Brain CT Perfusion Improves Intracranial Vessel Occlusion Detection on CT Angiography

Overview

Journal J Neuroradiol

Specialties Neurology
Radiology

Date 2018 Apr 7

PMID 29625153

Citations 32

Authors

Marinus J Becks

Rashindra Manniesing

Jeroen Vister

Sjoert A H Pegge

Stefan C A Steens

Ewoud J van Dijk

Mathias Prokop

Frederick J A Meijer

Affiliations

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Abstract

Background And Purpose: To evaluate whether brain CT perfusion (CTP) aids in the detection of intracranial vessel occlusion on CT angiography (CTA) in acute ischemic stroke.

Materials And Methods: Medical-ethical committee approval of our hospital was obtained and informed consent was waived. Patients suspected of acute ischemic stroke who underwent non-contrast CT(NCCT), CTA and whole-brain CTP in our center in the year 2015 were included. Three observers with different levels of experience evaluated the imaging data of 110 patients for the presence or absence of intracranial arterial vessel occlusion with two strategies. In the first strategy, only NCCT and CTA were available. In the second strategy, CTP maps were provided in addition to NCCT and CTA. Receiver-operating-characteristic (ROC) analysis was used for the evaluation of diagnostic accuracy.

Results: Overall, a brain perfusion deficit was scored present in 87-89% of the patients with an intracranial vessel occlusion, more frequently observed in the anterior than in the posterior circulation. Performance of intracranial vessel occlusion detection on CTA was significantly improved with the availability of CTP maps as compared to the first strategy (P=0.023), due to improved detection of distal and posterior circulation vessel occlusions (P-values of 0.032 and 0.003 respectively). No added value of CTP was found for intracranial proximal vessel occlusion detection, with already high accuracy based on NCCT and CTA alone.

Conclusion: The performance of intracranial vessel occlusion detection on CTA was improved with the availability of brain CT perfusion maps due to the improved detection of distal and posterior circulation vessel occlusions.

Citing Articles

Perfusion patterns as a tool for emergency stroke diagnosis: differentiating proximal and distal MCA occlusions.

Velasco Gonzalez A, Jingyu L, Buerke B, Gorlich D, Ortega-Quintanilla J, Sauerland C BMJ Neurol Open. 2025; 7(1):e001001.

PMID: 40034652 PMC: 11873334. DOI: 10.1136/bmjno-2024-001001.

Utility of automated CT perfusion software in acute ischemic stroke with large and medium vessel occlusion.

Ashayeri Ahmadabad R, Tran K, Zhang Y, Kate M, Mishra S, Buck B Ann Clin Transl Neurol. 2024; 11(11):2967-2976.

PMID: 39375881 PMC: 11572736. DOI: 10.1002/acn3.52207.

Distal Medium Vessel Occlusion Strokes: Understanding the Present and Paving the Way for a Better Future.

Nogueira R, Doheim M, Al-Bayati A, Lee J, Haussen D, Mohammaden M J Stroke. 2024; 26(2):190-202.

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Flat-panel Detector Perfusion Imaging and Conventional Multidetector Perfusion Imaging in Patients with Acute Ischemic Stroke : A Comparative Study.

Serrallach B, Mujanovic A, Ntoulias N, Manhart M, Branca M, Brehm A Clin Neuroradiol. 2024; 34(3):625-635.

PMID: 38526586 PMC: 11339100. DOI: 10.1007/s00062-024-01401-7.

Impact of temporal resolution on perfusion metrics, therapy decision, and radiation dose reduction in brain CT perfusion in patients with suspected stroke.

Rau A, Reisert M, Stein T, Mueller-Peltzer K, Rau S, Bamberg F Neuroradiology. 2024; 66(5):749-759.

PMID: 38498208 PMC: 11031466. DOI: 10.1007/s00234-024-03335-w.