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Dynamic Functional Connectivity of Resting-State Spinal Cord fMRI Reveals Fine-Grained Intrinsic Architecture
2020-01-01 Kinany, N.; Pirondini, E.; Micera, S.; Van De Ville, D.
Mechanisms underlying the neuromodulation of spinal circuits for correcting gait and balance deficits after spinal cord injury
In corso di stampa E. Martin, Moraud; Capogrosso, Marco; E., Formento; N., Wenger; J., Digiovanna; G., Courtine; Micera, Silvestro
Mechanisms Underlying the Neuromodulation of Spinal Circuits for Correcting Gait and Balance Deficits after Spinal Cord Injury
2016-01-01 Moraud, Eduardo Martin; Capogrosso, Marco; Formento, Emanuele; Wenger, Nikolaus; Digiovanna, Jack; Courtine, Gregoire; Micera, Silvestro
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Dynamic Functional Connectivity of Resting-State Spinal Cord fMRI Reveals Fine-Grained Intrinsic Architecture | 1-gen-2020 | Kinany, N.; Pirondini, E.; Micera, S.; Van De Ville, D. | |
Mechanisms underlying the neuromodulation of spinal circuits for correcting gait and balance deficits after spinal cord injury | In corso di stampa | E. Martin, Moraud; Capogrosso, Marco; E., Formento; N., Wenger; J., Digiovanna; G., Courtine; Micera, Silvestro | |
Mechanisms Underlying the Neuromodulation of Spinal Circuits for Correcting Gait and Balance Deficits after Spinal Cord Injury | 1-gen-2016 | Moraud, Eduardo Martin; Capogrosso, Marco; Formento, Emanuele; Wenger, Nikolaus; Digiovanna, Jack; Courtine, Gregoire; Micera, Silvestro |
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