This prospective, double-blind, randomized clinical trial aims to investigate the development of airway edema associated with intra-abdominal pressure during laparoscopic cholecystectomy. A total of 66 adult patients undergoing elective laparoscopic cholecystectomy under general anesthesia will be randomly assigned into two equal groups (33 patients per group) based on intra-abdominal pressure levels: low-pressure and standard-pressure pneumoperitoneum. Ultrasonographic measurements will be used to assess airway soft tissue thickness at predefined time points before and after the pneumoperitoneum. The primary objective is to determine whether increased intra-abdominal pressure contributes to postoperative airway edema, which may pose a risk during extubation.
Airway edema can lead to difficult extubation and perioperative complications. Pneumoperitoneum during laparoscopic surgery increases intra-abdominal pressure (IAP), which may contribute to airway soft tissue edema due to cephalad fluid shifts and venous congestion. This prospective, randomized, double-blind study aims to assess whether different levels of IAP have a measurable effect on airway soft tissue thickness. Patients aged 18 to 65 years, classified as ASA I-II, and scheduled for elective laparoscopic cholecystectomy will be included in the study. Upon arrival in the operating room, standard monitoring will be applied, anesthesia will be induced using intravenous sedation, and endotracheal intubation will be performed. In the preoperative period, airway ultrasonography will be used to measure tongue thickness, midsagittal tongue cross-sectional area, tongue width, lateral pharyngeal wall thickness, parapharyngeal area thickness, and submental area thickness. Patients will be randomly assigned into two groups: Group 1: Patients receiving 10 mmHg intra-abdominal pressure Group 2: Patients receiving 14 mmHg intra-abdominal pressure T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
QUADRUPLE
Enrollment
76
Laparoscopic cholecystectomy will be performed with intra-abdominal pressure maintained at 10 mmHg during insufflation. Standard anesthesia and surgical protocols will be followed.
Laparoscopic cholecystectomy will be performed with intra-abdominal pressure maintained at 14 mmHg during insufflation. Standard anesthesia and surgical protocols will be followed.
University of Health Sciences Kocaeli City Hospital
Kocaeli, Izmit, Turkey (Türkiye)
Change in Lateral Pharyngeal Wall Thickness Measured by Airway Ultrasound
To compare the effect of two different pneumoperitoneum pressures (10 mmHg vs. 14 mmHg) on upper airway edema during laparoscopic cholecystectomy. The degree of airway edema will be assessed by measuring changes in lateral pharyngeal wall thickness using ultrasound before and after the procedure.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
ultrasonographic airway parameter -tongue width
To compare the effect of two different pneumoperitoneum pressures (10 mmHg vs. 14 mmHg) on upper airway edema during laparoscopic cholecystectomy. The degree of edema will be evaluated by changes in ultrasonographic measurements of upper airway structures (e.g., tongue thickness, midsagittal cross-sectional area, pharyngeal wall thickness) before and after the procedure.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
ultrasonographic airway parameter -tongue volume
To compare the effect of two different pneumoperitoneum pressures (10 mmHg vs. 14 mmHg) on upper airway edema during laparoscopic cholecystectomy. The degree of edema will be evaluated by changes in ultrasonographic measurements of upper airway structures (e.g., tongue thickness, midsagittal cross-sectional area, pharyngeal wall thickness) before and after the procedure.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
ultrasonographic airway parameter-pharyngeal thickness
To compare the effect of two different pneumoperitoneum pressures (10 mmHg vs. 14 mmHg) on upper airway edema during laparoscopic cholecystectomy. The degree of edema will be evaluated by changes in ultrasonographic measurements of upper airway structures (e.g., tongue thickness, midsagittal cross-sectional area, pharyngeal wall thickness) before and after the procedure.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
ultrasonographic airway parameter- neck circumference
To compare the effect of two different pneumoperitoneum pressures (10 mmHg vs. 14 mmHg) on upper airway edema during laparoscopic cholecystectomy. The degree of edema will be evaluated by changes in ultrasonographic measurements of upper airway structures (e.g., tongue thickness, midsagittal cross-sectional area, pharyngeal wall thickness) before and after the procedure.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
oxygen saturation changes
To evaluate the clinical impact of pneumoperitoneum pressure (10 mmHg vs. 14 mmHg) on postoperative airway outcomes. Clinical indicators such as oxygen saturation changes, signs of airway obstruction, hoarseness, sore throat, hypoxia, stridor, and re-intubation will be recorded. The incidence of these complications will be compared between groups to assess whether higher pressure is associated with increased airway-related morbidity.
Time frame: Immediately after extubation and during early recovery (within the first 2 hours postoperative)
hoarseness
To evaluate the clinical impact of pneumoperitoneum pressure (10 mmHg vs. 14 mmHg) on postoperative airway outcomes. Clinical indicators such as oxygen saturation changes, signs of airway obstruction, hoarseness, sore throat, hypoxia, stridor, and re-intubation will be recorded. The incidence of these complications will be compared between groups to assess whether higher pressure is associated with increased airway-related morbidity.
Time frame: Immediately after extubation and during early recovery (within the first 2 hours postoperative)
stridor
To evaluate the clinical impact of pneumoperitoneum pressure (10 mmHg vs. 14 mmHg) on postoperative airway outcomes. Clinical indicators such as oxygen saturation changes, signs of airway obstruction, hoarseness, sore throat, hypoxia, stridor, and re-intubation will be recorded. The incidence of these complications will be compared between groups to assess whether higher pressure is associated with increased airway-related morbidity.
Time frame: Immediately after extubation and during early recovery (within the first 2 hours postoperative)
re-intubation
To evaluate the clinical impact of pneumoperitoneum pressure (10 mmHg vs. 14 mmHg) on postoperative airway outcomes. Clinical indicators such as oxygen saturation changes, signs of airway obstruction, hoarseness, sore throat, hypoxia, stridor, and re-intubation will be recorded. The incidence of these complications will be compared between groups to assess whether higher pressure is associated with increased airway-related morbidity.
Time frame: Immediately after extubation and during early recovery (within the first 2 hours postoperative)
sore throat
To evaluate the clinical impact of pneumoperitoneum pressure (10 mmHg vs. 14 mmHg) on postoperative airway outcomes. Clinical indicators such as oxygen saturation changes, signs of airway obstruction, hoarseness, sore throat, hypoxia, stridor, and re-intubation will be recorded. The incidence of these complications will be compared between groups to assess whether higher pressure is associated with increased airway-related morbidity.
Time frame: Immediately after extubation and during early recovery (within the first 2 hours postoperative)
Correlation Between Intravenous Fluid Volume and Airway Edema
To evaluate the correlation between the total intravenous fluid volume administered intraoperatively and the degree of airway edema, as measured by changes in ultrasonographic airway parameters (e.g., tongue thickness, pharyngeal wall thickness) at defined time points.
Time frame: T0: Before intubation T1: After intubation T2: 30 minutes after the initiation of pneumoperitoneum T3: 5 minutes after extubation T4: 1 hour after extubation T5: 2 hours after extubation
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