The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)

The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)

Background: The dose of transcranial direct current stimulation (tDCS) is defined by electrode montage and current, while the resulting brain current flow is more complex and varies across individuals. The left dorsolateral pre-frontal cortex (lDLPFC) is a common target in neuropsychology and neurop...

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Main Authors: Ole Seibt, Andre R. Brunoni, Yu Huang, Marom Bikson
Format: Article
Language:English
Published: Elsevier 2015-05-01
Series:Brain Stimulation
Subjects:
Transcranial direct current stimulation
Finite element method
Left dorsolateral prefrontal cortex
Online Access:http://www.sciencedirect.com/science/article/pii/S1935861X1500858X
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spelling doaj-adebbb901b5e48889c5cc8c5db7dc2812021-03-18T04:40:58ZengElsevierBrain Stimulation1935-861X2015-05-0183590602The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)Ole Seibt0Andre R. Brunoni1Yu Huang2Marom Bikson3Department of Medical Technology, Technische Universität Berlin, Berlin, Germany; Department of Biomedical Engineering, The City College of City University of New York, New York, NY, USA; Corresponding author. Neural Engineering Laboratory, Department of Biomedical Engineering, The City College of New York of CUNY, T-463 Steinman Hall, 160 Convent Avenue, New York, NY 10031, USA. Tel.: +1 212 650 8653.Department and Institute of Psychiatry, University of São Paulo, São Paulo, BrazilDepartment of Biomedical Engineering, The City College of City University of New York, New York, NY, USADepartment of Biomedical Engineering, The City College of City University of New York, New York, NY, USABackground: The dose of transcranial direct current stimulation (tDCS) is defined by electrode montage and current, while the resulting brain current flow is more complex and varies across individuals. The left dorsolateral pre-frontal cortex (lDLPFC) is a common target in neuropsychology and neuropsychiatry applications, with varied approaches used to experimentally position electrodes on subjects. Objective: To predict brain current flow intensity and distribution using conventional symmetrical bicephalic frontal 1 × 1 electrode montages to nominally target lDLPFC in forward modeling studies. Methods: Six high-resolution Finite Element Method (FEM) models were created from five subjects of varied head size and an MNI standard. Seven electrode positioning methods, nominally targeting lDLPFC, were investigated on each head model: the EEG 10-10 including F3-F4, F5-F6, F7-8, F9-F10, the Beam F3-System, the 5-5 cm-Rule and the developed OLE-System were evaluated as electrode positioning methods for 5 × 5 cm2 rectangular sponge-pad electrodes. Results: Each positioning approach resulted in distinct electrode positions on the scalp and variations in brain current flow. Variability was significant, but trends across montages and between subjects were identified. Factors enhancing electric field intensity and relative targeting in lDLPFC include increased inter-electrode distance and proximity to thinner skull structures. Conclusion: Brain current flow can be shaped, but not focused, across frontal cortex by tDCS montages, including intensity at lDLPFC. The OLE-system balances lDLPFC targeting and reduced electric field variability, along with clinical ease-of-use.http://www.sciencedirect.com/science/article/pii/S1935861X1500858XTranscranial direct current stimulationFinite element methodLeft dorsolateral prefrontal cortex
collection DOAJ
language English
format Article
sources DOAJ
author Ole Seibt
Andre R. Brunoni
Yu Huang
Marom Bikson
spellingShingle Ole Seibt
Andre R. Brunoni
Yu Huang
Marom Bikson
The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
Brain Stimulation
Transcranial direct current stimulation
Finite element method
Left dorsolateral prefrontal cortex
author_facet Ole Seibt
Andre R. Brunoni
Yu Huang
Marom Bikson
author_sort Ole Seibt
title The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
title_short The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
title_full The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
title_fullStr The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
title_full_unstemmed The Pursuit of DLPFC: Non-neuronavigated Methods to Target the Left Dorsolateral Pre-frontal Cortex With Symmetric Bicephalic Transcranial Direct Current Stimulation (tDCS)
title_sort pursuit of dlpfc: non-neuronavigated methods to target the left dorsolateral pre-frontal cortex with symmetric bicephalic transcranial direct current stimulation (tdcs)
publisher Elsevier
series Brain Stimulation
issn 1935-861X
publishDate 2015-05-01
description Background: The dose of transcranial direct current stimulation (tDCS) is defined by electrode montage and current, while the resulting brain current flow is more complex and varies across individuals. The left dorsolateral pre-frontal cortex (lDLPFC) is a common target in neuropsychology and neuropsychiatry applications, with varied approaches used to experimentally position electrodes on subjects. Objective: To predict brain current flow intensity and distribution using conventional symmetrical bicephalic frontal 1 × 1 electrode montages to nominally target lDLPFC in forward modeling studies. Methods: Six high-resolution Finite Element Method (FEM) models were created from five subjects of varied head size and an MNI standard. Seven electrode positioning methods, nominally targeting lDLPFC, were investigated on each head model: the EEG 10-10 including F3-F4, F5-F6, F7-8, F9-F10, the Beam F3-System, the 5-5 cm-Rule and the developed OLE-System were evaluated as electrode positioning methods for 5 × 5 cm2 rectangular sponge-pad electrodes. Results: Each positioning approach resulted in distinct electrode positions on the scalp and variations in brain current flow. Variability was significant, but trends across montages and between subjects were identified. Factors enhancing electric field intensity and relative targeting in lDLPFC include increased inter-electrode distance and proximity to thinner skull structures. Conclusion: Brain current flow can be shaped, but not focused, across frontal cortex by tDCS montages, including intensity at lDLPFC. The OLE-system balances lDLPFC targeting and reduced electric field variability, along with clinical ease-of-use.
topic Transcranial direct current stimulation
Finite element method
Left dorsolateral prefrontal cortex
url http://www.sciencedirect.com/science/article/pii/S1935861X1500858X
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