In COPD patients with chronic hypercapnic respiratory failure, the prognosis is poor and the treatment with non invasive ventilation is actually well established. However the best mode of ventilation is not well known. In severe COPD patients various disorders of respiratory mechanics result in insufficient ventilation, which can be life-threatening or create NIV discomfort. The main characteristic of these disorders is a cyclical closing of small airways that can limit an expiratory flow and provoked some fluctuations in flow curve. To our knowledge, the management of dynamic hyperinflation seems to play an important role in explaining the effect of the NIV. Few studies have examined the effects of the machine's adjustments on dynamic hyperinflation. The main objective of this study is to analyze the impact of specific ventilatory modes supposed to reduce the dynamic hyperinflation on the hematosis, by studying transcutaneous pressure of carbon dioxide, in severe hypercapnic COPD patients ventilated by NIV. Two modes of ventilation will be compared. First one is an algorithmic mode developed by the company Löwenstein (AirTrap Control, Trigger Lockout and the Expiratory Pressure Ramp). The second one is a standard algorithmic mode, used in the same ventilator. These two ventilatory modes will be evaluated in each patient, during two consecutive nights in current living conditions at home.
Study Type
OBSERVATIONAL
Enrollment
1
NIV using standard mode or Lowenstein mode
CHRU Jean Minjoz
Besançon, Doubs, France
Mean carbon dioxide partial pressure-level during non invasive ventilation
Mean pCO2 level over night calculated using transcutaneous measurement of partial pressure of carbon dioxide under non invasive ventilation. Device : transcutaneous capnography (PtcCO2); SenTec Digital Monitoring System
Time frame: 2 nights
Number of respiratory events during non invasive ventilation
According to consensus group, nocturnal respiratory events are : unintentional leak, obstruction at different levels of the upper airways and asynchrony (ineffective effort, auto-triggering, and double triggering, premature or delayed cycling)
Time frame: 2 nights
Sleep quality
Changes in data of polysomnography (total sleep time (TST) ; total recording time ; sleep latency, sleep efficiency (TST/time in bed) ; time in each stages plus percent of TST in each stage ; stage REM latency ; wake time after sleep onset ; arousal index)
Time frame: 2 nights
Ventilation quality
Subjective changes in quality of ventilator by specific auto questionnaire (quality of night, feeling, dyspnea, quality of ventilation, respiratory disturbance caused by NIV, sleep disturbance caused by NIV). The patient answers to each question using a "likert scale" in terms of intensity. The second questionnaire is the S3-NIV which is a tool for the routine clinical assessment of patients undergoing home NIV.
Time frame: 2 nights
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