EEG in Neurorehabilitation: A Bibliometric Analysis and Content Review

Athanasia Tsiamalou; Efthimios Dardiotis; Konstantinos Paterakis; George Fotakopoulos; Ioannis Liampas; Markos Sgantzos; Vasileios Siokas; Alexandros G Brotis

doi:10.3390/neurolint14040084

EEG in Neurorehabilitation: A Bibliometric Analysis and Content Review

Neurol Int. 2022 Dec 16;14(4):1046-1061. doi: 10.3390/neurolint14040084.

Authors

Athanasia Tsiamalou¹, Efthimios Dardiotis^{1

2}, Konstantinos Paterakis^{1

3}, George Fotakopoulos³, Ioannis Liampas^{1

2}, Markos Sgantzos^{1

2}, Vasileios Siokas^{1

2}, Alexandros G Brotis³

Affiliations

¹ Faculty of Medicine, School of Health Sciences, University of Thessaly, 41334 Larissa, Greece.
² Department of Neurology, General University Hospital of Larissa, 41110 Larissa, Greece.
³ Department of Neurosurgery, General University Hospital of Larissa, 41110 Larissa, Greece.

Abstract

Background: There is increasing interest in the role of EEG in neurorehabilitation. We primarily aimed to identify the knowledge base through highly influential studies. Our secondary aims were to imprint the relevant thematic hotspots, research trends, and social networks within the scientific community.

Methods: We performed an electronic search in Scopus, looking for studies reporting on rehabilitation in patients with neurological disabilities. We used the most influential papers to outline the knowledge base and carried out a word co-occurrence analysis to identify the research hotspots. We also used depicted collaboration networks between universities, authors, and countries after analyzing the cocitations. The results were presented in summary tables, plots, and maps. Finally, a content review based on the top-20 most cited articles completed our study.

Results: Our current bibliometric study was based on 874 records from 420 sources. There was vivid research interest in EEG use for neurorehabilitation, with an annual growth rate as high as 14.3%. The most influential paper was the study titled "Brain-computer interfaces, a review" by L.F. Nicolas-Alfonso and J. Gomez-Gill, with 997 citations, followed by "Brain-computer interfaces in neurological rehabilitation" by J. Daly and J.R. Wolpaw (708 citations). The US, Italy, and Germany were among the most productive countries. The research hotspots shifted with time from the use of functional magnetic imaging to EEG-based brain-machine interface, motor imagery, and deep learning.

Conclusions: EEG constitutes the most significant input in brain-computer interfaces (BCIs) and can be successfully used in the neurorehabilitation of patients with stroke symptoms, amyotrophic lateral sclerosis, and traumatic brain and spinal injuries. EEG-based BCI facilitates the training, communication, and control of wheelchair and exoskeletons. However, research is limited to specific scientific groups from developed countries. Evidence is expected to change with the broader availability of BCI and improvement in EEG-filtering algorithms.

Keywords: EEG; brain–machine interface; neurorehabilitation; stroke; traumatic brain injury.

Publication types

Review

Grants and funding

This research received no external funding.