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期刊名:Brain stimulation

缩写:BRAIN STIMUL

ISSN:1935-861X

e-ISSN:1876-4754

IF/分区:9.7/Q1

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共收录本刊相关文章索引3033
Clinical Trial Case Reports Meta-Analysis RCT Review Systematic Review
Classical Article Case Reports Clinical Study Clinical Trial Clinical Trial Protocol Comment Comparative Study Editorial Guideline Letter Meta-Analysis Multicenter Study Observational Study Randomized Controlled Trial Review Systematic Review
Harry Tran,Biswaranjan Mohanty,Noah Hjelle et al. Harry Tran et al.
Background: In Parkinson's disease, motor network electrophysiology frequently exhibits excessive beta oscillations. The cornerstone of therapeutic efficacy lies in the ability to modulate these pathological oscillations....
I Rembado,M Ravan,M Akerman et al. I Rembado et al.
Stimulation of sensory vagal pathways is typically delivered via invasive, cervical vagus nerve stimulation (cVNS) or noninvasive, trans-auricular nerve stimulation (taNS). While both methods are investigated therapeutically, their effects ...
Jessica L Myatt,Robert Toth,Timothy Denison et al. Jessica L Myatt et al.
Theta and gamma oscillations are prominent features of cortical local field potentials (LFPs) and stimulation of the motor cortex at these frequencies can enhance motor learning. Phase-targeted closed-loop stimulation could provide a more p...
Ying Zhang,Qiang Zhang,Yuxuan Yang et al. Ying Zhang et al.
Background: Electroconvulsive therapy (ECT) remains a highly effective intervention for acute episodes of major depressive disorder, offering rapid and robust antidepressant effects. However, its underlying mechanisms rem...
Joey P A J Verdijk,Tonia A L van Dijk-Schouten,Julia C M Pottkämper et al. Joey P A J Verdijk et al.
Background: Electroconvulsive therapy (ECT) is effective in depression, but associated with postictal agitation. Mechanisms of postictal symptoms are largely unclear. We studied whether postictal symptoms are related to i...
Omid Yaghmazadeh,Leeor Alon,Tanzil M Arefin et al. Omid Yaghmazadeh et al.
Background: Achieving non-invasive, targeted modulation of deep brain tissue remains a major challenge in neurotechnology. Current non-invasive brain stimulation methods-such as transcranial electrical (TES), magnetic (TM...