Using lung ultrasound re-aeration score(LUS-RAS) combined with pressure-volume curve(PVC) adjust maintain positive end-expiratory pressure(PEEP) after recruitment maneuver, to achieve real-time adjustment, reduce ventilation-associated lung injury and the purpose of effective lung recruitment.
The traditional method, set PEEP according to PVC in ARDS mechanical ventilation, lacks morphological evaluation. For point-of-care lung ultrasound(POC-LUS) is non-invasive, real-time, visualization, no need transport patients, getting more and more attention in the ARDS treatment. It has been reported that LUS-RAS is a meaningful assessment in recruitment maneuver. This study will combine POC-LUS with PVC in set the initial peep, and then dynamic record LUS-RAS to feedback regulate PEEP. Using the POC-LUS and maximum oxygenation method to assess lung recruitment effect in experimental group and control group prospectively. The ventilator parameters, state of hemodynamic, arterial blood gas(ABG) in each group will be recorded; Statistical methods will be performed in term to understand the correlation.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
30
Adjust PEEP real-time in term of LUS-RAS chang.
Adjust PEEP real-time in term of PaO2+PaCO2≥400mmHg whether or not.
Gongli Hospital
Pudong, Shanghai Municipality, China
RECRUITINGLung Ultrasound re-aeration score, LUS-RAS
The score is composed of 12 different regions of chest wall checked by POC-LUS.
Time frame: 48 hours
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