Central Sleep Apnea in Adults: Diagnosis and Treatment
Background: While the literature has demonstrated a higher prevalence of moderate-to-severe obstructive sleep apnea (OSA) in the general population compared with central sleep apnea (CSA), more evidence is needed on the long-term clinical impact of and optimal treatment strategies for CSA.
Observations: CSA is overrepresented among certain clinical populations, such as those with heart failure, stroke, neuromuscular disorders, and opioid use. The clinical concerns with CSA parallel those of OSA. The absence of respiration (apneas and hypopneas due to lack of effort) results in sympathetic surge, compromise of oxygenation and ventilation, sleep fragmentation, and elevation in blood pressure. Symptoms such as excessive daytime sleepiness, morning headaches, witnessed apneas, and nocturnal arrhythmias are shared between the 2 disorders. A systematic clinical approach should be used to identify and treat CSA.
Conclusions: The purpose of this review is to familiarize the primary care community with CSA to aid in the identification and management of this breathing disturbance.
Neuromuscular-Induced CSA
CSA also is highly prevalent in neuromuscular conditions, such as amyotrophic lateral sclerosis, Duchenne muscular dystrophy, myotonic dystrophy, advanced multiple sclerosis, and acid maltase deficiency. There is reduced respiratory muscle strength and tone in these disorders, resulting in alveolar hypoventilation with hypercapnia. Given the hypercapnia, NIV/BiPAP is the first-line treatment to improve survival, gas exchange, symptom burden, and quality of life.
Stroke-Induced CSA
Extensive cerebrovascular events commonly precipitate sleep-related breathing disorders. The incidence increases in the acute phase of stroke and decreases 3 to 6 months poststroke; however, incidence also depends on the severity of the stroke.7,39,40 Stroke also has been shown to be a predictor of CSA (odds ratio, 1.65; 95% CI, 1.50-1.82; P < .001) in a retrospective analysis of a large cohort of US veterans.2 The location of the lesion often determines whether normocapnic or hypercapnic CSA will predominate, based on ventilatory instability resulting in normocapnia or reduced ventilatory drive resulting in hypercapnic CSA. PSG results and blood gases direct the treatment options. CSA with normocapnia is treated with ASV, and patients with hypercapnia/REM sleep hypoventilation are treated with NIV/BiPAP.
Conclusions
While much has been learned about CSA in recent decades, more evidence needs to be gathered to determine optimal treatment strategies and the impact on patient prognosis. The identification of CSA can lead to the diagnosis of previously unrecognized medical conditions. With proper diagnosis and treatment, we can optimize clinical management and improve patients’ prognosis and quality of life.
Acknowledgments
The authors thank the librarians of the Franzello Aeromedical Library in particular Sara Craycraft, Catherine Stahl, Kristen Young and Elizabeth Irvine for their support of this publication.
