Affiliation:
1. Department of Anesthesiology, Perioperative, and Pain Medicine University of Calgary Calgary Alberta Canada
2. Alberta Children's Hospital Research Institute Calgary Alberta Canada
3. Department of Radiology University of Calgary Calgary Alberta Canada
4. Hotchkiss Brain Institute Calgary Alberta Canada
5. Owerko Centre, Alberta Children's Hospital Research Institute Calgary Alberta Canada
6. The Mathison Centre for Mental Health and Education Hotchkiss Brain Institute Calgary Alberta Canada
7. Department of Psychiatry University of Calgary Calgary Alberta Canada
8. Department of Neuroscience Monash University Melbourne Victoria Australia
Abstract
AbstractBackgroundAdverse childhood experiences (ACEs) are often reported by youths with chronic pain, and both ACEs and chronic pain disrupt how information is processed. However, it is unknown whether changes to shared neural networks underlie the relationship between ACEs and the development of pain symptoms. This study explored the relationships between ACEs, brain efficiency, and pain symptomology in youth.MethodsA community sample of youths aged 14–18 years underwent MRIs, answered trauma and pain questionnaires, and underwent pain sensory testing, twice, 3 months apart (Nbaseline = 44; Nfollow‐up = 42). Sensory testing determined thresholds for mechanical and thermal stimuli. Global and local network efficiencies were evaluated using graph theory. Generalized estimating equations were applied to examine whether brain efficiency moderated the relationships between ACEs, pain intensity, and pain sensitivity (i.e., mechanical detection, heat pain, and temperature change thresholds).ResultsThere was a significant interaction between ACEs and global brain efficiency in association with pain intensity (β = −0.31, p = 0.02) and heat pain (β = −0.29, p = 0.004). Lower global brain efficiency exacerbated the relationship between ACEs and pain intensity (θX → Y|W = −1.16 = 0.37, p = 0.05), and heat pain sensitivity (θX → Y|W = −1.30 = 0.44, p = 0.05). Higher global brain efficiency ameliorated the relationship between ACEs and pain intensity (θX → Y|W = 1.75 = −0.53, p = 0.05).ConclusionsThe relationship between ACEs and pain symptomology was comparable to chronic pain phenotypes (i.e., higher pain intensity and pain thresholds) and may vary as a function of brain efficiency in youth. This stresses the importance of assessing for pain symptoms in trauma‐exposed youth, as earlier identification and intervention are critical in preventing the chronification of pain.SignificanceThis article explores the relationship between ACEs, pain symptomology, and brain efficiency in youth. ACEs may affect how the brain processes information, including pain. Youths with lower brain efficiencies that were exposed to more ACEs have pain symptomology comparable to youths with chronic pain. Understanding this relationship is important for the earlier identification of pain symptoms, particularly in vulnerable populations such as youths exposed to trauma, and is critical for preventing the chronification of pain.