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Items: 1 to 20 of 104

1.

Global connectivity and local excitability changes underlie antidepressant effects of repetitive transcranial magnetic stimulation.

Eshel N, Keller CJ, Wu W, Jiang J, Mills-Finnerty C, Huemer J, Wright R, Fonzo GA, Ichikawa N, Carreon D, Wong M, Yee A, Shpigel E, Guo Y, McTeague L, Maron-Katz A, Etkin A.

Neuropsychopharmacology. 2020 Feb 13. doi: 10.1038/s41386-020-0633-z. [Epub ahead of print]

PMID:
32053828
2.

Association of Repetitive Transcranial Magnetic Stimulation Treatment With Subgenual Cingulate Hyperactivity in Patients With Major Depressive Disorder: A Secondary Analysis of a Randomized Clinical Trial.

Hadas I, Sun Y, Lioumis P, Zomorrodi R, Jones B, Voineskos D, Downar J, Fitzgerald PB, Blumberger DM, Daskalakis ZJ.

JAMA Netw Open. 2019 Jun 5;2(6):e195578. doi: 10.1001/jamanetworkopen.2019.5578.

3.

Frontostriatal Connectivity Changes in Major Depressive Disorder After Repetitive Transcranial Magnetic Stimulation: A Randomized Sham-Controlled Study.

Kang JI, Lee H, Jhung K, Kim KR, An SK, Yoon KJ, Kim SI, Namkoong K, Lee E.

J Clin Psychiatry. 2016 Sep;77(9):e1137-e1143. doi: 10.4088/JCP.15m10110.

PMID:
27379563
4.

Changes in brain connectivity during a sham-controlled, transcranial magnetic stimulation trial for depression.

Taylor SF, Ho SS, Abagis T, Angstadt M, Maixner DF, Welsh RC, Hernandez-Garcia L.

J Affect Disord. 2018 May;232:143-151. doi: 10.1016/j.jad.2018.02.019. Epub 2018 Feb 21.

5.

Brain oscillation-synchronized stimulation of the left dorsolateral prefrontal cortex in depression using real-time EEG-triggered TMS.

Zrenner B, Zrenner C, Gordon PC, Belardinelli P, McDermott EJ, Soekadar SR, Fallgatter AJ, Ziemann U, Müller-Dahlhaus F.

Brain Stimul. 2020 Jan - Feb;13(1):197-205. doi: 10.1016/j.brs.2019.10.007. Epub 2019 Oct 12.

6.

Modulation of motor cortex excitability predicts antidepressant response to prefrontal cortex repetitive transcranial magnetic stimulation.

Oliveira-Maia AJ, Press D, Pascual-Leone A.

Brain Stimul. 2017 Jul - Aug;10(4):787-794. doi: 10.1016/j.brs.2017.03.013. Epub 2017 Mar 31.

7.

Repetitive transcranial magnetic stimulation (rTMS) of the dorsolateral prefrontal cortex reduces resting-state insula activity and modulates functional connectivity of the orbitofrontal cortex in cigarette smokers.

Li X, Du L, Sahlem GL, Badran BW, Henderson S, George MS.

Drug Alcohol Depend. 2017 May 1;174:98-105. doi: 10.1016/j.drugalcdep.2017.02.002. Epub 2017 Feb 28.

8.

Differential Effects of Left and Right Prefrontal High-Frequency Repetitive Transcranial Magnetic Stimulation on Resting-State Functional Magnetic Resonance Imaging in Healthy Individuals.

Schluter RS, Jansen JM, van Holst RJ, van den Brink W, Goudriaan AE.

Brain Connect. 2018 Mar;8(2):60-67. doi: 10.1089/brain.2017.0542.

PMID:
29237276
9.

Changes of oscillatory brain activity induced by repetitive transcranial magnetic stimulation of the left dorsolateral prefrontal cortex in healthy subjects.

Woźniak-Kwaśniewska A, Szekely D, Aussedat P, Bougerol T, David O.

Neuroimage. 2014 Mar;88:91-9. doi: 10.1016/j.neuroimage.2013.11.029. Epub 2013 Nov 21.

PMID:
24269574
10.

Changes in dorsolateral prefrontal connectivity after rTMS in treatment-resistant depression: a brain perfusion SPECT study.

Richieri R, Jouvenoz D, Verger A, Fiat P, Boyer L, Lançon C, Guedj E.

Eur J Nucl Med Mol Imaging. 2017 Jun;44(6):1051-1055. doi: 10.1007/s00259-017-3640-5. Epub 2017 Feb 3.

PMID:
28154905
11.
12.

Multimodal Imaging of Repetitive Transcranial Magnetic Stimulation Effect on Brain Network: A Combined Electroencephalogram and Functional Magnetic Resonance Imaging Study.

Chen Y, Cha YH, Li C, Shou G, Gleghorn D, Ding L, Yuan H.

Brain Connect. 2019 May;9(4):311-321. doi: 10.1089/brain.2018.0647. Epub 2019 Apr 8.

PMID:
30803271
13.

The painfulness of active, but not sham, transcranial magnetic stimulation decreases rapidly over time: results from the double-blind phase of the OPT-TMS Trial.

Borckardt JJ, Nahas ZH, Teal J, Lisanby SH, McDonald WM, Avery D, Durkalski V, Pavlicova M, Long JM, Sackeim HA, George MS.

Brain Stimul. 2013 Nov;6(6):925-8. doi: 10.1016/j.brs.2013.04.009. Epub 2013 May 21.

14.

Resting State Functional Connectivity Signature of Treatment Effects of Repetitive Transcranial Magnetic Stimulation in Mal de Debarquement Syndrome.

Yuan H, Shou G, Gleghorn D, Ding L, Cha YH.

Brain Connect. 2017 Nov;7(9):617-626. doi: 10.1089/brain.2017.0514.

15.

Resting state connectivity in alcohol dependent patients and the effect of repetitive transcranial magnetic stimulation.

Jansen JM, van Wingen G, van den Brink W, Goudriaan AE.

Eur Neuropsychopharmacol. 2015 Dec;25(12):2230-9. doi: 10.1016/j.euroneuro.2015.09.019. Epub 2015 Oct 8.

PMID:
26481907
16.

A Single Session of Repetitive Transcranial Magnetic Stimulation Over the Dorsolateral Prefrontal Cortex in Patients With Unresponsive Wakefulness Syndrome: Preliminary Results.

Naro A, Russo M, Leo A, Bramanti P, Quartarone A, Calabrò RS.

Neurorehabil Neural Repair. 2015 Aug;29(7):603-13. doi: 10.1177/1545968314562114. Epub 2014 Dec 24.

PMID:
25539781
17.

Longitudinal Changes in Depressive Circuitry in Response to Neuromodulation Therapy.

Pathak Y, Salami O, Baillet S, Li Z, Butson CR.

Front Neural Circuits. 2016 Jul 29;10:50. doi: 10.3389/fncir.2016.00050. eCollection 2016.

18.

Repetitive transcranial magnetic stimulation (rTMS) of the dorsolateral prefrontal cortex (DLPFC) during capsaicin-induced pain: modulatory effects on motor cortex excitability.

Fierro B, De Tommaso M, Giglia F, Giglia G, Palermo A, Brighina F.

Exp Brain Res. 2010 May;203(1):31-8. doi: 10.1007/s00221-010-2206-6. Epub 2010 Mar 16.

PMID:
20232062
19.

Network Mechanisms of Clinical Response to Transcranial Magnetic Stimulation in Posttraumatic Stress Disorder and Major Depressive Disorder.

Philip NS, Barredo J, van 't Wout-Frank M, Tyrka AR, Price LH, Carpenter LL.

Biol Psychiatry. 2018 Feb 1;83(3):263-272. doi: 10.1016/j.biopsych.2017.07.021. Epub 2017 Aug 8.

20.

Towards understanding rTMS mechanism of action: Stimulation of the DLPFC causes network-specific increase in functional connectivity.

Tik M, Hoffmann A, Sladky R, Tomova L, Hummer A, Navarro de Lara L, Bukowski H, Pripfl J, Biswal B, Lamm C, Windischberger C.

Neuroimage. 2017 Nov 15;162:289-296. doi: 10.1016/j.neuroimage.2017.09.022. Epub 2017 Sep 12.

PMID:
28912081

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