Opportunities and obstacles in non-invasive brain stimulation.

Journal: Frontiers in human neuroscience

Volume: 18

Issue: 

Year of Publication: 

Affiliated Institutions:  Automatic Control and Systems Engineering, Neuroscience Institute, Insigneo Institute, University of Sheffield, Sheffield, United Kingdom. Department of Brain Sciences, Imperial College London, London, United Kingdom. School of Psychology, University College Dublin, Dublin, Ireland.

Abstract summary 

Non-invasive brain stimulation (NIBS) is a complex and multifaceted approach to modulating brain activity and holds the potential for broad accessibility. This work discusses the mechanisms of the four distinct approaches to modulating brain activity non-invasively: electrical currents, magnetic fields, light, and ultrasound. We examine the dual stochastic and deterministic nature of brain activity and its implications for NIBS, highlighting the challenges posed by inter-individual variability, nebulous dose-response relationships, potential biases and neuroanatomical heterogeneity. Looking forward, we propose five areas of opportunity for future research: closed-loop stimulation, consistent stimulation of the intended target region, reducing bias, multimodal approaches, and strategies to address low sample sizes.

Authors & Co-authors:  Toth Kurtin Brosnan Arvaneh

Study Outcome 

Source Link: Visit source

Statistics
Citations :  Alagapan S., Schmidt S. L., Lefebvre J., Hadar E., Shin H. W., Fröhlich F. (2016). Modulation of cortical oscillations by low-frequency direct cortical stimulation is state-dependent. PLoS Biol. 14:e1002424. 10.1371/journal.pbio.1002424
Authors :  4
Identifiers
Doi : 1385427
SSN : 1662-5161
Study Population
Male,Female
Mesh Terms
Other Terms
FUS;TMS;TUS;brain stimulation;neurotechnology;tDCS;tES;tPBM
Study Design
Study Approach
Country of Study
Publication Country
Switzerland