par Manto, Mario 
;Grimaldi, Giuliana ;Lorivel, Thomas ;Farina, Dario;Popovic, Lana;Conforto, Silvia;D'Alessio, Tommaso;Belda-Lois, Juan-Manuel;Pons, Jose-Luis;Rocon, Eduardo
Référence Current Bioinformatics, 4, 2, page (154-172)
Publication Publié, 2009
;Grimaldi, Giuliana ;Lorivel, Thomas ;Farina, Dario;Popovic, Lana;Conforto, Silvia;D'Alessio, Tommaso;Belda-Lois, Juan-Manuel;Pons, Jose-Luis;Rocon, EduardoRéférence Current Bioinformatics, 4, 2, page (154-172)
Publication Publié, 2009
Article révisé par les pairs
| Résumé : | Bioinformatics is a field of information technology concerning the storage, retrieval, analysis, visualization, prediction and analysis of sets of data with biological or clinical significance. Tremor is a common movement disorder, for which pharmacological and neurophysiological models have been developed these last 3 decades, and which is at the frontier of biology, health sciences and computer technologies. Recently, new biomechanical modelling approaches of tremor have been proposed, based upon ambulatory systems and body area networks (BAN). Use of digital signal processing (DSP) techniques taking into account the non-linearity and non stationarity features of tremor time-series is reviewed in the present article. In particular, algorithms for instantaneous assessments of oscillations and direct online cancellations have been suggested. We discuss the advantages and drawbacks of the tremor detection algorithms, as well as prediction tools. In addition, promising models based upon neural networks, conductance studies and brain neurotransmitters are under development. These models will allow the accurate simulation of the behaviour of limbs. Their impact is outlined. The field of tremor research represents an excellent application of bioinformatics in medicine and rehabilitation. © 2009 Bentham Science Publishers Ltd. |
