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Items: 1 to 20 of 94

1.

Modelling the effect of electrode displacement on transcranial direct current stimulation (tDCS).

Ramaraju S, Roula MA, McCarthy PW.

J Neural Eng. 2018 Feb;15(1):016019. doi: 10.1088/1741-2552/aa8d8a.

PMID:
28925375
2.

Use of Computational Modeling to Inform tDCS Electrode Montages for the Promotion of Language Recovery in Post-stroke Aphasia.

Galletta EE, Cancelli A, Cottone C, Simonelli I, Tecchio F, Bikson M, Marangolo P.

Brain Stimul. 2015 Nov-Dec;8(6):1108-15. doi: 10.1016/j.brs.2015.06.018. Epub 2015 Jul 2.

PMID:
26198364
3.

State-of-art neuroanatomical target analysis of high-definition and conventional tDCS montages used for migraine and pain control.

DaSilva AF, Truong DQ, DosSantos MF, Toback RL, Datta A, Bikson M.

Front Neuroanat. 2015 Jul 15;9:89. doi: 10.3389/fnana.2015.00089. eCollection 2015.

4.

Effects of Cathode Location and the Size of Anode on Anodal Transcranial Direct Current Stimulation Over the Leg Motor Area in Healthy Humans.

Foerster ÁS, Rezaee Z, Paulus W, Nitsche MA, Dutta A.

Front Neurosci. 2018 Jul 4;12:443. doi: 10.3389/fnins.2018.00443. eCollection 2018.

5.

The electric field distributions in anatomical head models during transcranial direct current stimulation for post-stroke rehabilitation.

Manoli Z, Parazzini M, Ravazzani P, Samaras T.

Med Phys. 2017 Jan;44(1):262-271. doi: 10.1002/mp.12006. Epub 2017 Jan 3.

PMID:
28044315
6.

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

Seibt O, Brunoni AR, Huang Y, Bikson M.

Brain Stimul. 2015 May-Jun;8(3):590-602. doi: 10.1016/j.brs.2015.01.401. Epub 2015 Jan 16.

PMID:
25862601
7.

Low Intensity Focused tDCS Over the Motor Cortex Shows Inefficacy to Improve Motor Imagery Performance.

Angulo-Sherman IN, Rodríguez-Ugarte M, Iáñez E, Azorín JM.

Front Neurosci. 2017 Jul 6;11:391. doi: 10.3389/fnins.2017.00391. eCollection 2017.

8.

Automatic M1-SO Montage Headgear for Transcranial Direct Current Stimulation (TDCS) Suitable for Home and High-Throughput In-Clinic Applications.

Knotkova H, Riggs A, Berisha D, Borges H, Bernstein H, Patel V, Truong DQ, Unal G, Arce D, Datta A, Bikson M.

Neuromodulation. 2018 May 15. doi: 10.1111/ner.12786. [Epub ahead of print]

PMID:
29762886
9.

Testing assumptions on prefrontal transcranial direct current stimulation: Comparison of electrode montages using multimodal fMRI.

Wörsching J, Padberg F, Goerigk S, Heinz I, Bauer C, Plewnia C, Hasan A, Ertl-Wagner B, Keeser D.

Brain Stimul. 2018 Sep - Oct;11(5):998-1007. doi: 10.1016/j.brs.2018.05.001. Epub 2018 May 4.

PMID:
29759944
10.

A pilot study of alternative transcranial direct current stimulation electrode montages for the treatment of major depression.

Ho KA, Bai S, Martin D, Alonzo A, Dokos S, Puras P, Loo CK.

J Affect Disord. 2014;167:251-8. doi: 10.1016/j.jad.2014.06.022. Epub 2014 Jun 18.

PMID:
24998841
11.

Effects of Electrode Drift in Transcranial Direct Current Stimulation.

Woods AJ, Bryant V, Sacchetti D, Gervits F, Hamilton R.

Brain Stimul. 2015 May-Jun;8(3):515-9. doi: 10.1016/j.brs.2014.12.007. Epub 2014 Dec 24.

12.

Safety parameter considerations of anodal transcranial Direct Current Stimulation in rats.

Jackson MP, Truong D, Brownlow ML, Wagner JA, McKinley RA, Bikson M, Jankord R.

Brain Behav Immun. 2017 Aug;64:152-161. doi: 10.1016/j.bbi.2017.04.008. Epub 2017 Apr 17.

13.

Physiological and modeling evidence for focal transcranial electrical brain stimulation in humans: a basis for high-definition tDCS.

Edwards D, Cortes M, Datta A, Minhas P, Wassermann EM, Bikson M.

Neuroimage. 2013 Jul 1;74:266-75. doi: 10.1016/j.neuroimage.2013.01.042. Epub 2013 Jan 28.

14.

A computational modelling study of transcranial direct current stimulation montages used in depression.

Bai S, Dokos S, Ho KA, Loo C.

Neuroimage. 2014 Feb 15;87:332-44. doi: 10.1016/j.neuroimage.2013.11.015. Epub 2013 Nov 15.

PMID:
24246487
15.

Effect of Aging on Cortical Current Flow Due to Transcranial Direct Current Stimulation: Considerations for Safety.

Thomas C, Datta A, Woods A.

Conf Proc IEEE Eng Med Biol Soc. 2018 Jul;2018:3084-3087. doi: 10.1109/EMBC.2018.8513014.

PMID:
30441046
16.

Comparison of cephalic and extracephalic montages for transcranial direct current stimulation--a numerical study.

Noetscher GM, Yanamadala J, Makarov SN, Pascual-Leone A.

IEEE Trans Biomed Eng. 2014 Sep;61(9):2488-98.

PMID:
25014947
17.

Effects of the Electrode Type on N100 and P300 in tDCS Applications.

Lee JW, Yoon SW, Park WS, Heo M, Lee DG, Jeong SK.

J Phys Ther Sci. 2014 Sep;26(9):1441-3. doi: 10.1589/jpts.26.1441. Epub 2014 Sep 17.

18.

Effect of tDCS with an extracephalic reference electrode on cardio-respiratory and autonomic functions.

Vandermeeren Y, Jamart J, Ossemann M.

BMC Neurosci. 2010 Mar 16;11:38. doi: 10.1186/1471-2202-11-38.

19.

Transcranial DC stimulation in fibromyalgia: optimized cortical target supported by high-resolution computational models.

Mendonca ME, Santana MB, Baptista AF, Datta A, Bikson M, Fregni F, Araujo CP.

J Pain. 2011 May;12(5):610-7. doi: 10.1016/j.jpain.2010.12.015. Epub 2011 Apr 15.

PMID:
21497140
20.

Transcranial direct current stimulation improves isometric time to exhaustion of the knee extensors.

Angius L, Pageaux B, Hopker J, Marcora SM, Mauger AR.

Neuroscience. 2016 Dec 17;339:363-375. doi: 10.1016/j.neuroscience.2016.10.028. Epub 2016 Oct 14.

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