Abstract
The global obesity pandemic has unveiled adipose tissue as a pivotal, active modulator of neurological health, intricately linking metabolic dysfunction to chronic pain and cognitive decline. This review synthesizes current evidence to propose a unified "neuro-metabo-inflammatory" model of the adipose-central nervous system (CNS) axis. We articulate a framework where, in pathological states such as obesity, dysfunctional adipose tissue releases a milieu of factors-including adipokines, lipids, and extracellular vesicles-that propagate peripheral and central neuroinflammation, disrupt blood-brain barrier integrity, and impair synaptic plasticity. These processes converge to drive pain sensitization and cognitive deficits. Critically, we evaluate the clinical evidence linking visceral adiposity to multisite chronic pain and accelerated cognitive impairment, while highlighting sexually dimorphic pathways. The review moves beyond cataloging findings to prioritize the most robust mechanisms, assess evidence quality, and identify key translational gaps. We conclude by discussing emerging therapeutic strategies targeting this axis and proposing precise directions for future research to disentangle the complex temporal and spatial dynamics of adipose-CNS communication.