. "O" . "Slab\u00FD, K." . "RIV/68407700:21460/12:00203971" . . "Vuillerme, N." . . . "[8AAC7BB38C5D]" . "\u010Cakrt, Ond\u0159ej" . "neurorehabilitation; biofeedback; postural control; physiotherapy; posturography"@en . "Balance rehabilitation therapy by tongue electrotactile biofeedback in patients with degenerative cerebellar disease" . "Je\u0159\u00E1bek, Jaroslav" . . "6"^^ . "Balance rehabilitation therapy by tongue electrotactile biofeedback in patients with degenerative cerebellar disease" . . "Balance rehabilitation therapy by tongue electrotactile biofeedback in patients with degenerative cerebellar disease"@en . . "http://ispgr.silkstart.com/cpages/norway-2012" . . "Balance rehabilitation therapy by tongue electrotactile biofeedback in patients with degenerative cerebellar disease"@en . . "3"^^ . "Funda, Tom\u00E1\u0161" . "Kol\u00E1\u0159, P." . "21460" . . "Cerebellar damage typically results in ataxia and can be caused by stroke, tumor, or some degenerative diseases. Since few pharmacological options are available, most treatments rely heavily on rehabilitation therapy [1]. A possible way to improve balance is the use of a biofeedback system in balance prosthesis. Tyler et al. [2] developed a head position-based, tongueplaced biofeedback system whose underlying principle is to transmit artificially sensed head orientation/motion with respect to gravitational vertical along anteroposterior and mediolateral axes through electrotactile stimulation of the tongue. The aim of present study was assessing the effectiveness of a balance rehabilitation program using this biofeedback system in patients suffering from progressive ataxia due to cerebellar degeneration." . . "RIV/68407700:21460/12:00203971!RIV13-MSM-21460___" . . . "Cerebellar damage typically results in ataxia and can be caused by stroke, tumor, or some degenerative diseases. Since few pharmacological options are available, most treatments rely heavily on rehabilitation therapy [1]. A possible way to improve balance is the use of a biofeedback system in balance prosthesis. Tyler et al. [2] developed a head position-based, tongueplaced biofeedback system whose underlying principle is to transmit artificially sensed head orientation/motion with respect to gravitational vertical along anteroposterior and mediolateral axes through electrotactile stimulation of the tongue. The aim of present study was assessing the effectiveness of a balance rehabilitation program using this biofeedback system in patients suffering from progressive ataxia due to cerebellar degeneration."@en . . . . . "124399" . . .