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01-12-2010 | EM - Original

The role of cranial computed tomography in the immediate post-cardiac arrest period

Authors: Michael N. Cocchi, Jason M. Lucas, Justin Salciccioli, Erin Carney, Susan Herman, Peter Zimetbaum, Michael W. Donnino

Published in: Internal and Emergency Medicine | Issue 6/2010

Abstract

Patients who initially survive cardiac arrest are often admitted to an intensive care unit comatose and on mechanical ventilation. It is not clear whether or not a screening cranial computed tomography (CT scan) is necessary in the immediate post-arrest period. We hypothesized that there may be clinically relevant information gleaned from head CT scans obtained early in the post-arrest period that could affect immediate management of these patients, even when non-neurologic causes of cardiac arrest are suspected. A retrospective data analysis was conducted of all survivors (age >18 years) of non-traumatic out-of-hospital cardiac arrest (OHCA) who underwent non-contrast head CT (NCHCT) within the first 24 h of admission. A total of 84 patients were identified and 51 (60.7%) met the inclusion criteria. As much as 45 (88.2%) patients in the total cohort had an NCHCT negative for ICH or herniation; of this group, 39 (76.5%) had a normal NCHCT, while six (11.8%, 95% CI: 5.1–23.8%) demonstrated varying degrees of cerebral edema or loss of gray–white matter distinction consistent with anoxic brain injury, but without herniation. Six patients (11.8%, 95% CI: 5.1–23.8%) exhibited findings consistent with either an ICH (with or without herniation) or herniation without an ICH. Four (7.8%) of these patients had an ICH without herniation, one had an acute SAH with edema and herniation, and one had frank herniation due to massive cerebral edema. The overall incidence of any kind of intracranial hemorrhage in our cohort was 9.8% (95% CI: 3.8–21.4%). In this cohort of post-cardiac arrest patients who underwent cranial computed tomography, 11.8% of patients had clinically significant abnormalities identified. The exact role of neuroimaging in this population is still in evolution, and further prospective evaluation is warranted.

Rosamond W, Flegal K, Furie K et al (2008) Heart disease and stroke statistics––2008 update: a report from the American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Circulation 117:e25–e146CrossRefPubMed

Berek K, Schinnerl A, Traweger C et al (1997) The prognostic significance of coma-rating, duration of anoxia and cardiopulmonary resuscitation in out-of-hospital cardiac arrest. J Neurol 244:556–561CrossRefPubMed

Nichol G, Thomas E, Callaway CW et al (2008) Regional variation in out-of-hospital cardiac arrest incidence and outcome. JAMA 300:1423–1431CrossRefPubMed

Sasson C, Hegg AJ, Macy M et al (2008) Prehospital termination of resuscitation in cases of refractory out-of-hospital cardiac arrest. JAMA 300:1432–1438CrossRefPubMed

Naples R, Ellison E, Brady WJ (2009) Cranial computed tomography in the resuscitated patient with cardiac arrest. Am J Emerg Med 27:63–67CrossRefPubMed

Inamasu J, Miyatake S, Tomioka H et al (2009) Subarachnoid haemorrhage as a cause of out-of-hospital cardiac arrest: a prospective computed tomography study. Resuscitation 80:977–980CrossRefPubMed

Kurkciyan I, Meron G, Sterz F et al (2001) Spontaneous subarachnoid haemorrhage as a cause of out-of-hospital cardiac arrest. Resuscitation 51:27–32CrossRefPubMed

Kitahara T, Masuda T, Soma K (1993) The etiology of sudden cardiopulmonary arrest in subarachnoid hemorrhage. No Shinkei Geka 21:781–786PubMed

Cummins RO, Chamberlain DA, Abramson NS et al (1991) Recommended guidelines for uniform reporting of data from out-of-hospital cardiac arrest: the Utstein Style. A statement for health professionals from a task force of the American Heart Association, the European Resuscitation Council, the Heart and Stroke Foundation of Canada, and the Australian Resuscitation Council. Circulation 84:960–975PubMed

10.

Langhelle A, Nolan J, Herlitz J et al (2005) Recommended guidelines for reviewing, reporting, and conducting research on post-resuscitation care: the Utstein style. Resuscitation 66:271–283CrossRefPubMed

11.

Kuisma M, Alaspaa A (1997) Out-of-hospital cardiac arrests of non-cardiac origin. Epidemiology and outcome. Eur Heart J 18:1122–1128PubMed

12.

Inamasu J, Miyatake S, Tomioka H et al (2009) Headache, cardiac arrest, and intracranial hemorrhage. J Headache Pain 10:357–360CrossRefPubMed

13.

Morimoto Y, Kemmotsu O, Kitami K et al (1993) Acute brain swelling after out-of-hospital cardiac arrest: pathogenesis and outcome. Crit Care Med 21:104–110CrossRefPubMed

14.

Yanagawa Y, Un-no Y, Sakamoto T et al (2005) Cerebral density on CT immediately after a successful resuscitation of cardiopulmonary arrest correlates with outcome. Resuscitation 64:97–101CrossRefPubMed

15.

Torbey MT, Selim M, Knorr J et al (2000) Quantitative analysis of the loss of distinction between gray and white matter in comatose patients after cardiac arrest. Stroke 31:2163–2167PubMed

16.

Choi SP, Park HK, Park KN et al (2008) The density ratio of grey to white matter on computed tomography as an early predictor of vegetative state or death after cardiac arrest. Emerg Med J 25:666–669CrossRefPubMed

17.

Torbey MT, Geocadin R, Bhardwaj A (2004) Brain arrest neurological outcome scale (BrANOS): predicting mortality and severe disability following cardiac arrest. Resuscitation 63:55–63CrossRefPubMed

18.

Puttgen HA, Geocadin R (2007) Predicting neurological outcome following cardiac arrest. J Neurol Sci 261:108–117CrossRefPubMed

Title: The role of cranial computed tomography in the immediate post-cardiac arrest period
Authors: Michael N. Cocchi
Jason M. Lucas
Justin Salciccioli
Erin Carney
Susan Herman
Peter Zimetbaum
Michael W. Donnino
Publication date: 01-12-2010
Publisher: Springer Milan
Published in: Internal and Emergency Medicine / Issue 6/2010
Print ISSN: 1828-0447
Electronic ISSN: 1970-9366
DOI: https://doi.org/10.1007/s11739-010-0403-8

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