Intermittent hypoxia in obstructive sleep apnoea mediates detrimental cardiometabolic effects through adipose tissue inflammation and dysfunction.
This review highlights the pivotal role of adipose tissue inflammation and dysfunction in mediating the cardiometabolic complications of intermittent hypoxia in obstructive sleep apnoea.
Obstructive sleep apnoea (OSA) is a major health concern worldwide and adversely affects multiple organs and systems. OSA is associated with obesity in >60% of cases and is independently linked with the development of numerous comorbidities including hypertension, arrhythmia, stroke, coronary heart disease and metabolic dysfunction. The complex interaction between these conditions has a significant impact on patient care and mortality. The pathophysiology of cardiometabolic complications in OSA is still incompletely understood; however, the particular form of intermittent hypoxia (IH) observed in OSA, with repetitive short cycles of desaturation and re-oxygenation, probably plays a pivotal role. There is fast growing evidence that IH mediates some of its detrimental effects through adipose tissue inflammation and dysfunction. This article aims to summarise the effects of IH on adipose tissue in experimental models in a comprehensive way. Data from well-designed controlled trials are also reported with the final goal of proposing new avenues for improving phenotyping and personalised care in OSA.
Ryan et al. (Wed,) conducted a review in Obstructive sleep apnoea. Intermittent hypoxia was evaluated. Intermittent hypoxia in obstructive sleep apnoea mediates detrimental cardiometabolic effects through adipose tissue inflammation and dysfunction.
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