Modulation of event-related desynchronization in robot-assisted hand performance: brain oscillatory changes in active, passive and imagined movements

Formaggio, Emanuela; Storti, Silvia Francesca; Galazzo, Ilaria Boscolo; Gandolfi, Marialuisa; Geroin, Christian; Smania, Nicola; Spezia, Laura; Waldner, Andreas; Fiaschi, Antonio; Manganotti, Paolo

doi:10.1186/1743-0003-10-24

Cited by 101 publications

(106 citation statements)

References 49 publications

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“…This has been shown for self-paced voluntary movement (Crone et al, 1998b) passive movement (Alegre et al 2006; Formaggio et al, 2013), and imagined movement (Formaggio et al, 2013). Alpha-beta ERD is typically represented broadly across the sensorimotor cortex (Pfurtscheller et al, 2003), occurs prior to movement initiation, and is thought to represent a “pro-kinetic” state of increased cortical responsiveness (Crone et al, 1998b).…”

Section: Discussionmentioning

confidence: 70%

Electrocorticography reveals beta desynchronization in the basal ganglia-cortical loop during rest tremor in Parkinson's disease

Qasim

Hemptinne

Swann

et al. 2016

Neurobiology of Disease

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The pathophysiology of rest tremor in Parkinson’s disease (PD) is not well understood, and its severity does not correlate with the severity of other cardinal signs of PD. We hypothesized that tremor-related oscillatory activity in the basal-ganglia-thalamocortical loop might serve as a compensatory mechanism for the excessive beta band synchronization associated with the parkinsonian state. We recorded electrocorticography (ECoG) from the sensorimotor cortex and local field potentials (LFP) from the subthalamic nucleus (STN) in patients undergoing lead implantation for deep brain stimulation (DBS). We analyzed differences in measures of network synchronization during epochs of spontaneous rest tremor, versus epochs without rest tremor, occurring in the same subjects. The presence of tremor was associated with reduced beta power in the cortex and STN. Cortico-cortical coherence and phase-amplitude coupling (PAC) decreased during rest tremor, as did basal ganglia-cortical coherence in the same frequency band. Cortical broadband gamma power was not increased by tremor onset, in contrast to the movement-related gamma increase typically observed at the onset of voluntary movement. These findings suggest that the cortical representation of rest tremor is distinct from that of voluntary movement, and support a model in which tremor acts to decrease beta band synchronization within the basal ganglia-cortical loop.

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Section: Discussionmentioning

confidence: 70%

Electrocorticography reveals beta desynchronization in the basal ganglia-cortical loop during rest tremor in Parkinson's disease

Qasim

Hemptinne

Swann

et al. 2016

Neurobiology of Disease

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“…Online adjustment of the timing and speed of instructive visual stimulation could further improve BCI training on the ERD production. Third, the current study focused only on visual information, while somatic sensation is also known to evoke ERD even when limbs are moved passively by a human experimenter (Alegre et al, 2002), a robot (Formaggio et al, 2013), or by functional electrical stimulation (Müller et al, 2003). Therefore, combining visual and somatosensory stimulation for MI-based BCI training may be worth to investigate if multisensory integration is more effective, although concurrent presentation of multimodal sensory stimuli sometimes disturbs ERD production (Takata et al, 2012).…”

Section: Discussionmentioning

confidence: 94%

Effect of instructive visual stimuli on neurofeedback training for motor imagery-based brain–computer interface

Kondo

Saeki

Hayashi

et al. 2015

Human Movement Science

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Event-related desynchronization (ERD) of the electroencephalogram (EEG) from the motor cortex is associated with execution, observation, and mental imagery of motor tasks. Generation of ERD by motor imagery (MI) has been widely used for brain-computer interfaces (BCIs) linked to neuroprosthetics and other motor assistance devices. Control of MI-based BCIs can be acquired by neurofeedback training to reliably induce MI-associated ERD. To develop more effective training conditions, we investigated the effect of static and dynamic visual representations of target movements (a picture of forearms or a video clip of hand grasping movements) during the BCI neurofeedback training. After 4 consecutive training days, the group that performed MI while viewing the video showed significant improvement in generating MI-associated ERD compared with the group that viewed the static image. This result suggests that passively observing the target movement during MI would improve the associated mental imagery and enhance MI-based BCIs skills.

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“…One reason is that, when wearing the exoskeleton, the right arm will move following the exoskeleton, which causes some problems in practical use because the movement of the right arm would produce ERD/ERS patterns over the hand area and this can result in false decisions of the system [27], especially an effect on the classification of left hand movement. Even if the right arm movement is a passive movement, it can also result in the ERD/ERS patterns similar to those in voluntary movements [40]. A related work [41] about passive movement effect found that the ERD/ERS patterns associated with upper limb movements are not significantly changed by periodic lower limb passive movements, which is similar to our results (the right hand movement mainly affects the classification of left hand movement, but not foot movement, as shown in Figure 7).…”

Section: Discussionmentioning

confidence: 99%

A Brain-Machine Interface Based on ERD/ERS for an Upper-Limb Exoskeleton Control

Tang

Sun

Zhang

et al. 2016

Sensors

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To recognize the user’s motion intention, brain-machine interfaces (BMI) usually decode movements from cortical activity to control exoskeletons and neuroprostheses for daily activities. The aim of this paper is to investigate whether self-induced variations of the electroencephalogram (EEG) can be useful as control signals for an upper-limb exoskeleton developed by us. A BMI based on event-related desynchronization/synchronization (ERD/ERS) is proposed. In the decoder-training phase, we investigate the offline classification performance of left versus right hand and left hand versus both feet by using motor execution (ME) or motor imagery (MI). The results indicate that the accuracies of ME sessions are higher than those of MI sessions, and left hand versus both feet paradigm achieves a better classification performance, which would be used in the online-control phase. In the online-control phase, the trained decoder is tested in two scenarios (wearing or without wearing the exoskeleton). The MI and ME sessions wearing the exoskeleton achieve mean classification accuracy of 84.29% ± 2.11% and 87.37% ± 3.06%, respectively. The present study demonstrates that the proposed BMI is effective to control the upper-limb exoskeleton, and provides a practical method by non-invasive EEG signal associated with human natural behavior for clinical applications.

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Modulation of event-related desynchronization in robot-assisted hand performance: brain oscillatory changes in active, passive and imagined movements

Cited by 101 publications

References 49 publications

Electrocorticography reveals beta desynchronization in the basal ganglia-cortical loop during rest tremor in Parkinson's disease

Electrocorticography reveals beta desynchronization in the basal ganglia-cortical loop during rest tremor in Parkinson's disease

Effect of instructive visual stimuli on neurofeedback training for motor imagery-based brain–computer interface

A Brain-Machine Interface Based on ERD/ERS for an Upper-Limb Exoskeleton Control

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