein the airway pressure is increased continuously and wherein an alveolar opening of the lung is detected, if the gradient of the resulting course of the adjusted inspiratory oxygen fraction (fiO2) reaches a negative minimum. 4. Method according to claim 2, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the gradient of the resulting course of the adjusted inspiratory oxygen fraction (fiO2) reaches a positive maximum. 5. Method according to claim 3, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the gradient of the resulting course of the adjusted inspiratory oxygen fraction (fiO2) reaches a positive maximum. 6. Method for determining the alveolar opening or closing of a lung ventilated by an artificial ventilator, comprising the steps of: measuring the endtidal CO2 concentration in the expired gas (etCO2), and changing the airway pressure (paw), wherein from the observation of the resulting course of the measured endtidal CO2 concentration the airway pressure level at which alveolar opening or closing occurs is determined. 7. Method according to claim 6, wherein the airway pressure is increased continuously and wherein an alveolar opening of the lung is detected, if the positive gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 8. Method according to claim 7, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the negative gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 9. Method according to claim 6, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the negative gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 10. Method for determining the alveolar opening or closing of a lung ventilated by an artificial ventilator, comprising the steps of: measuring the CO2 output (CO2 volume exhaled per unit time), and changing the airway pressure (paw), wherein from the observation of the resulting course of the measured CO2 output the airway pressure level at which alveolar opening or closing occurs is determined. 11. Method according to claim 10, wherein the airway pressure is increased continuously and wherein an alveolar opening of the lung is detected, if the positive gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 12. Method according to claim 11, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the negative gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 13. Method according to claim 10, wherein the airway pressure is decreased continuously and wherein an alveolar closing of the lung is detected, if the negative gradient of the resulting course of the measured endtidal CO2 concentration and/or the CO2 output reaches a maximal change. 14. Apparatus for determining the alveolar opening or closing of a lung, comprising: an artificial ventilator for ventilating a lung, a saturation sensor for measuring the hemoglobin oxygen saturation (SO2), and a data processor which determines during a change of the airway pressure (paw) from the resulting course of the measured hemoglobin oxygen saturation (SO2) the airway pressure level at which alveolar opening or closing occurs. 15. Apparatus according to claim 14, comprising a feedback control loop which controls the inspiratory oxygen fraction (fiO2) delivered to the patient such that the measured hemoglobin oxygen saturation (SO2) is approximately equal to a given reference value, and wherein the data processor determines the airway pressure at which alveolar opening occurs from the course of the required inspiratory oxygen fraction (fiO2) during a change of the airway pressure. 16. Apparatus for determining the alveolar opening or closing of a lung, comprising: an artificial ventilator for ventilating a lung, a sensor to measure endtidal CO2 concentration (etCO2), and a data processor which determines during a change of the airway pressure (paw) from the resulting course of the measured endtidal CO2 concentration the airway pressure level at which alveolar opening or closing occurs. 17. Apparatus for determining the alveolar opening or closing of a lung, comprising: an artificial ventilator for ventilating a lung, a sensor to measure CO2 output (CO2 volume exhaled per unit time), and a data processor which determines during a change of the airway pressure (paw) from the resulting course of the measured CO2 output the airway pressure level at which alveolar opening or closing occurs.
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이 특허에 인용된 특허 (7)
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