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Clinical Trial Summary

This prospective, controlled and randomized study aims at comparing the effect of position on the oxygen reserve index alarm time which is considered as predictor of hypoxemia in prolonged apnea which might be faced during general anesthesia (GA) in several situations such as the time from induction of anesthesia till endotracheal intubation. participants will be divided into two groups; supine (n=38) and sitting group (n=38) both group will undergo elective procedures under GA and endotracheal intubation


Clinical Trial Description

Introduction Pre oxygenation with high fraction of inspired oxygen is not only recommended before anesthesia induction and intubation but also to delay apnea induced hypoxemia in a variety of airway management and patients with limited oxygen reserve. As well as, to prolong the duration of apneic oxygenation in some airway interventions. Several methods have been used to improve the efficiency of pre oxygenation with controversial outcome. One of these methods is the performance of pre oxygenation in head up position. During anesthetic management, pulse oximeter has been considered as valuable noninvasive tool for monitoring of patient oxygen saturation (SpO2%). However, the relationship between the oxygen saturation (SpO2%) and the arterial partial pressure of oxygen (PaO2) restricts the pulse oximeter monitoring of patient oxygenation due to the sigmoidal pattern of this relation, as small changes only in SpO2% occur with increase in arterial oxygen tension above 80 mmHg., Therefore, when oxygen is provided, SpO2 remains 100% over a wide range of PaO2 (>80 mmHg) So It does not reflect the degree of hyperoxia during oxygen supplementation. On the other hand, when PaO2 is falling, the SpO2 may remain 100% until the PaO2 falls below approximately 80 mm Hg. Thus, it does not predict the onset of hypoxia in an apneic patient. Oxygen reserve index (ORI) is a non-invasive real time non-unit scale between 0.00 and 1.00, which reflects the level of venous blood oxygen saturation (SvO2). When the patient is breathing room air ORI is 0.00, With oxygen supplementation, after SpO2 reaches its plateau of 100%, SvO2 continues rising as PaO2 increasing, and at PaO2 200mmHg usually ORI reaches a plateau. Hence ORI will serve to indicate PaO2 trends (rising or falling) in the range of 100-200 mmHg), so it will reflect the range of moderate hyperoxia (PaO2 ranging from 100 to 200 mmHg) during oxygen supply and, on the other hand, it will predict impending desaturation ahead of standard pulse oximetry during safe prolonged apnea technique in surgical patients at high risk. Our study aims at assessment of the effect of pre oxygenation in sitting position on the ORI warning time for impending de-saturation during safe prolonged apnea techniques. Methodology After approval of Institution Review Board and obtaining written informed consent from all participants, this prospective randomized controlled study will be conducted at King Fahd University hospital. Written, informed consent will be obtained from 56 illegible participants scheduled for elective surgery with planned general anesthesia with endotracheal intubation and invasive blood pressure monitoring (arterial line). According to the head position during pre-oxygenation, participants will be randomly allocated via a computer-generated sequence into two groups; supine group (flat head position- n=28) and sitting group (90 degree head up position- n=28). In the operation room standard monitoring will be applied. ORI sensor (Masimo RD lite) will be attached to the participant finger. After recording the baseline vital signs, pre oxygenation in the three groups will be started by asking participants to spontaneously breath 100% oxygen via a well fitted face mask for 3 minutes, with rising of end-tidal fraction of oxygen (EtO2) to at least 0.9 and/or ORI to a plateau value. Rapid sequence induction and intubation using fentanyl, propofol, and succinylcholine will be performed with the aid of video assisted laryngoscope. The appropriate position of the endotracheal tube will be confirmed with direct vision and, will be disconnected from the breathing circuit (to prevent oxygenation while the patient is apneic) and exposed to the room air until SpO2 decreased to 94% then tube will be connected to the breathing circuit. Thereafter ventilator setting and anesthetic management will be according to the decision of the anesthesiologist assigned for patient care at this operative theater. ORI, SpO2 and PaO2 data were measured at four specific times (1) baseline (2) at the end of pre-oxygenation (3) at ORI alarm (4) when SpO2 reached 94%. The participant will be excluded from the study if he has failed pre oxygenation (EtO2 < 0.9 and/or ORI does not reach a plateau value after 3 min. pre oxygenation. Statistical analysis If the difference between the mean ORI alarm time in the sitting group and the supine group is assumed to be 25 seconds, and a pooled standard deviation of 33 seconds., 28 participants in each group with a total of 56 participant would be an appropriate sample size to provide a significance of 5% and a power of 80%. Data that will be normally distributed will be compared using t-test. Whereas Mann-Whitney test will be used to compare data with abnormal distribution. Fisher's exact test or Chi square test will be used to compare categorical data or gender ratio. Probability (p-value) less than 0.05 will be considered statistically significant. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05964309
Study type Interventional
Source Imam Abdulrahman Bin Faisal University
Contact Roshdi M Almetwalli, MD
Phone 009660138966666
Email rmetwalli@iau.edu.sa
Status Not yet recruiting
Phase N/A
Start date September 2023
Completion date November 2024

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