Distinctive alterations in the functional anatomy of the cerebral cortex in pain-sensitized osteoarthritis and fibromyalgia patients

Jesús Pujol Nuez, Laura Blanco Hinojo, Andrea Doreste, Fabiola Ojeda, Gerard Martínez-Vilavella, Víctor Pérez Solà, Juan Deus Yela, Jordi Monfort

Research output: Contribution to journalArticleResearchpeer-review

2 Citations (Scopus)

Abstract

Pain-sensitized osteoarthritis and fibromyalgia patients characteristically show nociceptive system augmented responsiveness as a common feature. However, sensitization can be originally related to the peripheral injury in osteoarthritis patients, whereas pain and bodily discomfort spontaneously occur in fibromyalgia with no apparent origin. We investigated the distinct functional repercussion of pain sensitization in the cerebral cortex in both conditions. Thirty-one pain-sensitized knee osteoarthritis patients and 38 fibromyalgia patients were compared with matched control groups. And new samples of 34 sensitized knee osteoarthritis and 63 fibromyalgia patients were used to directly compare each condition. A combined measure of local functional connectivity was estimated to map functional alterations in the cerebral cortex at rest. In osteoarthritis, weaker local connectivity was identified in the insula, which is a cortical area processing important aspects of the brain response to painful stimulation. In contrast, fibromyalgia patients showed weaker connectivity in the sensorimotor cortex extensively affecting the cortical representation of the body. In osteoarthritis, weaker insular cortex connectivity is compatible with reduced neural activity during metabolic recovery after repeated activation. In the fibromyalgia neurophysiological context, weaker connectivity may better express both reduced neural activity and increased excitability, particularly affecting the sensorimotor cortex in patients with spontaneous body pain. Such a combination is compatible with a central gain enhancement mechanism, where low sensory tolerance results from the over-amplification of central sensory reception to compensate a presumably weak sensory input. We propose that deficient proprioception could be a factor contributing to weak sensory input. The online version contains supplementary material available at 10.1186/s13075-022-02942-3.
Original languageEnglish
JournalArthritis research & therapy
Volume24
DOIs
Publication statusPublished - 2022

Keywords

  • Functional MRI
  • Pain sensitization
  • Fibromyalgia
  • Knee osteoarthritis
  • Somatosensory cortex
  • Insular cortex

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