Abstract
The incidence of cardiovascular diseases rises significantly with age, making it one of the leading causes of death and disability worldwide, and cellular senescence plays a crucial role in this process. Cellular senescence constitutes a salient feature of organismal aging and stands as an independent risk factor for a range of cardiovascular diseases, encompassing hypertension, atherosclerosis, myocardial infarction, heart failure, and arrhythmia. This comprehensive review endeavors to comprehensively delineate the intricate regulatory mechanisms underlying cellular senescence and its attendant biological implications, while elucidating the profound implications of this process on the initiation and progression of cardiovascular diseases. Finally, we will delve into a spectrum of targeted interventions aimed at cellular senescence, specifically focusing on eliminating the accumulation of senescent cells during disease progression or inhibiting the inherent cellular senescence processes. Our ultimate goal is to mitigate or postpone the onset of diseases that are intricately linked to cellular senescence. A profound comprehension and rigorous investigation into the regulatory mechanisms of cellular senescence and their intricate interrelationships hold significant potential to furnish invaluable scientific evidence for the prevention and therapeutic strategies against cardiovascular diseases.