Baeken Chris, De Raedt Rudi
Department of Psychiatry and Center for Neurosciences, Vrije Universiteit Brussel (VUB), Brussels, Belgium.
Dialogues Clin Neurosci. 2011;13(1):139-45. doi: 10.31887/DCNS.2011.13.1/cbaeken.
For nearly two decades now, transcranial magnetic stimulation (TMS) has been available as a noninvasive clinical tool to treat patients suffering from major depression. In this period, a bulk of animal and human studies examined TMS parameters to improve clinical outcome. However, the neurobiological mechanisms underlying mood changes remain an important focus of research. In addition to having an effect on neuroendocrinological processes, neurotransmitter systems, and neurotrophic factors, TMS may not only affect the stimulated cortical regions, but also those connected to them. Therefore, we will review current human data on possible neurobiological mechanisms of repetitive (r) TMS implicated in the deregulated neurocircuitry present in unipolar depression. Furthermore, as the rTMS application can be considered as a "top-down" neuronal intervention, we will focus on the neuronal pathways linked with the stimulated area and we will present an integrative model of action.
近二十年来,经颅磁刺激(TMS)一直作为一种非侵入性临床工具,用于治疗重度抑郁症患者。在此期间,大量动物和人体研究对TMS参数进行了研究,以改善临床疗效。然而,情绪变化背后的神经生物学机制仍然是研究的重要焦点。除了对神经内分泌过程、神经递质系统和神经营养因子产生影响外,TMS不仅可能影响受刺激的皮质区域,还可能影响与之相连的区域。因此,我们将回顾目前关于重复(r)TMS可能的神经生物学机制的人体数据,这些机制与单相抑郁症中失调的神经回路有关。此外,由于rTMS应用可被视为一种“自上而下”的神经元干预,我们将重点关注与受刺激区域相关的神经元通路,并提出一个综合作用模型。