Abstract
Cerebrovascular diseases pose a serious threat to human survival and quality of life and represent a major cause of human death and disability. Recently, the incidence of cerebrovascular diseases has increased yearly. Rapid and accurate diagnosis and evaluation of cerebrovascular diseases are of great importance to reduce the incidence, morbidity and mortality of cerebrovascular diseases. With the rapid development of medical ultrasound, the clinical relationship between ultrasound imaging technology and the diagnosis and treatment of cerebrovascular diseases has become increasingly close. Ultrasound techniques such as transcranial acoustic angiography, doppler energy imaging, three-dimensional craniocerebral imaging and ultrasound thrombolysis are novel and valuable techniques in the study of cerebrovascular diseases. In this review, we introduce some of the new ultrasound techniques from both published studies and ongoing trials that have been confirmed to be convenient and effective methods. However, additional evidence from future studies will be required before some of these techniques can be widely applied or recommended as alternatives.
Highlights
Yan L, Zhou X, Zheng Y, Luo W, Yang J, Zhou Y, et al Research progress in ultrasound use for the diagnosis and treatment of cerebrovascular diseases
We introduce some of the new ultrasound techniques from both published studies and ongoing trials that have been confirmed to be convenient and effective methods
As our understanding of the pathogenesis of carotid atherosclerosis and stroke increases, the importance and necessity of carotid ultrasonography have become increasingly apparent in clinical practice
Summary
Research progress in ultrasound use for the diagnosis and treatment of cerebrovascular diseases. CEUS examination of the carotid artery is a new tool to improve the delineation of the vessel wall and to analyze atherosclerotic carotid lesions by detecting the presence and extent of plaque neovascularization and providing information on plaque vulnerability in patients at risk for developing symptomatic atherosclerosis [58]. Despite its advantages, this technique has not been widely used and is highly dependent on operator experience [59]. We believe that ultrasound technology has great potential and will be a promising method for the diagnosis and treatment of cerebrovascular diseases in the future
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