Radiation dose reduction in perfusion CT imaging of the brain: A review of the literature
- PMID: 26452610
- DOI: 10.1016/j.neurad.2015.06.003
Radiation dose reduction in perfusion CT imaging of the brain: A review of the literature
Abstract
Perfusion CT (PCT) of the brain is widely used in the settings of acute ischemic stroke and vasospasm monitoring. The high radiation dose associated with PCT is a central topic and has been a focus of interest for many researchers. Many studies have examined the effect of radiation dose reduction in PCT using different approaches. Reduction of tube current and tube voltage can be efficient and lead to a remarkable reduction of effective radiation dose while preserving acceptable image quality. The use of novel noise reduction techniques such as iterative reconstruction or spatiotemporal smoothing can produce sufficient image quality from low-dose perfusion protocols. Reduction of sampling frequency of perfusion images has only little potential to reduce radiation dose. In the present article we aimed to summarize the available data on radiation dose reduction in PCT imaging of the brain.
Keywords: Low-dose perfusion CT; Perfusion CT; Radiation dose; Stroke.
Copyright © 2015 Elsevier Masson SAS. All rights reserved.
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