A total of 103 elective surgery patients who met the inclusion criteria were selected. After screening for eligibility according to the inclusion and exclusion criteria and signing informed consent, they were randomly divided into two groups. Upon entering the operating room, routine ECG monitoring was initiated, and a peripheral vein was opened. Ultrasound was used to measure the baseline cross-sectional area (CSA) of the gastric antrum in the supine position. After general anesthesia induction, positive pressure ventilation was applied via face mask. Group A received no external compression, while Group B underwent esophageal compression under ultrasound guidance.
Upon entering the operating room, intravenous access is established, and oxygen is administered. Standard vital sign monitoring is initiated, including heart rate, non-invasive blood pressure, peripheral oxygen saturation, temperature monitoring, and BIS monitoring. Ultrasound is used to measure the cross-sectional area (CSA) of the gastric antrum before the onset of FMV. Oxygen is administered via face mask for denitrogenation, with 100% pure oxygen (6 L/min flow rate). Intravenous medications are sequentially administered: midazolam 0.03 mg/kg, propofol 1-2 mg/kg, sufentanil 0.5 μg/kg, remifentanil 1 μg/kg, and rocuronium bromide 0.6 mg/kg. After the patient loses consciousness and the eyelash reflex is absent, FMV is initiated. The trial employs a pressure-controlled ventilation (PCV) mode with a pressure of 18 cmH2O, a level sufficient to provide adequate alveolar ventilation while staying below the threshold for significant gastroesophageal regurgitation. The respiratory rate is set at 14 breaths per minute with an inspiration-to-expiration ratio of 1:2. After three minutes of FMV, the gastric antrum CSA is measured again in supine, semi-recumbent, and right lateral decubitus positions. Video laryngoscopy is used to record POGO scores before and after ultrasound-guided esophageal compression, and after 4 minutes of ventilation, tracheal intubation is performed. Grouping: Group A (Control Group): No esophageal compression is applied, and FMV is performed for 4 minutes. Group B (Intervention Group): Ultrasound-guided esophageal compression plus FMV: before the start of FMV, ultrasound is used to locate the esophagus, and pressure is applied to the esophagus at the cricoid level to collapse the esophageal lumen. Esophageal pressure is released just before tracheal intubation following 4 minutes of ventilation.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
TRIPLE
Enrollment
103
Before the start of FMV, ultrasound is used to locate the esophagus, and pressure is applied to the esophagus at the cricoid level to collapse the esophageal lumen. Esophageal pressure is released just before tracheal intubation following 4 minutes of ventilation.
Nanjing First Hospital
Nanjing, Jiangsu, China
The incidence of gastric distension
Defined as a significant increase in gastric antrum CSA with acoustic shadowing or the characteristic "comet-tail sign," or when the enlarged gastric antrum obstructs the surgical field
Time frame: During anesthesia induction
The positional relationship between the esophagus and trachea
Observe the position of the esophagus relative to the trachea without the application of pressure on the patient, and assess whether there is any positional change of the esophagus relative to the trachea under ultrasound guidance after esophageal compression, ensuring the accuracy and safety of esophageal compression.
Time frame: Before anesthesia induction
Tidal volume
Observe whether tidal volume is affected after ultrasound-guided esophageal compression and evaluate the impact of esophageal compression on ventilation quality. Effective esophageal compression should maintain a tidal volume of no less than 6 ml/kg for the patient.
Time frame: During anesthesia induction
Oxygen saturation
Observe whether oxygen saturation is affected after ultrasound-guided esophageal compression and evaluate the impact of esophageal compression on ventilation quality. Effective esophageal compression should maintain the patient's oxygen saturation at no less than 95%.
Time frame: During anesthesia induction
Airway plateau
Observe the values of airway plateau pressure during esophageal compression to evaluate the mechanical impact of esophageal compression on the airway. An airway plateau pressure not exceeding 20-25 cmH₂O indicates effective esophageal compression.
Time frame: During anesthesia induction
The percentage of glottic opening (POGO) score
The percentage of glottic opening (POGO) score represents the portion of the glottis visualized. It is defined anteriorly by the anterior commissure and posteriorly by the interarytenoid notch. The score ranges from 0% when none of the glottis is seen to 100% when the entire glottis including the anterior commissure is seen. A POGO score of 100% denotes visualization of the entire glottic opening in linear fashion from the anterior commissure to the posterior cartilages . If none of the glottic opening is seen, then the POGO score is 0%. The higher the POGO value, the less impact effective esophageal compression has on ventilation performance.
Time frame: During tracheal intubation, immediately
Surgeon's evaluation of gastric insufflation
The degree of gastric distention is assessed by the same surgeon through laparoscopy. A score of 0 is given when there is no significant gastric distention, a score of 1 is given when there is noticeable gastric distention that does not affect the surgical procedure, and a score of 2 is given when there is significant gastric distention that affects the surgery, requiring the placement of a gastric tube for decompression. The number of postoperative vomiting episodes is recorded: 0 episodes is scored as 0, 1-2 episodes is scored as 1, and more than 2 episodes is scored as 2. A lower score indicates better esophageal compression effectiveness.
Time frame: Upon the start of surgery, immediately
Rate of esophageal diameter change
Compare the diameter before and after esophageal compression and calculate the percentage change in diameter. After esophageal compression, the diameter of the esophagus should decrease. The percentage change in diameter is usually expressed as a negative value, indicating that the esophagus has constricted after compression. If the percentage change is positive, it suggests that the compression effect is not ideal, and the esophagus may not have been effectively compressed.
Time frame: During anesthesia induction
Esophageal compression pressure
Recording esophageal compression pressure can ensure that the applied pressure is within an effective range, help understand the relationship between compression intensity and ventilation efficacy, and promptly identify potential complications, such as airway compression or esophageal injury caused by excessive pressure, allowing for necessary interventions.
Time frame: During anesthesia induction
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