Ms. Maria Pasquini Profile

Maria Pasquini

at Scuola Superiore Sant'Anna

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Proceedings Article | 1 March 2019 Paper

Combined rehabilitation promotes recovery of motor functionality in a mouse model of stroke

Emilia Conti, Anna Letizia Allegra Mascaro, Francesco Resta, Alessandro Scaglione, Maria Pasquini, Silvestro Micera, Francesco Pavone

Proceedings Volume 10865, 108650R (2019) https://doi.org/10.1117/12.2508321

KEYWORDS: Optogenetics, Neurons, Calcium, Robotics, Skull, Mouse models, Therapeutics, Light emitting diodes, Cameras

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Neuro-rehabilitative research is developing novel strategies to enhance the effectiveness of therapies after stroke by using a combination of physical and plasticizing treatments ^1-3. Previous studies have shown that repeated optogenetics stimulation of neurons in the peri-lesioned area induces a significant improvement in cerebral blood flow and neurovascular coupling response ^4-6. Up to now the mechanisms underneath the reshaping of brain circuitry induced by rehabilitation after stroke are widely unknown. To investigate how rehabilitative therapies shape new cortical maps in the peri-infarct region, we induce a photothrombotic stroke in the primary motor cortex and the expression of Channelrhodopsine 2 (ChR2) in the peri-infarct area on Thy1-GCaMP6f mice. To promote functional recovery after stroke we use both an optogenetic strategy to stimulate targeted excitatory neurons in the peri-lesional region and motor training on a robotic platform (M-Platform) ⁷. A 473 nm laser repeatedly stimulates ChR2-transfected neurons; the optostimulation is performed five days a week. The motor rehabilitation consists in a pulling task: after the forelimb is passively extended by the linear actuator of the M-platform, the animal has to pull back up to the resting position. By analysing the spatio-temporal calcium dynamic and the reshaping of cortical activation area during the movement throughout the treatment period, we found that the combined treatment restores cortical activation profiles during the forelimb movement. Through behavioural experiments, using Schallert test, we also evaluate changes of forelimb functionality during rehabilitation. Our combination of techniques allows obtaining unprecedented views on cortical plasticity induced by rehabilitative therapies.

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