Sound asleep: cardiovascular implications of sleep disordered breathing in preschool children

Abstract

Listen

Translate article

Objective: Sleep disordered breathing (SDB) is a spectrum of sleep disorders ranging from primary snoring (PS) to the more severe form, obstructive sleep apnoea (OSA). In both adults and school-age children, SDB is associated with autonomic dysfunction and elevated blood pressure (BP) which pervades both wakefulness and sleep. The surges in BP and heart rate (HR) following obstructive respiratory events are believed to contribute to the development of the elevated BP and loss of the typical nocturnal BP decline (termed nocturnal dipping). SDB is most prevalent during the preschool years, yet the effects of SDB on autonomic function and BP during sleep have not been investigated at this age. This thesis aimed to investigate SDB severity- and sleep-related alterations in cardiovascular function in preschool children with a range of SDB severities in comparison to non-snoring control children, by assessing autonomic function using heart rate variability (HRV) and urinary catecholamine levels; and nocturnal dipping and overnight changes in BP using pulse transit time (PTT), an inverse continuous indicator of BP changes. Additionally, we aimed to characterise the cardiovascular response to obstructive events in preschool children. Methods: 151 snoring children (aged 3-5 y) recruited from children attending the Melbourne Children’s Sleep Centre for assessment of SDB, and 41 non-snoring control children recruited from the community underwent overnight polysomnography, with additional PTT measurement and a 12 h urine collection. Children were grouped according to their clinical history and obstructive apnoea hypopnoea index (OAHI); control (no history of snoring), OAHI≤1 event/h; PS, OAHI≤1 event/h; mild OSA OAHI>1-5 events/h; moderate-severe OSA, (MS) OAHI>5 events/h. HRV was calculated in artifact-free 2 min bins in the time- and frequency-domain for each child. PTT was calculated as the time delay between the electrocardiogram R-wave and the 50% point of the rise in the corresponding finger pulse-wave. PTT was averaged for each 30 s epoch and normalised to each child’s mean wake PTT (before sleep onset), or for nocturnal dipping analysis, PTT and HR during sleep were expressed as percentage change from wake. HRV and PTT data were grouped and averaged for sleep overall, then subdivided into rapid eye movement (REM) and non-REM sleep (NREM1/2, NREM3/4) in each child. Respiratory events and arousals were subsequently removed for ‘stable sleep’ analyses of PTT and HRV. Beat-to-beat PTT and HR were averaged during the two halves of each obstructive respiratory event (early, late), for 10 s before (pre) and during the peak after (post) each event, and expressed as the percentage change from pre- to post-event and late- to post-event. Results: During REM sleep, the MS OSA group had significantly lower PTT (indicating higher BP) than the mild OSA and PS groups (p