Abstract
BackgroundEarly signs of ischaemic stroke on computerised tomography (CT) scanning are subtle but CT is the most widely available diagnostic test for stroke. Scoring methods that code for the extent of brain ischaemia may improve stroke diagnosis and quantification of the impact of ischaemia.Methodology and Principal FindingsWe showed CT scans from patients with acute ischaemic stroke (n = 32, with different patient characteristics and ischaemia signs) to doctors in stroke-related specialties world-wide over the web. CT scans were shown twice, randomly and blindly. Observers entered their scan readings, including early ischaemic signs by three scoring methods, into the web database. We compared observers' scorings to a reference standard neuroradiologist using area under receiver operator characteristic curve (AUC) analysis, Cronbach's alpha and logistic regression to determine the effect of scales, patient, scan and observer variables on detection of early ischaemic changes. Amongst 258 readers representing 33 nationalities and six specialties, the AUCs comparing readers with the reference standard detection of ischaemic signs were similar for all scales and both occasions. Being a neuroradiologist, slower scan reading, more pronounced ischaemic signs and later time to CT all improved detection of early ischaemic signs and agreement on the rating scales. Scan quality, stroke severity and number of years of training did not affect agreement.ConclusionsLarge-scale observer reliability studies are possible using web-based tools and inform routine practice. Slower scan reading and use of CT infarct rating scales improve detection of acute ischaemic signs and should be encouraged to improve stroke diagnosis.
Highlights
Computerised tomography (CT) brain scanning is widely available.[1,2] It is quick and can be used in virtually all patients so is the main brain imaging method in patients with acute stroke
The plain computerised tomography (CT) brain scan is not well appreciated in stroke because early CT changes associated with brain ischaemia are subtle
Arterial occlusion leading to ischaemic brain tissue damage is associated with a net uptake of water,[3,4] that can be detected with CT as tissue hypoattenuation.[5]
Summary
Computerised tomography (CT) brain scanning is widely available.[1,2] It is quick and can be used in virtually all patients so is the main brain imaging method in patients with acute stroke. The plain CT brain scan is not well appreciated in stroke because early CT changes associated with brain ischaemia are subtle. Arterial occlusion leading to ischaemic brain tissue damage is associated with a net uptake of water (ionic oedema),[3,4] that can be detected with CT as tissue hypoattenuation.[5] In acute ischaemic stroke, ionic oedema may be present or not depending on the degree and duration of ischaemia. Signs of ischaemic stroke on computerised tomography (CT) scanning are subtle but CT is the most widely available diagnostic test for stroke. Scoring methods that code for the extent of brain ischaemia may improve stroke diagnosis and quantification of the impact of ischaemia
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