Evidence for glial reactivity using positron-emission tomography imaging of translocator Protein-18 kD [TSPO] in both sham and nerve-injured rats in a preclinical model of orofacial neuropathic pain
- Author(s)
- Emvalomenos, GM; Kang, JWM; Salberg, S; Li, C; Jupp, B; Long, M; Haskali, MB; Kellapatha, S; Davanzo, OI; Lim, H; Mychasiuk, R; Keay, KA; Henderson, LA;
- Journal Title
- Neurobiology of Pain
- Publication Type
- Research article
- Abstract
- Chronic neuropathic pain is a debilitating condition that results from damage to the nervous system. Current treatments are largely ineffective, with limited understanding of the underlying mechanisms hindering development of effective treatments. Preclinical models of neuropathic pain have revealed that non-neural changes are important for the development of neuropathic pain, although these data are derived almost exclusively from post-mortem histological analyses. Although these static snapshots have provided valuable data, they cannot provide insights into non-neural cell changes that could be also assessed in human patients with chronic pain. In this study we used translocator protein 18 kDa (TSPO) PET imaging with [(18)F]PBR06 to visualise in-vivo, the activity of macrophages and microglia in a rodent preclinical model of trigeminal neuropathic pain. Using chronic constriction injury of the infraorbital nerve (ION-CCI) we compared temporal changes in TSPO binding in male rats, prior to, and up to 28 days after ION-CCI compared with both sham-injured and naïve counterparts. Unexpectedly, we found significant increases in TSPO signal in both ION-CCI and sham-injured rats within the trigeminal ganglion, spinal trigeminal nucleus and paratrigeminal nucleus during the initial phase following surgery and/or nerve injury. This increased TSPO binding returned to control levels by day 28. Qualitative histological appraisal of macrophage accumulation and glial reactivity in both ION-CCI and sham-injured rats indicated macrophage accumulation in the trigeminal ganglion and microglial reactivity in the brainstem trigeminal complex. These findings show, glial changes in the peripheral nerve and brain in both nerve-injured and sham-injured rats in a preclinical model of neuropathic pain which provides a platform for translation into human patients.
- Publisher
- Elsevier
- Keywords
- Chronic constriction injury; Macrophages; Microglia; Positron emission tomography; Spinal trigeminal nucleus; Trigeminal ganglion
- Department(s)
- Cancer Imaging
- Publisher's Version
- https://doi.org/10.1016/j.ynpai.2024.100175
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- Refer to copyright notice on published article.
Creation Date: 2025-01-21 12:22:23
Last Modified: 2025-01-21 12:27:30