Determining the impact of age and sex on the psychophysical and neurophysiological response to thermal pain across the adult lifespan.

Abstract

AimsDetermine sex‐ and age‐associated psychophysical and neurophysiological differences in the processing of pain across the adult lifespan.DesignPreliminary, exploratory, cross‐sectional study.MethodsUsing psychophysics (to measure intensity and unpleasantness) and functional magnetic resonance imaging blood oxygenation level dependent methods (to measure stimulus‐evoked brain activation), we will examine sex‐ and age‐associated differences in thermal pain processing and their underlying neurophysiology in a broad range of healthy adults (ages 30–89). We will acquire resting state functional connectivity data for secondary analyses exploring whether resting state connectivity predicts psychophysical and neurophysiological responses to thermal pain. To examine the effects of altered blood flow, we will acquire resting‐state arterial spin labeling magnetic resonance imaging data to quantify resting cerebral blood flow. We will interpret findings in the context of a proposed neural model of pain, ageing, and sex. Study funding was received in June of 2014. Ethical approval was obtained from the Vanderbilt University IRB prior to study initiation.ConclusionExploring the biological reasons for age‐ and sex‐associated differences in pain processing will increase our understanding of pain in older adults. The paucity of neurobiological evidence to support best practice pain management in older adults places these individuals at risk for poor pain management.ImpactPoorly treated pain in older adults is a critical public health problem associated with a poor quality of life and increased healthcare costs. Understanding how age and sex have an impact on central processing of pain across the lifespan is a critical step toward improving personalized pain medicine.