Paul‐Louis George scite author profile

Stroke remains a leading cause of death and disability in the world. Over the past few decades our understanding of the pathophysiology of stroke has increased, but greater insight is required to advance the field of stroke recovery. Clinical treatments have improved in the acute time window, but long-term therapeutics remain limited. Complex neural circuits damaged by ischemia make restoration of function after stroke difficult. New therapeutic approaches, including cell transplantation or stimulation, focus on reestablishing these circuits through multiple mechanisms to improve circuit plasticity and remodeling. Other research targets intact networks to compensate for damaged regions. This review highlights several important mechanisms of stroke injury and describes emerging therapies aimed at improving clinical outcomes.

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Delaunay mesh generation governed by metric specifications. Part I. Algorithms

Borouchaki

George

Hecht

et al. 1997

Finite Elements in Analysis and Design

216

174

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Paul‐Louis George

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Delaunay mesh generation governed by metric specifications. Part I. Algorithms

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