Sideward Turning Beds for Sleep Apnea

Obstructive positional sleep apnea

Obstructive sleep apnea (OSA) is characterised by a repetitive collapse of the upper airway during sleep, which results in apnea or hypopnoea associated with oxygen desaturations and arousals. OSA affects up to 30% of the adult male population, increases with age, and is associated with daytime sleepiness, increased risk of traffic accidents, arterial hypertension, vascular dysfunction and cardiovascular events. In 56% to 75% percent of these apnea patients, the apnea-hypopnea index is correlating with the body position. This subgroup of patients suffers from position-dependent sleep apnea, which is defined by a difference in the apnea hypopnea index between supine position and non-supine positions of at least 50%. Current treatment recommendation for OSA is continuous positive airway pressure (CPAP) ventilation, because of its potential beneficial impact on cardiovascular outcomes. However, a recent randomised controlled trial has not shown reduction in major cardiovascular endpoints in OSA patients with manifest cardiovascular disease allocated to CPAP. Therefore, the beneficial effect of CPAP treatment has been subject to extensive discussion recently. Furthermore, in mildly and moderately affected patients, compliance is sometimes limited due to various side effects. A valuable alternative, which has been suggested for these patients, is the so-called positional therapy. The aim of the therapy is to make the supine position uncomfortable so that patients actively avoid it. However, due to interruption of the sleep because of acoustic signals or an obstacle fixes at the patients back, current treatment options are associated with low long term compliance.

Mechanisms for turning a sleeping user sideward

In literature, several mechanisms have been proposed to shift the sleeping user of a bed form supine to lateral position. In general, these methods can be sorted into the following four categories:

1. Inclination of one side of the mattress
2. Tilting of the mattress around a middle axis
3. Using pressurized air chambers to reconfigure the mattress shape
4. Using vibration or disturbing stimuli as aversion therapy when the person is sleeping on the back Method number 4 does require active participation of the user and would therefore have the same limitations as conventional positional therapy. However, method 1 to 3 are promising candidates for an intelligent anti-sleep apnea bed.

Methods

In order to compare the three methods described above a custom-made automated bed that has a pressurized air-mattress and provides the ability either to incline half of the bed surface up to 70° or tilt the whole surface up to 45° was developed. The purpose of this study is to evaluate which of these three mechanisms is more effective in changing the position of the user from supine to lateral. Furthermore, the settings which are most likely to induce a position change will be determined. In addition, it will be evaluated which test settings cause the least arousals in sleeping users. Evaluating this in healthy participants is an important step on our way towards an intelligent bed for treatment of position dependent obstructive sleep apnea.