Assessment of electric field distribution in anisotropic cortical and subcortical regions under the influence of tDCS
出版年份 2013 全文链接
标题
Assessment of electric field distribution in anisotropic cortical and subcortical regions under the influence of tDCS
作者
关键词
-
出版物
BIOELECTROMAGNETICS
Volume 35, Issue 1, Pages 41-57
出版商
Wiley
发表日期
2013-10-12
DOI
10.1002/bem.21814
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- Electric field and current density distribution in an anatomical head model during transcranial direct current stimulation for tinnitus treatment
- (2012) Marta Parazzini et al. BIOELECTROMAGNETICS
- Numerical investigation of white matter anisotropic conductivity in defining current distribution under tDCS
- (2012) Salman Shahid et al. COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE
- tDCS-Induced Analgesia and Electrical Fields in Pain-Related Neural Networks in Chronic Migraine
- (2012) Alexandre F. DaSilva et al. HEADACHE
- Single-Layer Skull Approximations Perform Well in Transcranial Direct Current Stimulation Modeling
- (2012) Sumientra M. Rampersad et al. IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING
- Effects of model complexity and tissue anisotropic conductivity on cortical modulation during transcranial direct current stimulation
- (2012) S. Shahid et al. IET Science Measurement & Technology
- The electric field in the cortex during transcranial current stimulation
- (2012) Pedro Cavaleiro Miranda et al. NEUROIMAGE
- Influence of anisotropic conductivity in the skull and white matter on transcranial direct current stimulation via an anatomically realistic finite element head model
- (2012) Hyun Sang Suh et al. PHYSICS IN MEDICINE AND BIOLOGY
- Evaluation of local electric fields generated by transcranial direct current stimulation with an extracephalic reference electrode based on realistic 3D body modeling
- (2012) Chang-Hwan Im et al. PHYSICS IN MEDICINE AND BIOLOGY
- Modulating cortico-striatal and thalamo-cortical functional connectivity with transcranial direct current stimulation
- (2011) Rafael Polanía et al. HUMAN BRAIN MAPPING
- Transcranial Direct Current Stimulation: Estimation of the Electric Field and of the Current Density in an Anatomical Human Head Model
- (2011) M Parazzini et al. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
- NTU-90: A high angular resolution brain atlas constructed by q-space diffeomorphic reconstruction
- (2011) Fang-Cheng Yeh et al. NEUROIMAGE
- Effects of transcranial direct current stimulation (tDCS) on human regional cerebral blood flow
- (2011) Xin Zheng et al. NEUROIMAGE
- A Bayesian model of shape and appearance for subcortical brain segmentation
- (2011) Brian Patenaude et al. NEUROIMAGE
- Transcranial direct current stimulation over the primary motor cortex during fMRI
- (2011) Andrea Antal et al. NEUROIMAGE
- How Local Is the Local Field Potential?
- (2011) Yoshinao Kajikawa et al. NEURON
- Electrode Positioning and Montage in Transcranial Direct Current Stimulation
- (2011) Alexandre F. DaSilva et al. Jove-Journal of Visualized Experiments
- Effect of tDCS with an extracephalic reference electrode on cardio-respiratory and autonomic functions
- (2010) Yves Vandermeeren et al. BMC NEUROSCIENCE
- Electrode montages for tDCS and weak transcranial electrical stimulation: Role of “return” electrode’s position and size
- (2010) M. Bikson et al. CLINICAL NEUROPHYSIOLOGY
- Cutaneous perception during tDCS: Role of electrode shape and sponge salinity
- (2010) Preet Minhas et al. CLINICAL NEUROPHYSIOLOGY
- An Evaluation of the Conductivity Profile in the Somatosensory Barrel Cortex of Wistar Rats
- (2010) Takakuni Goto et al. JOURNAL OF NEUROPHYSIOLOGY
- Transcranial direct current stimulation (tDCS) in a realistic head model
- (2010) Rosalind J. Sadleir et al. NEUROIMAGE
- Electrified minds: Transcranial direct current stimulation (tDCS) and Galvanic Vestibular Stimulation (GVS) as methods of non-invasive brain stimulation in neuropsychology—A review of current data and future implications
- (2010) Kathrin S. Utz et al. NEUROPSYCHOLOGIA
- Gyri-precise head model of transcranial direct current stimulation: Improved spatial focality using a ring electrode versus conventional rectangular pad
- (2009) Abhishek Datta et al. Brain Stimulation
- What does the ratio of injected current to electrode area tell us about current density in the brain during tDCS?
- (2009) Pedro Cavaleiro Miranda et al. CLINICAL NEUROPHYSIOLOGY
- Dipole estimation errors due to not incorporating anisotropic conductivities in realistic head models for EEG source analysis
- (2009) Hans Hallez et al. PHYSICS IN MEDICINE AND BIOLOGY
- Transcranial direct current stimulation: State of the art 2008
- (2008) Michael A. Nitsche et al. Brain Stimulation
- Effect of spinal transcutaneous direct current stimulation on somatosensory evoked potentials in humans
- (2008) Filippo Cogiamanian et al. CLINICAL NEUROPHYSIOLOGY
- A New Method to Derive White Matter Conductivity From Diffusion Tensor MRI
- (2008) Kun Wang et al. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
- Transcranial current stimulation focality using disc and ring electrode configurations: FEM analysis
- (2008) Abhishek Datta et al. Journal of Neural Engineering
- Diffusion spectrum magnetic resonance imaging (DSI) tractography of crossing fibers
- (2008) V.J. Wedeen et al. NEUROIMAGE
- Transcranial direct current stimulation improves recognition memory in Alzheimer disease
- (2008) R. Ferrucci et al. NEUROLOGY
- Dipole estimation errors due to differences in modeling anisotropic conductivities in realistic head models for EEG source analysis
- (2008) Hans Hallez et al. PHYSICS IN MEDICINE AND BIOLOGY
- Determination of optimal electrode positions for transcranial direct current stimulation (tDCS)
- (2008) Chang-Hwan Im et al. PHYSICS IN MEDICINE AND BIOLOGY
- Improved naming after transcranial direct current stimulation in aphasia
- (2007) A Monti et al. JOURNAL OF NEUROLOGY NEUROSURGERY AND PSYCHIATRY
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