Deciphering the Interactions Between Food Intake, Sleepiness, and Nighttime Sleep Quality in Patients With Type 1 Narcolepsy and Idiopathic Hypersomnia
About This Trial
Links between sleep and food intake are manyfold. In healthy individuals, sleep deprivation promotes obesity by stimulating food intake of high glycemic index (GI) foods. Conversely, high GI foods induce sleepiness. Obesity is observed in 30-50% of patients with Narcolepsy type 1 (NT1). Its determinism may involve transient changes in basal metabolism at the early stage of the disease, eating disorders, disrupted nighttime sleep and sleepiness. In contrast, patients suffering from idiopathic hypersomnia (IH), whose nocturnal sleep is generally long and of good quality, rarely present with obesity. By studying the relationships between diet, body composition and sleep patterns in these two populations and in healthy controls, the NARCOFOOD study aims to provide a better understanding of the determinants of obesity in narcolepsy and, more generally, of the effects of food intake on sleepiness. Patients will be recruited at the Lyon and Clermont-Ferrand sleep centers and Controls at the Lyon Neuroscience Research Center. Data from clinical evaluation (including body mass index and body composition), and questionnaires (sleep quality, insomnia, sleepiness, anxiety and depression, impulsivity, eating behaviors) will be collected. During 4 days, at home, the following parameters will be explored : 1) eating behaviors (meals' photos) and sugar consumption (FreeStylePro sensor measuring interstitial glucose) 2) sleep/wake rhythm (diary and actigraphy) 3) nocturnal sleep parameters (Somfit device) 4) sleepiness (Karolinska sleepiness scale and EEG markers of sleepiness with the Somfit device) before and after meals. The hypothesis is that increased sleepiness would favor food intake of high GI foods, which would worsen sleepiness in all 3 groups, with a more pronounced effect in NT1. Compared to IH patients and controls, NT1 patients may present more snacking of high GI foods, especially at night if sleep is disrupted, and this would be correlated with body composition. The findings will help to better understand the mechanisms of obesity in narcolepsy and may lay the ground for the development of new therapeutic strategies in disorders of hypersomnolence, targeting dietary behaviors.
Who May Be Eligible (Plain English)
Original Eligibility Criteria
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Treatments Being Tested
Monitoring of eating behaviors
Overall eating behaviors will be assessed from pictures of consumed food and drinks taken by the participants with their smartphones. A complete assessment of eating habits will be carried out daily for 4 days. For each photo, the participants will indicate the reasons why they ate by completing analogical scales (hunger, craving, sleepiness, stress, negative emotion) and an open question (other reason). These data will be used to determine the reason and timing of food intake and the number of calories ingested for each food category. Eating behaviors specifically related to sugar intake will be monitored using the FREESTYLE PRO® sensor. This small device is used routinely for diabetes care and is placed on the back of the arm. The system is designed to measure glucose levels in the interstitial fluid every 15 minutes for up to 14 days. The recorded data can be downloaded by an investigator using the FREESTYLE LIBRE PRO® reader.
Monitoring of sleep/wake rhythm
The sleep-wake rhythm will be measured continuously during the 5 days, both subjectively (sleep diary) and objectively, using the GT9X "LINK" ACTIGRAPH.
Measure of nocturnal sleep parameters
The quality and quantity of the participants' sleep will be recorded using the SOMFIT® device. This non-invasive portable device will allow the determination of sleep architecture as well as sleep EEG microstructure.
Measure of sleepiness
Sleepiness will be assessed by the Karolinska Sleepiness Scale (KSS) at the initiation of food intake and 30 min and 2 hours afterwards, and by analysis of EEG activity recorded by the SOMFIT® over a time window surrounding food intake. Indeed, participants will also be asked to wear the device as much as possible during the day when they are at home in order to explore sleepiness markers during wakefulness.