Neuroaging describes the biological aging processes affecting neurons, glial cells, and neural networks. It encompasses cellular senescence, reduced synaptic efficiency, impaired repair mechanisms, and altered neural signaling. Neuroaging affects communication within brain circuits and reduces adaptability to stress and injury. Chronic inflammation and oxidative stress play central roles in neuroaging progression. These changes influence cognition, motor function, and emotional regulation. Neuroaging is a major risk factor for neurodegenerative disorders, although it does not inevitably lead to disease. Research in neuroaging focuses on identifying mechanisms that preserve neural function and promote brain resilience throughout aging.
Title : Change your genes – Change your life: Epigenetics of longevity
Kenneth R Pelletier, University of California School of Medicine, United States
Title : Improving mobility and health in over 45,000 humans using nanomedicine
Thomas J Webster, Brown University, United States
Title : An introduction to alchemical facial acupuncture: Sparking the shen
Mary Elizabeth Wakefield, Chi-Akra Center for Ageless Aging, United States
Title : Decoding the secret of longevity through big data: Noncoding RNAs—not proteins—drive animal lifespan evolution
Anyou Wang, DIFIBER LLC, United States
Title : Aspirin guided by coronary artery calcium scoring for primary prevention in persons with subclinical coronary heart disease
Arthur J Siegel, McLean Hospital, United States
Title : When BMI misleads: Integrating body composition, biomarkers, and personalized interventions for cardiometabolic healthspan in aging Asian and European cohorts
Narendra Kumar, HeartbeatsZ Academy, United Kingdom