Postoperative Management of Cerebral Air Embolism: Gas Physiology for Surgeons

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Postoperative Management of Cerebral Air Embolism: Gas Physiology for Surgeons

Eduardo A. Tovar, MD, Carlos Del Campo, MD, Alan Borsari, MD, Robin P. Webb, Ccp, Jeffrey R. Dell, MD, Paul B. Weinstein, MD

Divisions of Cardiovascular Surgery and Cardiology, St. Jude Medical Center, Fullerton, and The University of California, Irvine Medical Center, Orange, California

Cerebral gaseous microemboli are present in most, if not all,cardiopulmonary bypass--assisted operations. Fortunately, thegreat majority are subclinical. Clinically significant casesof cerebral air embolism are largely underdiagnosed, undertreated,and underreported. The management of cerebral air embolism hasbeen challenged due to the lack of prospective, randomized studies.Preventive measures that have been implemented throughout theyears, resulting from empirically acquired knowledge, have avoidedfrequent major mishaps. Perfusion accidents, in which massiveamounts of gas are pumped into patients, are managed intraoperativelyby common-sense heroic measures which, at best, remove 50% ofthe embolized gas. Postoperative confirmation of a neurologicinsult after a cardiopulmonary bypass--assisted operation, inwhich a cerebral air embolism is likely the source, is one ofthe most distressing situations a surgical team has to confront,due in part to the lack of pathognomonic diagnostic tools andto the absence of a ``scientifically proven'' (supported byprospective, randomized studies) therapeutic regimen. In lieuof the latter, we present the physical and physiologic basesthat will justify the use of several therapeutic tools whenfacing a suspected CAE. These tools, when applied rationally,will represent some of the most innocuous modalities in themedical armamentarium.

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