Neuroimaging clinics of North America
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The heart and the carotid arteries are the most common sites of origin of embolic disease to the brain. Clots arising from these locations are the most common types of brain emboli. Less common cerebral emboli include air, fat, calcium, infected vegetations, and tumor cells as well as emboli originating in the venous system. Although infarcts can be the final result of any type of embolism, described herein are the ancillary and sometimes unique imaging features of less common types of cerebral emboli that may allow for a specific diagnosis to be made or at least suspected in many patients.
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Neuroimaging Clin. N. Am. · Feb 2016
ReviewUtility of Combining PET and MR Imaging of Carotid Plaque.
By harnessing the versatility and soft tissue imaging capabilities of MR imaging alongside the unmatched sensitivity and biomolecular flexibility of PET, the potential to provide detailed multiparametric plaque characterization in the carotid arteries is clear. The ability to acquire simultaneous, and dynamic multimodal data is perhaps PET/MR's greatest strength that will be of major interest to researchers investigating carotid and coronary atherosclerosis alike. This review summarizes the current status of dedicated hybrid PET/MR imaging; to crystallize the rationale for and advantages of this technique with respect to carotid atherosclerosis; and to discuss current limitations, challenges, and future directions.
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Neuroimaging Clin. N. Am. · Feb 2016
ReviewIncorporating Carotid Plaque Imaging into Routine Clinical Carotid Magnetic Resonance Angiography.
The incorporation of a short, easy-to-acquire and simple to read sequence to visualize the vessel wall and detect intraplaque hemorrhage (IPH) is achievable now. Demonstration of IPH may be helpful in primary or secondary prevention of neuroischemic events, assessment prior to carotid intervention and the general definition of an individual's vascular phenotype. The addition of an IPH-detecting vessel wall sequence only adds 5 to 6 minutes to a standard carotid MRI examination making clinical translation feasible and achievable.
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Neuroimaging Clin. N. Am. · Feb 2016
ReviewPlaque Imaging to Decide on Optimal Treatment: Medical Versus Carotid Endarterectomy Versus Carotid Artery Stenting.
Many of the current guidelines for the management of carotid atherosclerosis are based on clinical trial findings published more than 2 decades ago. The lack of plaque information in clinical decision making represents a major shortcoming and highlights the need for contemporary trials based on characteristics of the atherosclerotic lesion itself, rather than luminal stenosis alone. This article summarizes the major dilemmas clinicians face in current practice, and discusses the rationale and evidence that plaque imaging may help to address these challenges and optimize the clinical management of carotid artery disease in the future.
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Plaque imaging by MR imaging provides a wealth of information on the characteristics of individual plaque that may reveal vulnerability to rupture, likelihood of progression, or optimal treatment strategy. T1-weighted and T2-weighted images among other options reveal plaque morphology and composition. ⋯ Numerous approaches for analyzing such images have been developed, validated against histologic gold standards, and used in clinical studies. These efforts are summarized in this article.