Endoscopic retrograde cholangiopancreatography (ERCP) is an imaging procedure that visualizes the drainage ducts of the pancreas, gallbladder, and liver through the use of a duodenoscope and contrast media. By endoscopically identifying the ampulla of Vater, the common bile duct is cannulated. ERCP is also frequently utilized for therapeutic interventions, such as endoscopic sphincterotomy, bile duct stone extraction, stent placement in malignant and benign biliary strictures, and biopsy collection, thus playing a critical role in both the diagnosis and treatment of pancreatobiliary disorders. ERCP, being more invasive than routine upper endoscopies or colonoscopies, typically necessitates deeper levels of sedation. The procedure is performed in the prone, modified prone, or lateral decubitus position, which increases the risk of hypoxemia and hypoventilation due to upper airway obstruction. Furthermore, endoscopic instruments inserted through the oral cavity limit anesthesiologists' access to the patient's airway, thereby restricting ventilation support during gastrointestinal endoscopy. Ensuring airway stability during sedation is paramount for patient safety and procedural efficacy. Currently, a range of devices, including traditional nasal cannulas, high-flow oxygen masks, and procedural oxygen masks, are employed to provide oxygen support throughout the procedure. The existing literature includes randomized controlled trials and systematic reviews aimed at preventing hypoxemia during ERCP. Through this study, investigators aim to make a novel contribution to the literature by assessing the effectiveness of a recently introduced procedural oxygen mask.
This study aims to compare the efficacy of two oxygen delivery methods-High-Flow Nasal Cannula (HFNC) and Procedural Oxygen Mask (POM)-in preventing hypoxemia during Endoscopic Retrograde Cholangiopancreatography (ERCP). Designed as a randomized, parallel-group, prospective study, participants were assigned to two groups, Group H (HFNC) and Group P (POM), in a 1:1 ratio using computer-assisted random allocation. However, due to the visible differences between the oxygen delivery devices, neither healthcare providers nor patients could be blinded to the randomization. The study was planned to include 134 patients (67 per group) with a 95% confidence level (1-α) and 90% test power (1-β). To account for an anticipated 10% dropout rate, the total sample size was set at 150 patients. Throughout the ERCP procedure, all patients will be monitored using pulse oximetry, electrocardiography (ECG), and non-invasive blood pressure monitoring. Capnography will be applied in both groups, and necessary interventions will be carried out by anesthesia specialists if a patient's oxygen saturation falls below 90%. All interventions and events will be meticulously documented. Following the procedure, patients will be monitored in the post-anesthesia care unit (PACU), and those with a Modifiye Alderete score of 10 will be discharged. The FiO2 will be maintained constant throughout the procedure. Patients will initially receive midazolam at a dose of 0.02 mg/kg, followed by 0.5 mg/kg of ketamine. To ensure adequate sedation, propofol will be administered as an initial bolus dose of 0.5-1.0 mg/kg, with additional boluses of 0.25-0.5 mg/kg every 1-3 minutes as needed to maintain the target sedation level. The target sedation depth will be 3-4 on the Ramsay Sedation Scale (RSS), and this level will be maintained throughout the procedure. Upon completion, patients will be awakened using verbal and tactile stimuli. Once their RSS reaches 2, they will be transferred to the Post-Anesthesia Care Unit (PACU). Patients will be discharged from the PACU upon achieving a Modified Aldrete Score (MAS) of 10. Vital signs, procedure durations, and dosages of medications used for each patient will be meticulously recorded. All anesthesia-related decisions during the procedure will be made by the supervising anesthesia specialist.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
150
Procedural Oxygen Mask will be used
High-Flow Nasal Cannula (HFNC) will be used.
Kocaeli City Hospital
Kocaeli, İ̇zmi̇t, Turkey (Türkiye)
incidence of hypoxemia
The incidence of hypoxemia during sedation (defined as SpO2 \< 90%). SpO₂ will be continuously measured using a pulse oximeter (GE Healthcare) to monitor and record oxygen saturation levels throughout sedation.
Time frame: Continuous SpO2 monitoring will be performed throughout the ERCP procedure
Number of hypoxemia episodes
An episode was recorded when SpO2 dropped below 90% after reaching a level of SpO2 ≥ 90% for 30 seconds. SpO₂ will be continuously measured using a pulse oximeter (GE Healthcare) to monitor and record oxygen saturation levels throughout sedation.
Time frame: Continuous SpO2 monitoring will be performed throughout the ERCP procedure
Duration of hypoxemia
Defined as the time taken to reach SpO2 ≥ 90%. SpO₂ will be continuously measured using a pulse oximeter (GE Healthcare) to monitor and record oxygen saturation levels throughout sedation.
Time frame: Continuous SpO2 monitoring will be performed throughout the ERCP procedure
Continuous SpO2 monitoring will be performed throughout the ERCP procedure
Minimum SpO2 value observed during the procedure. SpO₂ will be continuously measured using a pulse oximeter (GE Healthcare) to monitor and record oxygen saturation levels throughout sedation.
Time frame: Continuous SpO2 monitoring will be performed throughout the ERCP procedure
Frequency of Chin Lift Maneuver
This outcome measure will assess the frequency of the chin lift maneuver performed during the procedure due to hypoxemia
Time frame: Interventions related to airway management causing interruptions during the procedure
Frequency of Jaw Thrust Maneuver
This outcome measure will assess the frequency of the Jaw Thrust maneuver performed during the procedure due to hypoxemia
Time frame: Interventions related to airway management causing interruptions during the procedure
Frequency of Mask Ventilation
This outcome measure will assess the frequency of the Mask Ventilation performed during the procedure due to hypoxemia
Time frame: Interventions related to airway management causing interruptions during the procedure
Frequency of Need for Aspiration
This outcome measure will assess the frequency of need for aspiration performed during the procedure due to hypoxemia
Time frame: Interventions related to airway management causing interruptions during the procedure
Frequency of High-Flow Nasal Cannula or Procedural Oxygen Mask (POM) Repositioning
This outcome measure will assess the frequency of Frequency of High-Flow Nasal Cannula or Procedural Oxygen Mask (POM) Repositioning during the procedure due to hypoxemia
Time frame: Interventions related to airway management causing interruptions during the procedure
Other potential complications
Other potential complications that may arise during the procedure (hypotension, hypertension, bradycardia, tachycardia, movements that hinder the procedure) (Hypotension is defined as a decrease in the patient's baseline systolic blood pressure of more than 20% or a drop below 90 mm Hg. Hypertension is defined as an increase in the patient's baseline systolic blood pressure of more than 20%. A heart rate below 60 beats per minute is considered bradycardia, while a rate above 100 beats per minute is classified as tachycardia)
Time frame: during the procedure
Gastroenterologist satisfaction
a 10-point scoring system was used, where 0 indicates "unmanageable, numerous interruptions or terminated procedure," and 10 indicates "excellent sedation, no interruptions"
Time frame: with data reported immediately following the completion of the procedure
Patient satisfaction related to anesthesia
Patient satisfaction related to anesthesia was assessed and recorded before discharge (a scale from 0 to 10 was used, where 0 means "very poor, I would never undergo this procedure again," and 10 means "excellent, I would undergo this procedure again in the same manner
Time frame: Data will be recorded until discharge from the PACU, which is expected to occur within up to 2 hours after the procedure
Dry mouth/nose/throat:
Before discharge, patients in the Post-Anesthesia Care Unit (PACU) will be assessed for dry mouth, nose, and throat
Time frame: Data will be recorded until discharge from the PACU, which is expected to occur within up to 2 hours after the procedure
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