Journal

Next-Generation AI in Neuro-development Multi-Omics Applications from Diagnosis to Care

Meera Al Shamsi
International Journal of Rehabilitation & Disability Studies 18 Jul 2026 676 views

Abstract

Neurodevelopmental disorders (NDDs), including autism spectrum disorder (ASD), attention-deficit/hyperactivity disorder (ADHD), intellectual disability (ID), and rare genetic syndromes, affect millions of children worldwide and impose a significant global health burden. Current diagnosis relies primarily on behavioral assessments, which are subjective, delayed, and poorly suited to capture comorbidities. Biological testing remains limited, leading to diagnostic delays of years in ASD, ADHD, and rare syndromes. Advances in multi-omics like genomics, transcriptomics, proteomics, metabolomics, and epigenomics, together with artificial intelligence (AI) provide a transformative path toward precision medicine in NDDs. Genomic studies highlight the role of copy number variants and polygenic risk scores in risk stratification, while transcriptomic and proteomic analyses reveal synaptic and neuroinflammatory pathways relevant to pathogenesis. Metabolomic profiling of biofluids identifies mitochondrial and microbiome-linked biomarkers, and epigenomics offers an environment-responsive regulatory layer. AI enables integration of these high-dimensional datasets, overcoming the “curse of dimensionality” through deep embedding, graph learning, and multimodal fusion. Case studies demonstrate promising accuracies in early ASD and ADHD prediction from placental transcriptomics, DNA methylation, and newborn metabolomics, with reported AUCs approaching 1.00. Beyond diagnosis, AI-driven multi-omics supports stratified interventions, from metabolic modulation to pathway-specific pharmacology and neuromodulation, while adaptive monitoring systems linking omics to electronic health records and wearable biosensors enable continuous, individualized care. However, small cohorts, limited replication, high costs, and ethical issues around privacy, equity, and algorithmic bias remain critical barriers. Future directions demand federated learning, longitudinal biobanking, and cross-disciplinary collaboration to ensure robust translation. Integrating AI with multi-omics holds unprecedented potential to reshape neurodevelopmental care from diagnosis to lifelong management.

Keywords

Neurodevelopmental Disorders (NDDs) Multi-Omics Integration Artificial Intelligence (AI) Precision Medicine Biomarker Discovery

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