Frontiers in Behavioral Neuroscience (Jan 2022)

Regular Practice of Autogenic Training Reduces Migraine Frequency and Is Associated With Brain Activity Changes in Response to Fearful Visual Stimuli

  • Dóra Dobos,
  • Dóra Dobos,
  • Edina Szabó,
  • Edina Szabó,
  • Edina Szabó,
  • Dániel Baksa,
  • Dániel Baksa,
  • Kinga Gecse,
  • Kinga Gecse,
  • Natália Kocsel,
  • Natália Kocsel,
  • Dorottya Pap,
  • Terézia Zsombók,
  • Lajos R. Kozák,
  • Gyöngyi Kökönyei,
  • Gyöngyi Kökönyei,
  • Gyöngyi Kökönyei,
  • Gabriella Juhász,
  • Gabriella Juhász,
  • Gabriella Juhász,
  • Gabriella Juhász

DOI
https://doi.org/10.3389/fnbeh.2021.780081
Journal volume & issue
Vol. 15

Abstract

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Several factors can contribute to the development and chronification of migraines, including stress, which is undoubtedly a major trigger. Beyond pharmacotherapy, other treatment methods also exist, including behavioral techniques aiming at reducing patients’ stress response. However, the exact brain mechanisms underlying the efficacy of such methods are poorly understood. Our pilot study examined whether the regular practice of autogenic training (AT) induces functional brain changes and if so, how it could be associated with the improvement of migraine parameters. By exploring neural changes through which AT exerts its effect, we can get closer to the pathomechanism of migraine. In particular, we investigated the effect of a headache-specific AT on brain activation using an implicit face emotion processing functional MRI (fMRI) task in female subjects with and without episodic migraine. Our focus was on migraine- and psychological stress-related brain regions. After a 16-week training course, migraineurs showed decreased activation in the migraine-associated dorsal pons to fearful compared with neutral visual stimuli. We also detected decreasing differences in supplementary motor area (SMA) activation to fearful stimuli, and in posterior insula activation to happy stimuli between healthy subjects and migraineurs. Furthermore, migraineurs reported significantly less migraine attacks. These brain activation changes suggest that AT may influence the activity of brain regions responsible for emotion perception, emotional and motor response integration, as well as cognitive control, while also being able to diminish the activation of regions that have an active role in migraine attacks. Improvements induced by the training and the underlying neurophysiological mechanisms are additional arguments in favor of evidence-based personalized behavioral therapies.

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