ENIGMA World Aging Center
University Of Southern California, Los Angeles CA
Investigators
Linked publications & trials
Abstract
ABSTRACT One in three seniors dies with Alzheimerâs disease (AD) or another dementia - diseases that cost the nation $259 billion, to rise to $1.1 trillion by 2050 (Alzheimerâs Association, 2017). Despite the vast personal and economic cost of these diseases, two major barriers stall efforts to discover key biological mechanisms that influence brain aging. First, the sheer cost of data collection means that most national initiatives have limited power to detect factors that affect brain aging. Even in datasets of N=1,000+ people (e.g., ADNI) â the power to discover modulators of brain aging is limited and may not generalize worldwide. Second, with the crisis of reproducibility, we do not always know if a finding will replicate; and if not, if this is due to true population heterogeneity or problems with methods. ENIGMA offers a coordinated global approach to solve these problems. ENIGMAâs World Aging Center is a global brain aging study that builds on our vast and highly productive ENIGMA consortium - a global network of 340 institutions in 45 countries. ENIGMA published the largest-ever genetic studies of the brain (Nature 2017; Science 2020), and the largest neuroimaging studies of 5 major psychiatric disorders. ENIGMAâs World Aging Center is a concerted global effort to pool all available data, methods, expertise and capital infrastructure to discover factors that affect brain aging. Our long-term goal is to identify personalized biological predictors of brain structural and functional decline and assess how they generalize globally. We have 4 aims: Aim 1: ENIGMA-Lifespan. Develop Lifespan Charts for Brain and Neural Tract Aging in 20,000 people. We will create charts showing how MRI brain measures change throughout life in 20,000 people, aged 1-92. We will compute a composite brain aging score, âBrain Ageâ, from available MRI, DTI, rsFMRI data, that measures how much the brain deviates from expected values, for a personâs age and sex. Aim 2: ENIGMA-Epigenetics. Relate genome-wide methylation levels to brain metrics in 10,000+ people, to discover epigenetic markers of accelerated brain aging. We discovered 2 epigenetic loci promoting brain aging in pilot studies. We will compute a âepigenetic clockâ and test if it predicts brain metrics better than simple biological age. Aim 3: ENIGMA-Plasticity. Discover genomic loci that promote or mitigate brain tissue loss, in > 37 worldwide cohorts with longitudinal MRI. Aim 4: ENIGMA-Alzheimerâs Disease (New Aim). Meta-analyze the role of APOE, AD polygenic risk, and a new risk score for accelerated atrophy on neuroimaging biomarkers in aging and AD, including amyloid and FDG PET. These aims seek to analyze worldwide imaging, epigenetic, and clinical data with harmonized methods. We aim to create new aging âclocksâ and reveal targetable risk factors and modifiers of brain aging in the genome and epigenome, test how and when they shift AD biomarkers, and test their generalizability worldwide.
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