HUNTINGTON, W.Va. — A new review published in Sleep Medicine Reviews sheds light on the biological mechanisms that may explain why patients with obstructive sleep apnea (OSA) face higher risks for heart disease, diabetes and other age-related conditions. The study, led by researchers at the Marshall University Joan C. Edwards School of Medicine, details how OSA-induced stressors can trigger cellular senescence—effectively accelerating the aging process at the molecular level. 

OSA is typically recognized as a disorder of repeated airway collapse during sleep that causes oxygen deprivation and fragmented sleep. However, the authors argue that its effects extend far beyond nighttime breathing disturbances. The review synthesizes evidence showing that intermittent hypoxia, oxidative stress, mitochondrial injury and chronic inflammation caused by OSA activate pathways linked to cellular senescence. These senescent cells, in turn, release inflammatory molecules—known as the senescence-associated secretory phenotype (SASP)—that contribute to vascular remodeling, insulin resistance, immune dysregulation and other hallmarks of cardiometabolic disease. 

The authors, which include Sarfraz Ahmed, Ph,D.; David Gozal, M.D., M.B.A., Ph.D. (Hon); and Abdelnaby Khalyfa, M.S., Ph.D., all of Marshall University, propose that these senescence-driven processes may help explain the earlier onset and higher prevalence of hypertension, atherosclerosis, metabolic syndrome and other age-associated conditions in people with OSA. They suggest that treating sleep apnea with continuous positive airway pressure (CPAP) alone may not fully reverse the downstream cardiometabolic damage. Instead, combining conventional therapies with emerging interventions that target senescent cells—such as senolytic or senomorphic drugs—could offer new opportunities to blunt OSA-related cardiovascular and metabolic risk. 

While further research is needed to validate these mechanisms in clinical settings and to identify reliable, noninvasive biomarkers of senescence that could guide future treatments, the review underscores the importance of viewing OSA as more than a sleep-disordered breathing condition. The full article, “Mechanistic Links Between Obstructive Sleep Apnea, Cellular Senescence and Aging: The Role of Cardiometabolic Dysfunction,” appears in the October 2025 issue of Sleep Medicine Reviews and may be viewed at https://doi.org/10.1016/j.smrv.2025.102170.

Date Posted: Tuesday, October 7, 2025