Age-related differences in locus coeruleus intensity across a demographically diverse sample

Abstract

Understanding the trajectory of in vivo locus coeruleus (LC) signal intensity across the adult lifespan and among various demographic groups, particularly during middle age, may be crucial for early detection of neurodegenerative diseases, which begin in the LC decades before symptom onset. Even though pathological changes in the LC are thought to begin in middle age, its characteristics across the adult lifespan, and its consistency and variation across demographic groups, remain not well understood. Using T1-weighted turbo spin echo magnetic resonance (MRI) scans to characterize the LC, we measured LC signal intensity in 134 participants aged 19–86 years, with an effort to recruit a more racially diverse sample (41 % non-White). LC signal intensity was lowest in early adulthood, peaked around age 60, and then decreased again in the oldest adults, particularly in the caudal portion of the LC, which exhibited the greatest overall signal intensity; education, income, and history of early trauma did not alter this general pattern. Rostral LC signal intensity was further heightened in women and Black participants. In higher-performing older adults, increased rostral LC signal intensity was positively associated with higher fluid cognition. The potential accumulation of LC signal intensity across the adult lifespan and its possible dissipation in later life as well as its modification by demographic factors, may be associated with differential susceptibility to neurocognitive aging.