Authors
Ying Liu, Hao Chen, Suhui Chen, Liangjiecheng Huang, Zhiying Jin, Xuanqi Guo, Xiaofeng Jiang, Ying Wang
https://doi.org/10.2147/JPR.S547405Abstract
Objective:
Repetitive transcranial magnetic stimulation (rTMS) has been suggested to possess analgesic properties, yet its efficacy in treating trigeminal neuralgia (TN) remains uncertain.
Methods:
In this randomized, double-blind trial, thirty-four patients were randomly allocated to one of three groups: active M1- targeted rTMS, sham stimulation, or active stimulation of the dorsolateral prefrontal cortex (dlPFC) as a control. The treatment protocol spanned two weeks, consisting of two 5-day stimulation sessions separated by a 2-day interval. MRI and clinical outcomes (VAS, Hamilton Anxiety/Depression Scales) were assessed pre-/post-intervention and at one-month follow-up.
Results:
Significant reductions in pain, anxiety, and depression occurred across all groups. Neuroimaging revealed decreased insular cortex activation universally, while increased frontal lobe activity emerged specifically in sham and control groups. Notably, no intergroup differences in clinical outcomes were observed despite distinct neural pathways, specifically involving the insula rather than the prefrontal cortex.
Conclusion:
In the active rTMS group, clinical improvements were associated with modulation of the insula, reflecting targeted neurophysiological effects. In contrast, improvements in the sham group were linked to increased prefrontal and orbitofrontal cortex activation, consistent with placebo-related mechanisms. Significance: This study unveils the critical role of cognitive-emotional pathways in rTMS efficacy, urging integration of neurobio- logical and psychological strategies for TN therapies. Plain Language Summary: 1. All groups showed pain reduction in TN, revealing strong placebo effects in rTMS treatment. 2. rTMS decreased insula (pain) but increased prefrontal activity (anticipation), showing dual pain control. 3. Highlights rTMS’s dual action on brain pain networks and cognitive modulation.