A collaborative international study, involving researchers from Trinity College Dublin, has explored the impact of societal inequality on the brain. Published in Nature Aging, the research—conducted by an international team from the Multipartner Consortium to expand dementia research in Latin America (ReDLat), the Latin American Brain Health Institute (BrainLat), the Global Brain Health Institute (GBHI) at Trinity College Dublin, and other global centers—demonstrates a direct correlation between structural inequality (measured by a country-level GINI index of socioeconomic disparities) and changes in brain structure and connectivity linked to aging and dementia.
The study further illuminates how societal inequalities become biologically ingrained, particularly within underrepresented populations in Latin America and the United States.
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Key findings
1. Researchers found that higher levels of inequality are linked to reduced brain volume and disrupted connectivity, especially in temporo-posterior and cerebellar regions essential for memory and cognitive function. These effects were more pronounced in Latin America, highlighting the unique vulnerability of Latin American populations to macro-level socioeconomic stressors.
2. The findings also revealed that Latinos with Alzheimer’s disease experience the most severe impacts, suggesting that environmental demands linked to structural inequality may exacerbate neurodegeneration in aging populations. In contrast, the milder effects observed in frontotemporal lobar degeneration support the hypothesis of a more significant genetic influence in this condition. Reduced brain volume and connectivity are frequently observed in patients with dementia and are associated with disease progression and severity.
3. Notably, associations persisted even after accounting for individual factors such as education, age, sex, and cognitive ability, underscoring the independent role of macro-level factors in shaping brain health. Living in a context of aggregate inequality affects brain health regardless of your specific socioeconomic level, demonstrating the far-reaching consequences of societal disparities on the brain.
First author Agustina Legaz, PhD from the ReDLat consortium, said, “Our findings emphasize the urgency of integrating not only individual social determinants of health into global brain health research but also macro-level exposome factors, such as social and physical variables. These findings pave the way for future studies exploring the biological mechanisms linking aggregate inequality to aging and neurodegeneration.”
The study calls for a multi-level approach to brain health equity, examining the biological embedding of other macro-level exposome factors beyond socioeconomic inequality. These may include variables such as democratic governance, air pollution, migration, climate change, and access to green spaces. Identifying and addressing these region-specific modulators could lead to targeted interventions that mitigate accelerated brain aging and reduce the dementia burden in disadvantaged communities.
