Here we use a multi-level approach to investigate complementary aspects of brain plasticity after stroke. We combined wide field microscopy and optogenetics to dissect meso-scale cortical functionality, and investigated synaptic plasticity with multi-photon microscopy. A further study on the effects of robotic rehabilitation after stroke is ensuing within this framework of multiple imaging techniques aimed at dissecting different aspects of brain plasticity in vivo.
Multi-level imaging of brain plasticity after stroke / Mascaro A.L.A.; Spalletti C.; Lai S.; Conti E.; Alia C.; Sacconi L.; Micera S.; Caleo M.; Pavone F.S.. - ELETTRONICO. - (2016), pp. 0-0. ( Optics and the Brain, BRAIN 2016 usa 2016).
Multi-level imaging of brain plasticity after stroke
Lai S.;Conti E.;Sacconi L.;Pavone F. S.
2016
Abstract
Here we use a multi-level approach to investigate complementary aspects of brain plasticity after stroke. We combined wide field microscopy and optogenetics to dissect meso-scale cortical functionality, and investigated synaptic plasticity with multi-photon microscopy. A further study on the effects of robotic rehabilitation after stroke is ensuing within this framework of multiple imaging techniques aimed at dissecting different aspects of brain plasticity in vivo.
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