Cortical plasticity in episodic and chronic cluster headache.

Steffen Naegel,Nathalie Desmarattes,Hans-Christoph Diener,Nina Theysohn,Dagny Holle,Mark Obermann,Zaza Katsarava

doi:10.1016/j.nicl.2014.10.003

Steffen Naegel, Nathalie Desmarattes + Show 5 more

Open Access

https://doi.org/10.1016/j.nicl.2014.10.003

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Abstract

Cluster headache (CH) is characterized by recurrent episodes of excruciatingly painful, unilateral headache attacks typically accompanied by trigeminal autonomic symptoms. Due to its rhythm with alternating episodes of pain and no-pain, it is an excellent model to investigate whether structural brain changes detected by magnetic resonance based voxel-based-morphometry (VBM) reflect the cause of the disease, may be a consequence of the underlying disease other than pain, or may simply be caused by the sensation of pain itself. We investigated 91 patients with CH in different stages of their disease using VBM and compared them to 78 age- and gender-matched healthy controls. We detected distinct regional gray matter (GM) changes in different brain regions including the temporal lobe, the hippocampus, the insular cortex and the cerebellum. The extent, location and direction of observed GM alterations depended on the state of disease and appeared dynamic in relation to pain state (i.e., pain vs. no-pain). No hypothalamic changes were detected in CH patients compared to healthy controls. The GM changes observed in this study are highly dynamic and thereby reflect the cortical plasticity of the brain in regard to pain. This observed dynamic may provide an explanation of the diverse results of previous VBM studies in pain. Regarding CH the results suggest that the disease is more likely to be caused by a network dysfunction rather than by a single malfunctioning structure.

Highlights

In contrast to the former belief of a static adult brain without structural changes past full development, considerable plasticity of the adult brain has been well described
Cluster headache (CH) as primary headache disorder with strict circannual and circadian rhythm of headache attacks and symptom free episodes is a promising model condition to differentiate structural brain changes primarily related to the headache disorder itself from changes caused by the sensation of pain in general
10–20% of all CH patients suffer from cCH (Headache Classification Committee of the International Headache Society, 1988)

Summary

Introduction

In contrast to the former belief of a static adult brain without structural changes past full development, considerable plasticity of the adult brain has been well described now. In contrast to the former belief of a static adult brain without structural changes past full development, considerable plasticity of the adult brain has been well described This applies to changes caused by training and learning, and was shown for many other external influences. In regard to pain and headache, numerous studies showed structural brain changes in different conditions that were reversible in parallel to the cessation of pain (Obermann et al, 2009; Rodriguez-Raecke et al, 2009; Gwilym et al, 2010). 10–20% of all CH patients suffer from cCH (Headache Classification Committee of the International Headache Society, 1988)

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