Should Spectrophotometry Be Used to Identify Xanthochromia in the Cerebrospinal Fluid of Alert Patients Suspected of Having Subarachnoid Hemorrhage?

doi:10.1161/01.STR.0000240689.15109.47

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Stroke. 2006;37:2467-2472
Published online before print August 31, 2006, doi: 10.1161/01.STR.0000240689.15109.47

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(Stroke. 2006;37:2467.)
© 2006 American Heart Association, Inc.

Original Contributions

Should Spectrophotometry Be Used to Identify Xanthochromia in the Cerebrospinal Fluid of Alert Patients Suspected of Having Subarachnoid Hemorrhage?

Jeffrey J. Perry, MD, MSc; Marco L.A. Sivilotti, MD, MSc; Ian G. Stiell, MD, MSc; George A. Wells, PhD; Jenny Raymond, PhD; Melodie Mortensen, BScRN Cheryl Symington, RN, ENCc

From the Department of Emergency Medicine (J.J.P., I.G.S., M.M., C.S.), University of Ottawa, ON, Canada; the Departments of Emergency Medicine and of Pharmacology & Toxicology (M.L.A.S.), Queen’s University, Kingston, ON, Canada; the Department of Epidemiology and Community Medicine (G.A.W.), University of Ottawa, ON, Canada; the Department of Pathology and Molecular Medicine (J.R.), Queen’s University, Kingston, ON, Canada; and the Department of Emergency Medicine, University of Ottawa, ON, Canada.

Correspondence to Jeffrey J. Perry, The Ottawa Hospital, 1053 Carling Ave, F6 Ottawa, ON, Canada K1Y4E9. E-mail jperry{at}ohri.ca

Background and Purpose— The absence of xanthochromia inthe cerebrospinal fluid (CSF) is often used to exclude subarachnoidhemorrhage (SAH). Authorities advocate spectrophotometry tomeasure xanthochromia, but most North American hospitals usevisual inspection. We studied the diagnostic accuracy of spectrophotometryfor SAH, and its potential impact on current practice.

Methods— This was a prospective cohort study comparingthe diagnostic accuracy of tests. The study was set in 3 university-affiliatedtertiary care emergency departments. We enrolled consecutiveneurologically intact adults with nontraumatic headache undergoinglumbar puncture (LP) to rule out SAH. CSF was centrifuged, frozenand analyzed later in batch. SAH was defined by (1) subarachnoidblood on CT, (2) >5x10⁶ red blood cells/L in the final CSFtube and positive angiography, or (3) visible xanthochromiain CSF and positive angiography. All subjects lacking a normalCT and LP were telephoned at 30 days.

Results— We enrolled 220 patients (mean age 42±16years; CT rate 87.7%; angiography rate 5.9%). Two SAHs wereidentified: 1 with red blood cells without xanthochromia inthe CSF and 1 with visibly xanthochromic CSF. The specificityof xanthochromia was 97% (95% CI: 92% to 99%) for visual inspection,but as low as 29% (95% CI: 23% to 35%) for 2 of the spectrophotometricdefinitions. Introducing spectrophotometry could lead to angiographyin as many as 11% to 71% of patients undergoing LP.

Conclusions— Spectrophotometric definitions of xanthochromiahave only moderate to low specificity for SAH. Using spectrophotometrycould increase angiography rates, thereby identifying more incidentalaneurysms, increasing patient anxiety and exposing patientsto unnecessary surgical or investigational complications withoutbenefit.

Key Words: cerebrospinal fluid • spectrophotometry • subarachnoid hemorrhage

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