Broken Sleep Linked to MASLD

TOPLINE:

Fragmented sleep — that is, increased wakefulness and reduced sleep efficiency — is a sign of metabolic dysfunction—associated steatotic liver disease (MASLD), a study using actigraphy showed.

METHODOLOGY:

• Researchers assessed sleep-wake rhythms in 35 patients with MASLD (median age, 58 years; 66% were men; 80% with metabolic syndrome) and 16 matched healthy controls (median age, 61 years; 50% were men) using data collected 24/7 via actigraphy for 4 weeks.
• Sub-analyses were conducted with MASLD comparator groups: 16 patients with MASH, 8 with MASH with cirrhosis, and 11 with non-MASH–related cirrhosis.
• All participants visited the clinic at baseline, week 2, and week 4 to undergo a clinical investigation and complete questionnaires about their sleep.
• A standardized sleep hygiene education session was conducted at week 2.

TAKEAWAY:

• Actigraphy data from patients with MASLD did not reveal significant differences in bedtime, sleep-onset latency, sleep duration, wake-up time, or time in bed compared with controls.
• However, compared with controls, those with MASLD woke 55% more often at night (8.5 vs 5.5), lay awake 113% longer after having first fallen asleep (45.4 minutes vs 21.3 minutes), and slept more often and longer during the day (decreased sleep efficiency).
• Subgroup analyses showed that actigraphy-measured sleep patterns and quality were similarly impaired in patients with MASH, MASH with cirrhosis, and non-MASH–related cirrhosis.
• Patients with MASLD self-reported their fragmented sleep as shorter sleep with a delayed onset. In sleep diaries, 32% of patients with MASLD reported sleep disturbances caused by psychological stress, compared with only 6.25% of controls and 9% of patients with cirrhosis.
• The sleep education session did not change the actigraphy measures or the sleep parameters assessed with sleep questionnaires at the end of the study.

IN PRACTICE:

“We concluded from our data that sleep fragmentation plays a role in the pathogenesis of human MASLD. Whether MASLD causes sleep disorders or vice versa remains unknown. The underlying mechanism presumably involves genetics, environmental factors, and the activation of immune responses — ultimately driven by obesity and metabolic syndrome,” said corresponding author.

SOURCE:

The study, led by Sofia Schaeffer, PhD, University of Basel, Basel, Switzerland, was published online in Frontiers in Network Physiology.

LIMITATIONS:

The study had several limitations. There was a significant difference in body mass index between patients with MASLD (median, 31) and controls (median, 23.5), representing a potential confounder that could explain the differences in sleep behavior. Undetected obstructive sleep apnea could also be a confounding factor. The small number of participants limited the interpretation and generalization of the data, especially in the MASLD subgroups.

DISCLOSURES:

This study was supported by a grant from the University of Basel. One co-author received a research grant from the University Center for Gastrointestinal and Liver Diseases, Basel, Switzerland. Another co-author was employed by NovoLytiX GmbH. Schaeffer and the remaining coauthors declared that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.