2005
DOI: 10.1007/s00702-005-0314-4
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Motor learning of hands with auditory cue in patients with Parkinson’s disease

Abstract: Summary:In the present research, changes in motor cortex function were observed in relation to repetitive, voluntary thumb movement (training) in patients with Parkinson's disease (PD) and normal control subjects. Changes in the direction of thumb movement due to motor evoked potential (MEP) by transcranial magnetic stimulation (TMS), after motor training with and without rhythmic sound, were measured using a strain gauge for 12 patients with PD and 9 normal control subjects. PD patients who experienced the fr… Show more

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Cited by 35 publications
(26 citation statements)
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“…In particular, the cerebellum is active when subjects perform externally guided (EG) movements (Jueptner et al 1996;van Donkelaar et al 2000), while the BG is active when subjects perform an action that is recalled by memory or internally guided (IG), e.g., as self-generated timing (Jahanshahi et al 1995;Jenkins et al 2000;Jueptner and Weiller 1998;Mushiake and Strick 1995). The latter type of motor learning is diminished in Parkinson's disease, but can be overcome with external visual or auditory cues (Chuma et al 2006;Jahanshahi et al 1995;Nowak et al 2006;Rascol et al 1997). Overall, EG tasks are primarily processed through the cerebello-TH-CX circuit in the normal condition, whereas IG tasks are primarily encoded in the BG-TH-CX circuit.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…In particular, the cerebellum is active when subjects perform externally guided (EG) movements (Jueptner et al 1996;van Donkelaar et al 2000), while the BG is active when subjects perform an action that is recalled by memory or internally guided (IG), e.g., as self-generated timing (Jahanshahi et al 1995;Jenkins et al 2000;Jueptner and Weiller 1998;Mushiake and Strick 1995). The latter type of motor learning is diminished in Parkinson's disease, but can be overcome with external visual or auditory cues (Chuma et al 2006;Jahanshahi et al 1995;Nowak et al 2006;Rascol et al 1997). Overall, EG tasks are primarily processed through the cerebello-TH-CX circuit in the normal condition, whereas IG tasks are primarily encoded in the BG-TH-CX circuit.…”
Section: Discussionmentioning
confidence: 99%
“…We examined the cerebellum because the cerebello-thalamo-cortical (cerebello-TH-CX) circuit is a significant motor system that runs in parallel to the BG-TH-CX (Lewis et al 2007). Furthermore, the cerebellum is a motor-related structure that can compensate for basal ganglia (BG) dysfunction in Parkinson's disease and provide motor function by increasing the reliance of external cues by Parkinson's disease patients (Azulay et al 1999;Chuma et al 2006;Freeman et al 1993;Georgiou et al 1993;Jahanshahi et al 1995;Nowak et al 2006;Rascol et al 1997;Sen et al 2010;Yu et al 2007). In addition, imaging studies (Asanuma et al 2006;Grafton et al 2006;Helmich et al 2011;Hilker et al 2003;Hilker et al 2004;Mure et al 2012;Sestini et al 2005;Sidtis et al 2012;Wang et al 2010) and c-fos staining in the dentate nucleus of the cerebellum (MoersHornikx et al 2011) show that STN-DBS alters cerebellar activity in Parkinson's disease.…”
Section: Introductionmentioning
confidence: 99%
“…Studies suggest that cueing may stimulate alternative cortical pathways (eg, visual motor pathways) 32 to bypass the basal ganglia, whereas other studies suggest that cueing synchronizes the simultaneous timing of interlimb coordination in the cerebellum needed for normal gait. 33,34 Further studies are needed to investigate the neurophysiological mechanisms underpinning the effectiveness of rhythmic cueing in patients with PD.…”
Section: Discussionmentioning
confidence: 99%
“…These data suggest that the route from sensory input to cerebellum to premotor cortex could compensate for the decreased function of the route via the basal ganglion to the premotor cortex [8].Once change occurred in the motor cortex,the change persisted even after interruption of the training. These phenomena suggest that motor memory can be stored in the motor cortex [9].…”
Section: Exercise and Educationmentioning
confidence: 81%