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Objectives: In this study we define the probability of vascular abnormality in the middle cerebral artery (MCA) territory according to the extent of ischaemic change seen using computed tomography (CT). We assessed the sensitivity and spe cificity of the hyperdense middle cerebral artery (HMCA) and the “dot”sign usi ng magnetic resonance angiography (MRA). Methods: Patients presenting with ischa emic stroke had a CT scan ( < 6h)prior to MRI (< 7 h). A quantitative CT scoring system (ASPECTS) was applied to CT and diffusion weighted images (DWI) at basel ine and follow up (24 h) by five independent observers. The presence of HMCA and the MCA “dot” sign was also evaluated. An expert reader assessed the 3D time of flight (TOF) MRA in the anterior circulation for areas of decreased vascular si gnal in the MCA territory, with an absent signal taken to represent severely red uced or absent flow. Results: A total of 100 consecutive patients had baseline C T and MR scans. The median NIHSS was 9. The median CT ASPECTS was 8 and equalled the median DWI ASPECTS. There were a total of 10 HMCA and 19 MCA “dot”signs, with four patients having both HMCA and “dot”signs. A total of 47 MRA flow sig nal abnormalities were observed in the anterior circulation. Conclusions: In the absence of accessible neurovascular imaging, the extent of CT ischaemia (ASPECT S) is a strong predictor of vascular occlusion. The CT hyperdense artery signs h ave a high positive predictive value but low negative predictive value.
Objectives: In this study we define the probability of vascular abnormality in the middle cerebral artery (MCA) territory according to the extent of ischaemic change seen seen using computed tomography (CT). We assessed the sensitivity and spe cificity of the hyperdense middle cerebral artery HMCA) and the “dot” sign usi ng magnetic resonance angiography (MRA). Methods: Patients presenting with is emic stroke had a CT scan (<6h) prior to MRI (<7 h) was applied to CT and diffusion weighted images (DWI) at basel ine and follow up (24 h) by five independent observers. The presence of HMCA and the MCA “dot” sign was also evaluated. An expert reader assessed the 3D time of flight (TOF) MRA in the anterior circulation for areas of decreased vascular si gnal in the MCA territory, with an absent signal taken to represent severely red or absent flow. Results: A total of 100 consecutive patients had baseline CT and MR scans The median NIHS S was 9. The median CT ASPECTS was 8 and equalized the median DWI ASPECTS. There were a total of 10 HMCA and 19 MCA “dot” signs, with four patients having both HMCA and “dot” signs. A total of 47 MRA flow Conclusions: In the absence of accessible neurovascular imaging, the extent of CT ischaemia (ASPECT S) is a strong predictor of vascular occlusion. The CT hyperdense artery signs h ave a high positive predictive value but low negative predictive value.