000175942 001__ 175942
000175942 005__ 20181203022651.0
000175942 0247_ $$2doi$$a10.1016/j.clinph.2010.01.001
000175942 02470 $$2ISI$$a000276091300019
000175942 037__ $$aARTICLE
000175942 245__ $$aDouble nerve intraneural interface implant on a human amputee for robotic hand control
000175942 269__ $$a2010
000175942 260__ $$c2010
000175942 336__ $$aJournal Articles
000175942 520__ $$aObjectives: The principle underlying this project is that, despite nervous reorganization following upper limb amputation, original pathways and CNS relays partially maintain their function and can be exploited for interfacing prostheses.
000175942 6531_ $$aIntraneural interface
000175942 6531_ $$aLimb amputation
000175942 6531_ $$aPhantom-limb syndrome
000175942 6531_ $$aNeural plasticity
000175942 6531_ $$aTranscranial magnetic stimulation
000175942 6531_ $$aHand prosthesis
000175942 6531_ $$aIntrafascicular Electrodes
000175942 6531_ $$aMagnetic Stimulation
000175942 6531_ $$aDigit Amputation
000175942 6531_ $$aCybernetic Hand
000175942 6531_ $$aProsthetic Arm
000175942 6531_ $$aMotor Cortex
000175942 6531_ $$aLimb Pain
000175942 6531_ $$aReorganization
000175942 6531_ $$aBrain
000175942 6531_ $$aReinnervation
000175942 700__ $$uUniv Campus Biomed, Dept Neurol, Rome, Italy$$aRossini, Paolo M.
000175942 700__ $$0246201$$g218366$$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aMicera, Silvestro
000175942 700__ $$uUniv Campus Biomed, Biomed Robot & Biomicrosyst Lab, Rome, Italy$$aBenvenuto, Antonella
000175942 700__ $$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aCarpaneto, Jacopo
000175942 700__ $$uUniv Campus Biomed, Biomed Robot & Biomicrosyst Lab, Rome, Italy$$aCavallo, Giuseppe
000175942 700__ $$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aCiti, Luca
000175942 700__ $$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aCipriani, Christian
000175942 700__ $$uCatholic Univ, Dept Neurosurg, Rome, Italy$$aDenaro, Luca
000175942 700__ $$uUniv Campus Biomed, Dept Orthoped & Trauma Surg, Rome, Italy$$aDenaro, Vincenzo
000175942 700__ $$uUniv Campus Biomed, Biomed Robot & Biomicrosyst Lab, Rome, Italy$$aDi Pino, Giovanni
000175942 700__ $$uUniv Campus Biomed, Dept Neurol, Rome, Italy$$aFerreri, Florinda
000175942 700__ $$uUniv Campus Biomed, Biomed Robot & Biomicrosyst Lab, Rome, Italy$$aGuglielmelli, Eugenio
000175942 700__ $$uFhG IBMT, Dept Med Technol & Neuroprosthet, St Ingbert, Germany$$aHoffmann, Klaus-Peter
000175942 700__ $$0246240$$g221044$$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aRaspopovic, Stanisa
000175942 700__ $$0247771$$g241251$$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy$$aRigosa, Jacopo
000175942 700__ $$uUniv Campus Biomed, Biomed Robot & Biomicrosyst Lab, Rome, Italy$$aRossini, Luca
000175942 700__ $$aTombini, Mario$$uUniv Campus Biomed, Dept Neurol, Rome, Italy
000175942 700__ $$aDario, Paolo$$uScuola Super Sant Anna, Adv Robot Technol & Syst Lab, Pisa, Italy
000175942 773__ $$j121$$tClinical Neurophysiology$$q777-783
000175942 909C0 $$xU12522$$0252419$$pTNE
000175942 909C0 $$xU12599$$0252517$$pCNP
000175942 909CO $$pSTI$$particle$$ooai:infoscience.tind.io:175942
000175942 937__ $$aEPFL-ARTICLE-175942
000175942 973__ $$rREVIEWED$$sPUBLISHED$$aOTHER
000175942 980__ $$aARTICLE