4.7 Article

Repetitive non-invasive prefrontal stimulation reverses neuropathic pain via neural remodelling in mice

Journal

PROGRESS IN NEUROBIOLOGY
Volume 201, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.pneurobio.2021.102009

Keywords

Cortical plasticity; GABAergic neurons; Anterior cingulate cortex; Insula cortex; Nerve injury

Categories

Funding

  1. Deutsche Forschungsgemeinschaft [SFB1158]
  2. Baden-Wurttemberg Foundation
  3. Union Hospital, Tongji Medical college, Huazhong University of Science and Technology
  4. China Scholarship Council
  5. Studienstiftung des Deutschen Volkes (German National Merit Program)
  6. German Research Foundation (DFG) [INST 35/1314 1 FUGG, INST 35/1503 1 FUGG]
  7. Ministry of Science, Research and the Arts Baden-Wurttemberg (MWK) [INST 35/1314 1 FUGG, INST 35/1503 1 FUGG]

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Non-invasive, repetitive direct anodal current transcranial stimulation of the prefrontal cortex exerted long-lasting analgesic effects in mice with neuropathic pain, reversing established allodynia and affecting basal activity and responsiveness of distant areas. The study provides valuable insights into the neural mechanisms of prefrontal tDCS in neuropathic pain, highlighting the potential for non-invasive transcranial stimulation paradigms to achieve pain relief in chronic states.
Chronic neuropathic pain presents a major challenge to pharmacological therapy and neurostimulation-based alternatives are gaining interest. Although invasive and non-invasive motor cortex stimulation has been the focus of several studies, very little is known about the potential of targeting the prefrontal cortex. This study was designed to elucidate the analgesic potential of prefrontal stimulation in a translational context and to uncover the neural underpinnings thereof. Here, we report that non-invasive, repetitive direct anodal current transcranial stimulation (tDCS) of the prefrontal cortex exerted analgesia in mice with neuropathic pain for longer than a week. When applied at chronic stages of neuropathic pain, prefrontal tDCS reversed established allodynia and suppressed aversion and anxiety-related behaviours. Activity mapping as well as in vivo electrophysiological analyses revealed that although the cortex responds to acute tDCS with major excitation, repetitive prefrontal tDCS brings about largescale silencing of cortical activity. Different classes of different classes of GABAergic interneurons and classes of excitatory neurons differs dramatically between single, acute vs and repetitive tDCS. Repetitive prefrontal tDCS alters basal activity as well as responsivity of a discrete set of distant cortical and sub-cortical areas to tactile stimuli, namely the rostral anterior cingulate cortex, the insular cortex, the ventrolateral periaqueductal grey and the spinal dorsal horn. This study thus makes a strong case for harnessing prefrontal cortical modulation for non-invasive transcranial stimulation paradigms to achieve long-lasting pain relief in established neuropathic pain states and provides valuable insights gained on neural mechanistic underpinnings of prefrontal tDCS in neuropathic pain.

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