Citation

Goldhaber-Fiebert SN, Pollock J, Howard SK, Bereknyei Merrell S. Anesth. Analg. 2016; 123(3): 641-649.

Affiliation

From the *Department of Anesthesiology, Perioperative and Pain Medicine, Stanford University School of Medicine, Stanford, California; †Anesthesiology and Perioperative Care Service, VA Palo Alto Health Care System, Palo Alto, California; and ‡Department of Medicine, Stanford University School of Medicine, Stanford, California.

Copyright

(Copyright © 2016, International Anesthesia Research Society, Publisher Lippincott Williams and Wilkins)

DOI

10.1213/ANE.0000000000001445

PMID

27541721

Abstract

BACKGROUND: Emergency manuals (EMs), context-relevant sets of cognitive aids or crisis checklists, have been used in high-hazard industries for decades, although this is a nascent field in health care. In the fall of 2012, Stanford clinically implemented EMs, including hanging physical copies in all Stanford operating rooms (ORs) and training OR clinicians on the use of, and rationale for, EMs. Although simulation studies have shown the effectiveness of EMs and similar tools when used by OR teams during crises, there are little data on clinical implementations and uses. In a subset of clinical users (ie, anesthesia residents), the objectives of this pilot study were to (1) assess perspectives on local OR safety culture regarding cognitive aid use before and after a systematic clinical implementation of EMs, although in the context of long-standing resident simulation trainings; and (2) to describe early clinical uses of EMs during critical events.

METHODS: Surveys collecting both quantitative and qualitative data were used to assess clinical adoption of EMs in the OR. A pre-implementation survey was e-mailed to Stanford anesthesia residents in mid-2011, followed by a post-implementation survey to a new cohort of residents in early 2014. The post-implementation survey included pre-implementation survey questions for exploratory comparison and additional questions for mixed-methods descriptive analyses regarding EM implementation, training, and clinical use during critical events since implementation.

RESULTS: Response rates were similar for the pre- and post-implementation surveys, 52% and 57%, respectively. Comparing post- versus pre-implementation surveys in this pilot study, more residents: agreed or strongly agreed "the culture in the ORs where I work supports consulting a cognitive aid when appropriate" (73.8%, n = 31 vs 52.9%, n = 18, P =.0017) and chose more types of anesthesia professionals that "should use cognitive aids in some way," including fully trained anesthesiologists (z = -2.151, P =.0315). Fifteen months after clinical implementation of EMs, 19 respondents (45%) had used an EM during an actual critical event and 15 (78.9% of these) agreed or strongly agreed "the EM helped the team deliver better care to the patient" during that event, with the rest neutral. We present qualitative data for 16 of the 19 EM clinical use reports from free-text responses within the following domains: (1) triggering EM use, (2) reader role, (3) diagnosis and treatment, (4) patient care impact, and (5) barriers to EM use.

CONCLUSIONS: Since Stanford's clinical implementation of EMs in 2012, many residents' self-report successful use of EMs during clinical critical events. Although these reports all come from a pilot study at a single institution, they serve as an early proof of concept for feasibility of clinical EM implementation and use. Larger, mixed-methods studies will be needed to better understand emerging facilitators and barriers and to determine generalizability.

Language: en