D'EMANUELE, SAMUEL

D'EMANUELE, SAMUEL  

DIPARTIMENTO DI NEUROSCIENZE, BIOMEDICINA E MOVIMENTO  

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Risultati 1 - 9 di 9 (tempo di esecuzione: 0.023 secondi).
Titolo Data di pubblicazione Autore(i) File
Decreased neural drive affects the early rate of force development after repeated burst-like isometric contractions 1-gen-2024 Boccia, Gennaro; D'Emanuele, Samuel; Brustio, Paolo Riccardo; Rainoldi, Alberto; Schena, Federico; Tarperi, Cantor
Flat versus simulated mountain trail running: a multidisciplinary comparison in well-trained runners 1-gen-2023 Skroce, Kristina; Bettega, Simone; D'Emanuele, Samuel; Boccia, Gennaro; Schena, Federico; Tarperi, Cantor
High density surface electromyography activity of the lumbar erector spinae muscles and comfort/discomfort assessment in piano players: comparison of two chairs 1-gen-2021 Aranceta-Garza, Alejandra; Russo, Alessandro; D’Emanuele, Samuel; Serafino, Francesca; Merletti, Roberto
Indoor mobility, frailty, and disability in community-dwelling older adults: a mediation model 1-gen-2022 Brustio, Paolo Riccardo; Mulasso, Anna; D'Emanuele, Samuel; Zia, Gianluca; Feletti, Luca; Del Signore, Susanna; Rainoldi, Alberto
Neural and contractile determinants of burst-like explosive isometric contractions of the knee extensors 1-gen-2023 D'Emanuele, Samuel; Tarperi, Cantor; Rainoldi, Alberto; Schena, Federico; Boccia, Gennaro
Rate of force development and purely explosive contractions: from neural and muscular determinants to methods to assess central, peripheral fatigue, and asymmetries 1-gen-2023 D'Emanuele, Samuel
Rate of force development as an indicator of neuromuscular fatigue: a scoping review 1-gen-2021 D'Emanuele, Samuel; Maffiuletti, Nicola A; Tarperi, Cantor; Rainoldi, Alberto; Schena, Federico; Boccia, Gennaro
Reduced rate of force development under fatigued conditions is associated to the decline in force complexity in adult males 1-gen-2024 D'Emanuele, Samuel; Boccia, Gennaro; Angius, Luca; Hayman, Oliver; Goodall, Stuart; Schena, Federico; Tarperi, Cantor
Strength asymmetries are muscle-specific and metric-dependent 1-gen-2022 Boccia, G.; D'Emanuele, S.; Brustio, P. R.; Beratto, L.; Tarperi, C.; Casale, R.; Sciarra, T.; Rainoldi, A.