Abstract
BACKGROUND: Delayed mechanical ventilation monitoring may impede recognition of life-threatening acidemia. Coordination of multidisciplinary processes can be improved by using a checklist and time-out procedure. The study objective was to evaluate process-related outcomes after implementation of a post-intubation checklist and time out.
METHODS: An observational study of a 24-bed medical ICU in Philadelphia, Pennsylvania, was conducted from January to December 2011. A random sample of mechanically ventilated adults was selected from the pre-intervention (n = 80) and post-intervention (n = 144) periods. The primary outcome was the proportion of subjects with an arterial blood gas (ABG) result within 60 min of mechanical ventilation initiation. Secondary outcomes included rates of respiratory acidosis, moderate-severe acidemia (pH <7.25), checklist initiation, and project sustainability. Chi-square analysis was used to evaluate differences in outcomes between time periods.
RESULTS: After the intervention, the proportion of subjects with an ABG result within 60 min increased (56% vs 37%, P = .01), and time to ABG result improved (58 min vs 79 min, P = .004). Adjusting for illness severity, the proportion with an ABG result within 60 min remained significantly higher in the post-intervention period (odds ratio 2.42, 95% CI 1.25–4.68, P = .009). Checklist adherence was higher with ICU intubations than for intubations performed outside the ICU (71% vs 27% checklist initiation rate, P < .001). Transfer from referring institutions (23% checklist initiation rate, P = .006) negatively impacted checklist use. Implementation challenges included frequent stakeholder turnover, undefined process ownership, and lack of real-time performance feedback.
CONCLUSIONS: A post-intubation checklist and time out improved the timeliness of mechanical ventilation monitoring through more rapid assessment of arterial blood gases. Implementing this peri-intubation procedure may reduce the risks associated with transitioning to full mechanical ventilatory support. Optimal implementation necessitates strategies to surmount organizational and behavioral barriers to change.
Footnotes
- Correspondence: Ryan A McConnell MD, University of California, San Francisco, Division of Gastroenterology, 513 Parnassus Avenue, S-357, San Francisco, CA 94143. E-mail: ryan.mcconnell{at}ucsf.edu.
The authors have disclosed no conflicts of interest.
Dr McConnell presented preliminary data as a poster at the American College of Physicians National Meeting, held April 19–21, 2012, in New Orleans, Louisiana.
Supplementary material related to this paper is available at http://www.rcjournal.com.
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