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Clinical Trial Summary

This study will provide capnography monitoring during routine upper endoscopy and colonoscopy with moderate sedation in order to see if it improves safety.


Clinical Trial Description

The majority of gastrointestinal endoscopic procedures currently performed in the United States are done under moderate sedation, primarily utilizing the combination of an opioid and benzodiazepine. The endoscopy team administers the medications, most commonly the endoscopy nursing team at the discretion of the endoscopist, with careful cardiopulmonary monitoring during the procedure. The use of sedation can lead to serious unplanned adverse events. Cardiopulmonary events related to the use of sedation in GI endoscopy include hypotension, hypoxia, and hypopnea/apnea. The most common of these adverse events is hypoxia, which can occur in 10-70% of patients. Although most of these events are transient and respond to supplemental oxygenation, studies have shown electrocardiographic signs of cardiac ischemia in patients with no known preexisting heart disease. Pulse oximetry can help detect hypoxia related to perfusion deficits (cardiac) or ventilation factors (respiratory) however, it is not designed to detect ventilator precursors of alveolar hypoventilation, which primarily present as decreased respiratory rate or hypopnea/apnea.

Capnography utilizes the near-infrared spectrophotometric absorption spectrum of carbon dioxide (CO2) at 420 nm to provide graphic assessment of the ventilation status via the partial pressure of carbon dioxide during the respiratory cycle. Previous studies have shown it to improve safety by detecting early indicators of hypoxia and/or signs of alveolar hypoventilation. Studies have shown that when targeting deep sedation in advanced endoscopic procedures utilizing capnography was superior to pulse oximetry alone in detecting respiratory depression. There is also evidence that shows utilizing capnography in advanced endoscopic procedures significantly decreased the incidence of hypoxia versus standard monitoring with the procedural team blinded to the capnographic data (132 blinded vs. 49 open, P<.001) and rates of hypoxia (69% blinded vs. 46% open, P<.001) were significantly lower with capnography monitoring.

Routine esophagogastroduodenoscopy (EGD) and colonoscopy with moderate sedation is safe with rates of sedation associated adverse events occurring in 8 per 100,000 cases. Lightdale and colleagues showed in a prospective, double blinded randomized controlled trial in a pediatric population undergoing routine EGD or colonoscopy targeting moderate sedation with opioid-benzodiazepine combinations that patients in the intervention capnography arm were less likely (4% vs. 20%, P<.03) to have an intra-procedural episodes of hypoxia (defined as SpO2<95% for >5sec). No adverse events related to episodes of hypoxia were reported in this trial, but it was underpowered to evaluate this outcome. To our knowledge, there is no data on use of capnography in adult patients undergoing EGD and colonoscopy targeting moderate sedation with the combination of an opioid and benzodiazepine.

The American Society of Anesthesiology (ASA) has recently updated their standards for basic anesthetic monitoring to now state that during moderate sedation all patients should have capnographic monitoring. This was updated from the previous standards for basic monitoring that stated capnography could be used during these levels of sedation. This is a significant change in the practice model for monitoring patients undergoing routine endoscopy with moderate sedation and, as the standards for basic monitoring are often used as a basis for regulatory guidelines applied to hospital or ambulatory care centers, the addition of requiring capnographic monitoring changes the landscape of procedural sedation for gastrointestinal endoscopy across the United States. The evidence cited for this update in monitoring guidelines included the Lightdale pediatric endoscopy study and our groups study that utilized capnography in advanced endoscopic procedures. There was no data available in adult patients undergoing routine EGD or colonoscopy at the time of the updated guidelines. The extrapolation of advanced endoscopic procedures to routine endoscopy is of limited use as the procedures are targeting different levels of sedation (deep vs. moderate, respectively) and the length of the procedures is significantly different.

The rationale for not using capnography in moderate sedation arises from its ability to lead to false alarms, such as pseudo-apnea secondary to swallowing or failure to monitor both the oral and nasal airways for respiratory activity, as some patients will transition to nasal or mouth breathing during sedation. These alarms during a procedure may lead to interruption, delay, or early termination. Increased costs for capnography equipment and having appropriately trained endoscopy team members to interpret capnography results will be difficult to accomplish with no patient data supporting the effectiveness of its use in routine EGD and colonoscopy. ;


Study Design

Allocation: Randomized, Endpoint Classification: Safety Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver)


Related Conditions & MeSH terms


NCT number NCT01994785
Study type Interventional
Source The Cleveland Clinic
Contact Paresh P Mehta, MD
Phone 2164442200
Email mehtap2@ccf.org
Status Recruiting
Phase N/A
Start date November 2013

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