Unlike the well-established association between sleep disordered breathing (SDB) and chronic heart failure, the relationship between SDB and severe aortic stenosis (AS) is not well investigated. ...Given the increasing prevalence of AS, and the improving prognosis of high risk AS patients attributable to transcatheter aortic valve implantation (TAVI), the prevalence and impact of SDB needs to be better understood.
In this study, 140 patients with severe AS underwent polygraphy prior to TAVI. Clinical and hemodynamic parameters were recorded. Patients were followed for 573±405 days. We found that 99/140 patients (71%) had SDB with a mean apnoea-hypopnoea-index of 24±17/h. SDB was mild in 27%, moderate in 23% and severe in 21% of patients. In addition, 35 patients (25%) had obstructive sleep apnoea (OSA), whereas 64 patients (46%) had central sleep apnoea (CSA). Patients with OSA had predominantly mild SDB (20/38 pts.), and patients with CSA mostly had severe SDB (24/29 pts.). The prevalence and distribution of OSA and CSA were independent of left ventricular function. Overall, 1 and 2 year survival rates (74% and 71%, resp.) did not differ significantly between patients without SDB or those with OSA and CSA (p=0.81).
SDB, with a preponderance of CSA, was found to be highly prevalent in patients with high-grade AS scheduled for TAVI. SDB prevalence was independent of left ventricular function. Mortality after TAVI was not influenced by the type or severity of SDB.
Severe cardiac disorders predispose to central sleep apnoea (CSA). We sought to examine the relationship between severe aortic stenosis, sleep disordered breathing (SDB), and CSA before and after ...transcatheter aortic valve implantation (TAVI).
Twenty-nine patients (81±6 yrs, 41% male, LVEF 48±14%) with severe aortic stenosis and high surgical risk underwent polygraphy before and three months after TAVI. Patients with an apnoea-hypopnoea index (AHI) >5/hr were considered to have SDB. SDB with ≥50% absence of both airflow and ventilatory effort was defined as CSA. Twenty-one of 29 patients (72%) had SDB (6/6/9 mild, moderate, and severe, respectively), 12 (41%) with CSA (0/4/8) and 9 (31%) with obstructive sleep apnoea (7/2/0). There was a strong correlation of CSA with LVEDP before TAVI (r=0.74, p=0.024), but not with LVEF, systolic pulmonary artery pressure or NT pro-BNP. After TAVI, AHI improved significantly, particularly in the CSA group (from 43.5±17.5 to 19.4±12.9/hr, p<0.001). Prevalence and severity of SDB were reduced from 72% to 59% (6/6/9 to 7/8/2 patients), triggered by the significant improvement of CSA.
Patients with severe aortic stenosis display a high prevalence of SDB, particularly of CSA. Definitive treatment with TAVI greatly resolved SDB in the CSA subgroup.