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Does end-tidal carbon dioxide monitoring detect respiratory events prior to current sedation monitoring practices?

by Burton JH, Harrah JD, Germann CA, Dillon DC
Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

Article Abstract:

OBJECTIVES: The value of ventilation monitoring with end-tidal carbon dioxide (ETCO2) to anticipate acute respiratory events during emergency department (ED) procedural sedation and analgesia (PSA) is unclear. The authors sought to determine if ETCO2 monitoring would reveal findings indicating an acute respiratory event earlier than indicated by current monitoring practices. METHODS: The study included a prospective convenience sample of ED patients undergoing PSA. Clinicians performed ED PSA procedures with generally accepted patient monitoring, including oxygen saturation (SpO2), and clinical ventilation assessment. A study investigator recorded ETCO2 levels and respiratory events during each PSA procedure, with clinical providers blinded to ETCO(2) levels. Acute respiratory events were defined as SpO2 < or =92%, increases in the amount of supplemental oxygen provided, use of bag-valve mask or oral/nasal airway for ventilatory assistance, repositioning or airway alignment maneuvers, and use of physical or verbal means to stimulate patients with depressed ventilation or apnea, and reversal agent administration. RESULTS: Enrollment was stopped after independent review of 20 acute respiratory events in 60 patient sedation encounters (33%). Abnormal ETCO2 findings were documented in 36 patients (60%). Seventeen patients (85%) with acute respiratory events demonstrated ETCO2 findings indicative of hypoventilation or apnea during PSA. Abnormal ETCO2 findings were documented before changes in SpO2 or clinically observed hypoventilation in 14 patients (70%) with acute respiratory events. CONCLUSIONS: Abnormal ETCO2 findings were observed with many acute respiratory events. A majority of patients with acute respiratory events had ETCO2 abnormalities that occurred before oxygen desaturation or observed hypoventilation.

Does End-tidal Carbon Dioxide Monitoring Detect Respiratory Events Prior to Current Sedation Monitoring Practices?

By: Anonymous - Mon 6/18/2007 AM

In the growing backlog of articles and journal club presentations Iâ€™d like to write up, I came across this publication which was presented a few months back â€” Does End-tidal Carbon Dioxide Monitoring Detect Respiratory Events Prior to Current Sedation Monitoring Practices? from Burton, Harrah, Germann and Dillon in Academic Emergency Medicine 2006; 13:500-504. My notes on the presentation have long since disappeared (I believe it was given byâ€¦ Tim?) but my interest in the topic was rekindled after a recent M+M.

The authors note that, in the OR, end-tidal monitoring is standard practice, but no EM organizations have advocated its routine use in ED procedural sedation. Thus, the goal of this study was to see if ETCO2 monitoring could detect acute respiratory events before current methods. They used a prospective observational case series with a convenience sample of ED patients undergoing PSA at a 50,000-pt/year ED among consenting patients when investigators were present. Controls got SpO2, RR, HR and BP monitoring, and an investigator not involved with pt care â€œassuredâ€ the quality of waveform data for SpO2 and ETCO2, as well as proper positioning of monitoring equipment, and was the only person present who saw the ETCO2 waveform and numerical CO2 display. Measurements were recorded every 30 seconds, as well as during med administration, observed acute respiratory events, interventions, and return to baseline.

What was a respiratory event? The authors define it as a desat to 92% or less, an increase above 2LNC in administered O2, hypoventilation, or use of bag-valve mask or ventilatory assistance, use of physical or verbal stimulation, or administering reversal meds. Changes in ETCO2 of more than 10 mmHg from baseline, or an intrasedation ETCO2 of less than 30 mmHg or more than 50 mmHg, were considered investigational acute respiratory events.

They planned to enroll 250 patients but, in dramatic fashion, had to stop the study early, after just 59 patients (60 sedations). Abnormal ETCO2 findings (as described above) were found in 36 of the 60 encounters â€” 32 low and five high (yeah, one guy had both low and high).

Of course, 44% of these â€œabnormalâ€ ETCO2 readings were not associated with any adverse respiratory event or intervention. Some were just single, abnormal blips in recordings. But the investigators did log 20 acute respiratory events in their 60 encounters (33%) and 17 of them (85%) were associated with abnormal ETCO2 recordings. Stay with me here â€” of these 17 encounters, 14 (70%) had the abnormal ETCO2 recording before changes in SpO2 or RR.

So, what to make of this? Well, just browse through the tables and see what kind of events weâ€™re talking about. First, 18 of the 20 acute respiratory events occured on propofol, which we canâ€™t use in the ED. Ketamine and Etomidate account for the others, while midazolam was event-free (but they only used it three times). Only four of their twenty acute resp events required bag-valve mask ventilation, and two of those had no warning (ie, the ETCO2 didnâ€™t help predict the event). Most of these abnormalities were low ETCO2, it only went high once (and youâ€™d think low RR and CO2 retention would be a more common finding â€” as seen in previous studies). No one was hyperventilating, either.

In addition to not providing adequate warning in some of their worst acute respiratory events, ETCO2 provided warning 3-4 minutes ahead of some relatively minor events (requiring just some verbal stimulation). Is that really valuable? And donâ€™t forget the fact that 44% of ETCO2 abnormalities were not accompanied by clinically observed respiratory events.

So, while ETCO2 monitoring is certainly becoming more widespread during sedation, I donâ€™t think its advocates can really point to this study as demonstranting its relevance. I think you could argue that this study by Miner et al from Academic Emergency Medicine 2002 Apr;9(4):275-80 made the case for ETCO2 better. But in discussing that Miner study, and others, the 2004 ACEP policy guidelines for procedural sedation have this to say about capnometry:

Theoretically, early detection of hypoventilation with capnometry may be beneficial. However, there is no evidence that this benefit has an impact on patient outcome when used in procedural sedation and analgesia.

If youâ€™re curious about monitoring sedated patients who arenâ€™t undergoing procedural sedation (beause, say, they were agitated) Iâ€™ve only found one study that addressed this â€” itâ€™s from Martel, Miner and Biros and was also printed in Academic Emergency Medicine 2005 Dec;12(12):1167-72. Unfortunately it wasnâ€™t included in the recent ACEP agitation guidelines.

Emcrit.org is uncharacteristicly quiet on the issue of ETCO2 in procedural sedation, concluding itâ€™s safer and summarizing the above paper in one line. But if youâ€™re looking for a hands on guide to the different sedation agents we can give, their dosing and drawbacks, itâ€™s a great source.

Source: http://journal.sinaiem.org/

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