Sex-dependent changes in insular cortex connectivity in a rat model of comorbid pain

Temporomandibular disorder (TMD) and irritable bowel syndrome (IBS) are two highly comorbid, nociplastic pain conditions that belong to a broader group of commonly co-occurring chronic pain conditions. Most of these chronic overlapping pain conditions (COPCs), including TMD and IBS, disproportionately affect females and are highly stress sensitive. Our previous study illustrated sex differences in brain activity during colorectal distension specific to our model of comorbid pain hypersensitivity (CPH), in which masseter muscle inflammation followed by restraint stress elicits IBS-like visceral hypersensitivity. Since insular cortex (Ins) activity increased in female CPH rats only and abnormal Ins activity has been identified in TMD and IBS patients, we sought to characterize patterns of Ins-based functional connectivity (FC) by performing functional MRI (fMRI) scans at baseline, 1 week, and 7 weeks post-injury/stress in groups of male and female Sprague-Dawley rats randomized to the following conditions: CPH, stress-induced hypersensitivity (SIH), Complete Freunds Adjuvant (CFA)-induced masseter muscle inflammation, and naive. CPH females displayed extensive Ins FC with brain regions in the cortex and limbic system, including the thalamus. Compared to CPH males, CPH females showed robust insular-thalamo connectivity at week seven, a time point where visceral hypersensitivity and referred pain-like behavior persists in CPH females but not males. This trend is also apparent in CPH females week seven versus week one Ins FC, whereas CPH males tend to decrease Ins FC broadly. These findings potentially suggest sensitization within the insular-thalamo and -cortical networks in CPH females, warranting future investigation of Ins circuit involvement in comorbid pain.