1. Imaging of Stroke: Part 2, Pathophysiology at the Molecular and Cellular Levels and Corresponding Imaging Changes
- Author
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Rebecca L. Roller, Sangam Kanekar, and T. Thomas Zacharia
- Subjects
Pathology ,medicine.medical_specialty ,business.industry ,Ischemia ,Perfusion scanning ,General Medicine ,medicine.disease ,Neuroprotection ,Pathophysiology ,Neuroimaging ,Medicine ,Radiology, Nuclear Medicine and imaging ,business ,Neuroscience ,Stroke ,Neuroradiology ,Cause of death - Abstract
OBJECTIVE. Stroke is the third leading cause of death and the leading cause of severe disability. During the ???decade of the brain??? in the 1990s, the most promising development was the treatment of acute ischemic stroke. It is thought to result from a cascade of events from energy depletion to cell death. In the initial minutes to hour, clinical deficit does not necessarily reflect irreversible damage. The final outcome and residual deficit will be decided by how fast reperfusion is achieved, which in turn depends on how early the diagnosis is made. This article explains the pathophysiology of stroke at the molecular and cellular levels with corresponding changes on various imaging techniques. CONCLUSION. The pathophysiology of stroke has several complex mechanisms. Understanding these mechanisms is essential to derive neuroprotective agents that limit neuronal damage after ischemia. Imaging and clinical strategies aimed at extending the therapeutic window for reperfusion treatment with mechanical and ...
- Published
- 2012
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