TY - JOUR
T1 - Current progress in real-time functional magnetic resonance-based neurofeedback
T2 - Methodological challenges and achievements
AU - Paret, Christian
AU - Goldway, Noam
AU - Zich, Catharina
AU - Keynan, Jackob Nimrod
AU - Hendler, Talma
AU - Linden, David
AU - Kadosh, Kathrin Cohen
N1 - Funding Information:
CP received funding from the German Research Foundation (DFG PA 3107/1-1 ). KCK, TH and DEJL are supported by the BRAINTRAIN Collaborative Project, supported by the European Commission, under the Health Cooperation Work Programme of the 7th Framework Programme , under the Grant Agreement n° 602186 .
Publisher Copyright:
© 2019
PY - 2019/11/15
Y1 - 2019/11/15
N2 - Neurofeedback (NF) is a research and clinical technique, characterized by live demonstration of brain activation to the subject. The technique has become increasingly popular as a tool for the training of brain self-regulation, fueled by the superiority in spatial resolution and fidelity brought along with real-time analysis of fMRI (functional magnetic resonance imaging) data, compared to the more traditional EEG (electroencephalography) approach. NF learning is a complex phenomenon and a controversial discussion on its feasibility and mechanisms has arisen in the literature. Critical aspects of the design of fMRI-NF studies include the localization of neural targets, cognitive and operant aspects of the training procedure, personalization of training, and the definition of training success, both through neural effects and (for studies with therapeutic aims) through clinical effects. In this paper, we argue that a developmental perspective should inform neural target selection particularly for pediatric populations, and different success metrics may allow in-depth analysis of NF learning. The relevance of the functional neuroanatomy of NF learning for brain target selection is discussed. Furthermore, we address controversial topics such as the role of strategy instructions, sometimes given to subjects in order to facilitate learning, and the timing of feedback. Discussion of these topics opens sight on problems that require further conceptual and empirical work, in order to improve the impact that fMRI-NF could have on basic and applied research in future.
AB - Neurofeedback (NF) is a research and clinical technique, characterized by live demonstration of brain activation to the subject. The technique has become increasingly popular as a tool for the training of brain self-regulation, fueled by the superiority in spatial resolution and fidelity brought along with real-time analysis of fMRI (functional magnetic resonance imaging) data, compared to the more traditional EEG (electroencephalography) approach. NF learning is a complex phenomenon and a controversial discussion on its feasibility and mechanisms has arisen in the literature. Critical aspects of the design of fMRI-NF studies include the localization of neural targets, cognitive and operant aspects of the training procedure, personalization of training, and the definition of training success, both through neural effects and (for studies with therapeutic aims) through clinical effects. In this paper, we argue that a developmental perspective should inform neural target selection particularly for pediatric populations, and different success metrics may allow in-depth analysis of NF learning. The relevance of the functional neuroanatomy of NF learning for brain target selection is discussed. Furthermore, we address controversial topics such as the role of strategy instructions, sometimes given to subjects in order to facilitate learning, and the timing of feedback. Discussion of these topics opens sight on problems that require further conceptual and empirical work, in order to improve the impact that fMRI-NF could have on basic and applied research in future.
KW - BCI
KW - Developmental cognitive neuroscience
KW - Multivariate pattern analysis
KW - Real-time fMRI
KW - Neurofeedback
KW - Translational research
KW - Review
KW - BRAIN-COMPUTER INTERFACE
KW - LARGE-SCALE BRAIN
KW - FMRI NEUROFEEDBACK
KW - EMOTION-REGULATION
KW - CORTEX ACTIVITY
KW - SELF-REGULATION
KW - EFFECTIVE CONNECTIVITY
KW - IMAGING NEUROFEEDBACK
KW - INDIVIDUAL-DIFFERENCES
KW - ANTERIOR INSULA
U2 - 10.1016/j.neuroimage.2019.116107
DO - 10.1016/j.neuroimage.2019.116107
M3 - Article
C2 - 31437551
SN - 1053-8119
VL - 202
JO - Neuroimage
JF - Neuroimage
M1 - 116107
ER -