About this Research Topic
The effect of tDCS on changes in brain metabolites and brain function could be determined by various technical and practical factors: (a) the size, type, arrangement, polarity and position of these electrodes; (b) the employed current intensity, repetition and duration of stimulation, (c) tissue properties in the stimulated area and d) montages. Therefore, the main goal of this special issue is to collect studies that focus on the novel technologies and methods of tDCS with cutting-edge magnetic resonance imaging or spectroscopy. It would also be favourable to gather studies that utilise new applications of the methods to investigate the effect of tDCS in humans.
This Special Issue primarily focuses on the collection of studies relating to cutting-edge methods using novel tDCS with MRI and/or MRS for human brain research. We cordially invite researchers to contribute their high-quality original research papers or systematic reviews on the topics stated below for publication in this Special Issue:
- Novel tDCS techniques, e.g. High-definition tDCS or remotely-supervised tDCS
- Advanced methods to simulate the tDCS effects;
- Cutting-edge multimodal approaches using MRI and MRS with tDCS;
- New methodologies and applications to investigate, for example, brain functions, plasticity and connectivity and clinical and therapeutical usages
Keywords: Transcranial direct current stimulation, Brain, MRI, MRS, Connectivity, Plasticity, Neurometabolites
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.