Mechanisms, Imaging, and Therapy in Stroke Recovery
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EDITORIAL
Mechanisms, Imaging, and Therapy in Stroke Recovery Changhong Xing 1
&
Kazuhide Hayakawa 1 & Eng H. Lo 1
Received: 23 September 2016 / Accepted: 27 September 2016 # Springer Science+Business Media New York 2016
Although the majority of phase II/III clinical trials of neuroprotective drugs have failed, recent clinical trials of endovascular recanalization using mechanical thrombectomy were proved effective for acute stroke patients with large vessel occlusions [1–7]. Absolute improvement with endovascular therapy has been found to range between 13.5 to 31 %, whereas thrombolytics alone also significantly improve patient functional independence, but to a lesser degree [8]. A meta-analysis provided evidence that for eligible patients with acute ischemic stroke in the setting of large vessel occlusions, outcomes were improved by endovascular intervention combined with medical management, including IV tissue plasminogen activator [9]. Along with recent trends showing a relative reduction in stroke mortality by over 30 % [10], these recent advances now make it even more important to dissect the mechanisms of post-stroke recovery and develop efficacious therapies to reduce disability in survivors of acute ischemic stroke. Profound cellular and biochemical remodeling take place in the brain following an ischemic stroke, and some of these endogenous mechanisms of cerebral plasticity and neurological recovery may be stimulated with behavioral rehabilitation and non-invasive brain stimulation [11–14]. Recovery from stroke is a multifaceted process, and clinical advances continue to be achieved. Current experimental and clinical stroke research focus on the restoration of motor functions [15–20]. By contrast, sensory deficits, cognitive impairment, and depression are less studied, even though these phenomena would have a major impact on stroke recovery [20]. Neurorehabilitative training
* Changhong Xing [email protected]
1
Department of Radiology and Neurology, Massachusetts General Hospital, Harvard Medical School, Charlestown, MA 02129, USA
has improved clinical recovery of stroke patients in part by augmenting peri-lesional motor plasticity [21–23], but how to adapt these approaches for improving sensory and cognitive recovery remains to be fully investigated. Multiple neuroimaging techniques can now be used to visualize stroke-related structural and functional changes, but more work is required to fully integrate these imaging methods with standard of care to predict and maximize recovery of function [24]. In this special issue, we have sought reviews from established experts to explore the frontiers of basic mechanisms, advanced neuroimaging, and potential translational interventions that might be able to promote neurological recovery after ischemic stroke. The first two papers focus on the mechanisms of neurogenesis and axonal repair after stroke. Koh et al. [25] discuss ways to stimulate neurogenesis after stroke and survey ongoing clinical trials focusing on enhancing neurogenesis. Egawa
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