Cell Aging & Regeneration (CAR) is a newly established open-access English journal focusing on cellular aging and regeneration, highlighting the "mechanism exploration-technology development-clinical translation" pipeline, and emphasizing both academic and industrial value. The journal is committed to becoming a leading interdisciplinary platform in the fields of cellular aging and regenerative medicine, serving as a hub for cutting-edge research exchange among scientists, clinicians, and biotech companies. It aims to drive breakthroughs from fundamental research to clinical applications in aging and regeneration science, ultimately contributing to the extension of human healthspan.

Cell Aging & Regeneration welcomes submissions of novel discoveries, theories, methods, technologies, and products related to the field. Topics of interest include, but are not limited to:
Unraveling Aging Mechanisms: Deciphering the complex drivers of cellular aging (e.g., genomic instability, epigenetic dysregulation, metabolic imbalance) and their links to age-related diseases (Alzheimer’s disease, atherosclerosis, osteoporosis, organ fibrosis, etc.), cancer, infections, and more.

Innovative Anti-Aging & Regeneration Strategies: Exploring applications of cellular reprogramming (epigenetic reprogramming), food/herbal formulations, probiotics, stem cells, biomaterials, and engineered microenvironments in anti-aging and regeneration.

Accelerating Clinical Translation: Publishing high-impact research on clinical trials regarding physiological age biomarkers (DNA methylation, telomere length, transcriptomics, proteomics, metabolomics, etc.), anti-aging interventions, and regenerative therapies to advance the development of anti-aging and regenerative medicine.

Fostering Interdisciplinary Integration: Combining multidisciplinary tools from cell biology, bioengineering, artificial intelligence, and computational modeling, leveraging emerging technologies such as single-cell multi-omics, spatial transcriptomics, AI-driven drug discovery, organ-on-a-chip systems, and insights from long-lived species (e.g., naked mole rats) and highly regenerative organisms (e.g., salamanders) to decode the complex regulatory networks of aging and regeneration.