Andreea I Sburlea
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Explore the profile of Andreea I Sburlea including associated specialties, affiliations and a list of published articles.
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17
Citations
154
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Recent Articles
1.
Pulferer H, Asgeirsdottir B, Mondini V, Sburlea A, Muller-Putz G
J Neural Eng
. 2022 Apr;
19(3).
PMID: 35443233
. In people with a cervical spinal cord injury (SCI) or degenerative diseases leading to limited motor function, restoration of upper limb movement has been a goal of the brain-computer...
2.
Muller-Putz G, Kobler R, Pereira J, Lopes-Dias C, Hehenberger L, Mondini V, et al.
Front Hum Neurosci
. 2022 Apr;
16:841312.
PMID: 35360289
Establishing the basic knowledge, methodology, and technology for a framework for the continuous decoding of hand/arm movement intention was the aim of the ERC-funded project "Feel Your Reach". In this...
3.
Hehenberger L, Batistic L, Sburlea A, Muller-Putz G
Front Hum Neurosci
. 2021 Oct;
15:687252.
PMID: 34630055
Motor imagery is a popular technique employed as a motor rehabilitation tool, or to control assistive devices to substitute lost motor function. In both said areas of application, artificial somatosensory...
4.
Lopes-Dias C, Sburlea A, Breitegger K, Wyss D, Drescher H, Wildburger R, et al.
J Neural Eng
. 2021 Mar;
18(4):046022.
PMID: 33779576
Objective: This work has three main aims. First, we investigate whether an ErrP classifier is transferable from able-bodied participants to participants with a spinal cord injury (SCI). Second, we test...
5.
Wriessnegger S, Muller-Putz G, Brunner C, Sburlea A
Front Hum Neurosci
. 2020 Nov;
14:576241.
PMID: 33192406
The aim of this work was to re-evaluate electrophysiological data from a previous study on motor imagery (MI) with a special focus on observed inter- and intra-individual differences. More concretely,...
6.
Kobler R, Sburlea A, Mondini V, Hirata M, Muller-Putz G
J Neural Eng
. 2020 Nov;
17(5):056027.
PMID: 33146148
Objective: One of the main goals in brain-computer interface (BCI) research is the replacement or restoration of lost function in individuals with paralysis. One line of research investigates the inference...
7.
Hehenberger L, Sburlea A, Muller-Putz G
J Neural Eng
. 2020 Oct;
17(5):056032.
PMID: 33052887
Objective: An important part of restoring motor control via a brain-computer interface is to close the sensorimotor feedback loop. As part of our investigations into vibrotactile kinaesthetic feedback of arm...
8.
Lopes-Dias C, Sburlea A, Muller-Putz G
Annu Int Conf IEEE Eng Med Biol Soc
. 2020 Oct;
2020:2995-2998.
PMID: 33018635
Brain-computer interfaces (BCIs) provide more independence to people with severe motor disabilities but current BCIs' performance is still not optimal and often the user's intentions are misinterpreted. Error-related potentials (ErrPs)...
9.
Mondini V, Kobler R, Sburlea A, Muller-Putz G
J Neural Eng
. 2020 Jul;
17(4):046031.
PMID: 32679573
Objective: Continuous decoding of voluntary movement is desirable for closed-loop, natural control of neuroprostheses. Recent studies showed the possibility to reconstruct the hand trajectories from low-frequency (LF) electroencephalographic (EEG) signals....
10.
Kobler R, Kolesnichenko E, Sburlea A, Muller-Putz G
Neuroimage
. 2020 Jun;
220:117076.
PMID: 32585349
Movement preparation and initiation have been shown to involve large scale brain networks. Recent findings suggest that movement preparation and initiation are represented in functionally distinct cortical networks. In electroencephalographic...