Thrombi, or clots, often occlude proximal segments of the cerebral arterial circulation in acute ischemic stroke. Thromboembolic occlusion or thrombi superimposed on atherosclerotic plaque are the principal focus of acute stroke therapies such as thrombolysis or thrombectomy. We review the imaging characteristics of thrombi on multimodal CT and MRI, angiography and ultrasonography, summarizing recent studies that facilitate therapeutic decision-making from these noninvasive studies. Information about the location, size and imaging characteristics can be ascertained using these techniques. Imaging findings in relation to occlusive thrombus have been correlated with clot pathology, response to therapeutic interventions, and clinical outcome. Diagnostic evaluation of occlusive thrombi on noninvasive studies now constitutes an integral component of acute stroke management.
The quantitative, multiparametric assessment of brain lesions requires coregistering different parameters derived from MRI sequences. This will be followed by analysis of the voxel values of the ROI within the sequences and calculated parametric maps, and deriving multiparametric models to classify imaging data. There is a need for an intuitive, automated quantitative processing framework that is generalized and adaptable to different clinical and research questions. As such flexible frameworks have not been previously described, we proceeded to construct a quantitative post-processing framework with commonly available software components. Matlab was chosen as the programming/ integration environment, and SPM was chosen as the coregistration component. Matlab routines were created to extract and concatenate the coregistration transforms, take the coregistered MRI sequences as inputs to the process, allow specification of the ROI, and store the voxel values to the database for statistical analysis. The functionality of the framework was validated using brain tumor MRI cases. The implementation of this quantitative post-processing framework enables intuitive creation of multiple parameters for each voxel, facilitating near real-time in-depth voxel-wise analysis. Our initial empirical evaluation of the framework is an increased usage of analysis requiring post-processing and increased number of simultaneous research activities by clinicians and researchers with non-technical backgrounds. We show that common software components can be utilized to implement an intuitive real-time quantitative post-processing framework, resulting in improved scalability and increased adoption of post-processing needed to answer important diagnostic questions.
Background and Purpose— Hospital certification as primary and comprehensive stroke center is associated with improvement in care. We aimed to characterize the leadership at stroke centers nationwide to determine the proportion led by vascular neurologists, a board-recognized subspecialty focusing on stroke care. Methods— We identified hospitals in the United States holding primary and comprehensive stroke center designation as of September 2013. We contacted each hospital to identify the medical director and used data from relevant medical boards to determine specialization. Sex and date of medical school graduation were obtained from an online physician database. Results— Of the 1167 primary and 50 comprehensive stroke center hospitals certified by the Joint Commission (n=1114), Det Norske Veritas (n=68), and Healthcare Facilities Accreditation Program (n=35), we identified the director in 940 (77%). Leadership was most often by a neurologist (n=745; 79%) followed by physicians in emergency medicine (n=58; 6%) and internal medicine (n=17; 2%). Vascular neurologists (n=319) led about one-third of stroke centers. Directors were mostly men (n=764; 81%), with a median number of years after medical school graduation of 25 (interquartile range, 18–34). Comprehensive stroke centers were more likely than primary stroke centers to have leadership by vascular neurologist (77%, n=37 versus 32%, n=282; P <0.001). Conclusions— Vascular neurologist led about one-third of stroke centers. There is opportunity for vascular neurologists to increase their role in stroke center directorship.
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