To compare the effects of Individualized positive end-expiratory pressure with recruitment maneuver on respiratory parameters and oxygenation in mechanical ventilation during laparoscopic surgeries with the fixed positive end-expiratory pressure and conventional mechanical ventilation without positive end-expiratory pressure.
Thus study will compare the effects different methods of positive end-expiratory pressure administration in mechanical ventilation on respiratory parameters and oxygenation of the patients undergoing laparoscopic surgeries. There will be three groups of patients which will be as follows: Individualized positive end-expiratory pressure with recruitment maneuver group, fixed positive end-expiratory pressure group and conventional mechanical ventilation. Respiratory parameters; dynamic compliance, driving pressure and ratio of partial pressure of oxygen to fractional inspiration of oxygen will be measured. Mechanical ventilation respiratory parameters i .e. peak pressure, plateu pressure , dynamic compliance and driving pressure will be measured from ventilator machine. P/F ratio( Ratio of partial pressure of oxygen to inspiratory fraction of oxygen) will be measured by taking blood samples for arterial blood gas analysis.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
75
Protective lung ventilation methods with positive end-expiratory pressure help in prevention of atelectasis and improvement of intraoperative ventilator parameters e.g low driving pressure and improved dynamic compliance resulting in better oxygenation of lungs ere will be three groups in this study. Individualized positive end-expiratory pressure with recruitment maneuver and fixed positive end-expiratory pressure will be interventional groups. They will be compared with conventional ventilation group in which no additional positive end-expiratory pressure will be applied. The effects on respiratory parameters and oxygenation of patients will be compared for each group. This study will determine which method of positive end-expiratory pressure is superior and how it differs from conventional ventilation for prevention of atelectasis induced by pneumoperitonium and improvement of respiratory mechanical parameters and oxygenation in Mechanical ventilation during laparoscopic surgeries.
Combined Military Hospital Bahawalpur
Bahawalpur, Punjab Province, Pakistan
Driving pressure
Driving pressure is defined as airway plateau pressure minus positive end-expiratory pressure and reflects the degree of ventilator induced trauma. Airway plateau pressure and positive end-expiratory values will be taken from ventilator monitor.
Time frame: 10 minutes after induction of general anesthesia, 10 minutes after pneumoperitonium creation and 10 minutes before extubation of patient
Dynamic compliance of lungs
Dynamic compliance is change in lung volume by the change in pressure in the presence of airflow and is calculated by dividing tidal volume of a breath with difference between peak pressure of airway and positive end-expiratory pressure. Tidal volume, peak airway pressure and positive end-expiratory pressure will be noted from ventilator machine monitor.
Time frame: 10 minutes after induction of general anesthesia, 10 minutes after pneumoperitonium creation and 10 minutes before extubation of patient
Oxygenation Index
Oxygenation index is calculated by following formula: OI = Mean Airway Pressure × FiO2 × 100 ÷ PaO2 FiO2 (fractional inspiration of oxygen) and PaO2 (partial pressure of oxygen) will be recorded from arterial blood gas analysis.
Time frame: 10 minutes after induction of general anesthesia and 10 minutes before extubation of patient
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