Abstract
Chronic diseases, characterized by their high prevalence and protracted course, represent a paramount challenge to global public health, necessitating effective, evidence-based preventive strategies. While functional foods are widely recognized for their potential, a comprehensive synthesis elucidating their multitargeted mechanisms within a "food-medicine homology" framework and a clear trajectory from broad-spectrum health promotion to targeted intervention remains lacking. This review bridges this critical gap by systematically evaluating the scientific evidence and application potential of functional foods, with a specific focus on key bioactive compounds-β-glucan, omega-3 polyunsaturated fatty acids (PUFAs), dietary fiber, and catechins. We provide a critical analysis of how these components orchestrate synergistic effects at molecular, cellular, and systemic levels to counteract core pathological processes, including oxidative stress, chronic inflammation, metabolic dysregulation, and gut microbiota imbalance. Our unique contribution lies in integrating the ancient wisdom of food-medicine homology with modern multi-omics and evidence-based research, thereby proposing a refined nutritional intervention paradigm. The review offers critical insights into the convergent actions of these bioactives, their dose-response relationships substantiated by clinical meta-analyses, and the emerging role of gut microbiota-derived metabolites. Furthermore, this review also explores the emerging evidence for synergistic interactions among these key bioactives, proposing that their combined use may yield amplified and more network-based protective effects against chronic diseases through complementary mechanisms, aims to develop integrated prevention strategies targeting both cardiometabolic and neurodegenerative diseases. The integrated prevention strategies systematically connect mechanistic insights into bioactive compounds, evaluates the strength of clinical evidence, and examines the implications for regulatory standards and societal acceptance, thereby bridging the gap between basic science, clinical application, and public health policy. The "mechanism-to-evidence-to-regulation" framework in this review links molecular insights with clinical validation and regulatory implications, offering a holistic perspective rarely addressed in existing literature.