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Crisis management during anaesthesia: hypotension

¹ Director, Research and Development, Sydney Medical Simulation Centre, Royal North Shore Hospital, St Leonards, New South Wales, Australia
² Senior Staff Specialist and Director, Sydney Medical Simulation Centre, Royal North Shore Hospital, St Leonards, New South Wales, Australia
³ Deputy Director, Department of Paediatric Anaesthesia and Pain Management, Royal Children’s Hospital, Parkville, Victoria, Australia
⁴ Senior Staff Specialist, Department of Anaesthesia and Intensive Care, The Townsville Hospital, Douglas, Queensland, Australia

Correspondence to:
Professor W B Runciman
President, Australian Patient Safety Foundation, GPO Box 400, Adelaide, South Australia 5001, Australia; research{at}apsf.net.au Background: Hypotension is commonly encountered in association with anaesthesia and surgery. Uncorrected and sustained it puts the brain, heart, kidneys, and the fetus in pregnancy at risk of permanent or even fatal damage. Its recognition and correction is time critical, especially in patients with pre-existing disease that compromises organ perfusion.

Objectives: To examine the role of a previously described core algorithm "COVER ABCD–A SWIFT CHECK", supplemented by a specific sub-algorithm for hypotension, in the management of hypotension when it occurs in association with anaesthesia.

Methods: Reports of hypotension during anaesthesia were extracted and studied from the first 4000 incidents reported to the Australian Incident Monitoring Study (AIMS). The potential performance of the COVER ABCD algorithm and the sub-algorithm for hypotension was compared with the actual management as reported by the anaesthetist involved.

Results: There were 438 reports that mentioned hypotension, cardiovascular collapse, or cardiac arrest. In 17% of reports more than one cause was attributed and 550 causative events were identified overall. The most common causes identified were drugs (26%), regional anaesthesia (14%), and hypovolaemia (9%). Concomitant changes were reported in heart rate or rhythm in 39% and oxygen saturation or ventilation in 21% of reports. Cardiac arrest was documented in 25% of reports. As hypotension was frequently associated with abnormalities of other vital signs, it could not always be adequately addressed by a single algorithm. The sub-algorithm for hypotension is adequate when hypotension occurs in association with sinus tachycardia. However, when it occurs in association with bradycardia, non-sinus tachycardia, desaturation or signs of anaphylaxis or other problems, the sub-algorithm for hypotension recommends cross referencing to other relevant sub-algorithms. It was considered that, correctly applied, the core algorithm COVER ABCD would have diagnosed 18% of cases and led to resolution in two thirds of these. It was further estimated that completion of this followed by the specific sub-algorithm for hypotension would have led to earlier recognition of the problem and/or better management in 6% of cases compared with actual management reported.

Conclusion: Pattern recognition in most cases enables anaesthetists to determine the cause and manage hypotension. However, an algorithm based approach is likely to improve the management of a small proportion of atypical but potentially life threatening cases. While an algorithm based approach will facilitate crisis management, the frequency of co-existing abnormalities in other vital signs means that all cases of hypotension cannot be dealt with using a single algorithm. Diagnosis, in particular, may potentially be assisted by cross referencing to the specific sub-algorithms for these.

Keywords: hypotension; cardiac arrest; cardiovascular collapse; crisis management; anaesthesia complications

Relevant Article

Crises in clinical care: an approach to management

W B Runciman and A F Merry
Qual. Saf. Health Care 2005 14: 156-163. [Abstract] [Full Text] [PDF]

This article has been cited by other articles:

				W B Runciman, M T Kluger, R W Morris, A D Paix, L M Watterson, and R K Webb Crisis management during anaesthesia: the development of an anaesthetic crisis management manual Qual. Saf. Health Care, June 1, 2005; 14(3): e1 - e1. [Abstract] [Full Text] [PDF]

				L M Watterson, R W Morris, J A Williamson, and R N Westhorpe Crisis management during anaesthesia: tachycardia Qual. Saf. Health Care, June 1, 2005; 14(3): e10 - e10. [Abstract] [Full Text] [PDF]

				J A Myburgh, M J Chapman, S M Szekely, and G A Osborne Crisis management during anaesthesia: sepsis Qual. Saf. Health Care, June 1, 2005; 14(3): e22 - e22. [Abstract] [Full Text] [PDF]

				M T Kluger, S M Szekely, R J Singleton, and S C Helps Crisis management during anaesthesia: water intoxication Qual. Saf. Health Care, June 1, 2005; 14(3): e23 - e23. [Abstract] [Full Text] [PDF]