Obstructive sleep apnea (OSA) is a frequent disease mainly affecting obese people and caused by repetitive collapse of the upper airways during sleep. The increased morbidity and mortality of OSA are mainly thought to be the consequence of its adverse effects on cardiovascular (CV) health. In this context, oxidative stress induced by nocturnal intermittent hypoxia has been identified to play a major role. This is suggested by biomarker studies in OSA patients showing excessively generated reactive oxygen species from leukocytes, reduced plasma levels of nitrite and nitrate, increased lipid peroxidation, and reduced antioxidant capacity. Biopsy studies complement these findings by demonstrating reduced endothelial nitric oxide synthase expression and increased nitrotyrosine immunofluorescence in the vasculature of these patients. Furthermore, oxidative stress in OSA correlates with surrogate markers of CV disease such as endothelial function, intima-media thickness, and high blood pressure. Continuous positive airway pressure therapy reverses oxidative stress in OSA. The same may be true for antioxidants; however, more studies are needed to clarify this issue.
We suggest that the CIH-induced arterial hypertension is mediated by ROS derived from an activation of NOX2 within cells located outside the cardiovascular system.
The clinical spectrum of obstructive sleep apnea-(OSA-)related cardiovascular disease (CVD) comprises systemic arterial hypertension (prevalence: 40-60%), pulmonary hypertension (20-30%), coronary artery disease (20-30%), congestive heart failure (5-10%), and stroke (5-10%). During sleep, heart rhythm disorders such as atrioventricular blocks, sinus arrests and atrial fibrillation can be induced by OSA. OSA-related CVD mainly affects those patients with an apnea-hypopnea index > 30/h and, if left untreated, is linked to increased mortality. Epidemiologic data have clearly shown that cardiovascular risk is increased in OSA independent of confounding factors such as obesity and concomitant metabolic disease. In recent years, the pathophysiology of OSA-related CVD has been further elucidated showing that apart from the well-known sympathetic activation, increased oxidative stress and pro-inflammatory changes seem to play major roles. Furthermore, studies using high resolution ultrasonography have demonstrated endothelial dysfunction and enhanced atherosclerosis in these patients. Finally, animal models of OSA have delineated that daytime arterial hypertension is the consequence of the OSA-associated chronic intermittent hypoxia. Therapy of OSA by continuous positive airway pressure (CPAP) ventilation exerts cardioprotective effects. It has been shown to rectify the vascular micromilieu, restore endothelium-dependent vasodilation, lower 24-h blood pressure, eliminate nocturnal heart rhythm disorders, and improve left ventricular function. Furthermore, long-term CPAP therapy leads to a reduction in important clinical endpoints such as the rates of myocardial infarction and stroke.
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