MAGLIOZZI, Roberta
MAGLIOZZI, Roberta
DIPARTIMENTO DI NEUROSCIENZE, BIOMEDICINA E MOVIMENTO
Choroid plexus volume predicts progression independent of relapse activity in early relapsing multiple sclerosis
2025-01-01 Sicchieri, M; Marastoni, D; Schirò, G; Tamanti, A; Visani, V; Anni, D; Ziccardi, S; Camera, V; Pizzini, Fb; Magliozzi, R; Castellaro, M; Calabrese, M
Cortical surface-in gradient of alterations in magnetization transfer imaging in association with CSF soluble factors
2023-01-01 Tamanti, A; Peloso, A; Camera, V; Marastoni, D; Colombi, A; Mazziotti, V; Pizzini, Fb; Magliozzi, R; Castellaro, M; Calabrese, M
Impact of neuronal loss on relaxometry and magnetization transfer imaging estimations
2023-01-01 Tamanti, A; Castellaro, M; Pizzini, Fb; Nicholas, R; Reynolds, R; Mainero, C; Calabrese, M; Magliozzi, R
Iron loss of thalamic nuclei evaluated with quantitative susceptibility mapping is related to intrathecal macrophages activity and cortical pathology of multiple sclerosis
2017-01-01 Castellaro, M.; Magliozzi, R.; Rossi, S.; Pitteri, M.; Montemezzi, S.; Pizzini, F. B.; Monaco, S.; Bertoldo, A.; Calabrese, M.
Quantitative Magnetic resonance imaging lesion features allow machine learning-based classification of MS patients with Progression Independent of Relapse Activity
2025-01-01 Guarnaccia, F; Dall'Osto, N; Camera, V; Pastore, L; Bonetti, R; Quagliotti, S; Maltempo, T; Cavagna, A; Camerer, S; Castellaro, M; Magliozzi, R; Ziccardi, S; Marastoni, D; Pizzini, Fb; Calabrese, M; Tamanti, A
Unsupervised Clustering Based on Quantitative Magnetic Resonance Imaging Features Contributes to the Characterization of MS White Matter Lesions
2025-01-01 Dall'Osto, N; Guarnaccia, F; Camera, V; Pastore, L; Bonetti, R; Quagliotti, S; Maltempo, T; Cavagna, A; Camerer, S; Castellaro, M; Magliozzi, R; Ziccardi, S; Marastoni, D; Pizzini, Fb; Calabrese, M; Tamanti, A
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| Choroid plexus volume predicts progression independent of relapse activity in early relapsing multiple sclerosis | 1-gen-2025 | Sicchieri, M; Marastoni, D; Schirò, G; Tamanti, A; Visani, V; Anni, D; Ziccardi, S; Camera, V; Pizzini, Fb; Magliozzi, R; Castellaro, M; Calabrese, M | |
| Cortical surface-in gradient of alterations in magnetization transfer imaging in association with CSF soluble factors | 1-gen-2023 | Tamanti, A; Peloso, A; Camera, V; Marastoni, D; Colombi, A; Mazziotti, V; Pizzini, Fb; Magliozzi, R; Castellaro, M; Calabrese, M | |
| Impact of neuronal loss on relaxometry and magnetization transfer imaging estimations | 1-gen-2023 | Tamanti, A; Castellaro, M; Pizzini, Fb; Nicholas, R; Reynolds, R; Mainero, C; Calabrese, M; Magliozzi, R | |
| Iron loss of thalamic nuclei evaluated with quantitative susceptibility mapping is related to intrathecal macrophages activity and cortical pathology of multiple sclerosis | 1-gen-2017 | Castellaro, M.; Magliozzi, R.; Rossi, S.; Pitteri, M.; Montemezzi, S.; Pizzini, F. B.; Monaco, S.; Bertoldo, A.; Calabrese, M. | |
| Quantitative Magnetic resonance imaging lesion features allow machine learning-based classification of MS patients with Progression Independent of Relapse Activity | 1-gen-2025 | Guarnaccia, F; Dall'Osto, N; Camera, V; Pastore, L; Bonetti, R; Quagliotti, S; Maltempo, T; Cavagna, A; Camerer, S; Castellaro, M; Magliozzi, R; Ziccardi, S; Marastoni, D; Pizzini, Fb; Calabrese, M; Tamanti, A | |
| Unsupervised Clustering Based on Quantitative Magnetic Resonance Imaging Features Contributes to the Characterization of MS White Matter Lesions | 1-gen-2025 | Dall'Osto, N; Guarnaccia, F; Camera, V; Pastore, L; Bonetti, R; Quagliotti, S; Maltempo, T; Cavagna, A; Camerer, S; Castellaro, M; Magliozzi, R; Ziccardi, S; Marastoni, D; Pizzini, Fb; Calabrese, M; Tamanti, A |