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Showing 1-4 of 4 trials
NCT07592052
This prospective cross-sectional clinical study aims to investigate the relationship between circadian rhythm disruption and periodontal inflammation by evaluating circadian clock protein levels, inflammatory (IL-1beta) and anti-inflammatory (IL-10) cytokine levels in gingival crevicular fluid (GCF) of individuals with and without circadian rhythm disruption. Participants aged 20-50 years will be classified into four groups based on their circadian rhythm status (disrupted/normal) and gingival health status (gingivitis/healthy). Clinical periodontal parameters including plaque index, gingival index, bleeding on probing, and probing depth will be assessed. Circadian rhythm status will be determined using validated questionnaires (Morningness-Eveningness Questionnaire and Munich Chronotype Questionnaire). Night-shift workers will represent the circadian rhythm disruption group. GCF samples will be analyzed for circadian clock proteins (BMAL-1, CLOCK, PER-1, PER-2, PER-3, CRY-1, CRY-2, REV-ERB-beta, MTNR1B) and cytokines (IL-1beta, IL-10) using ELISA. Serum cortisol and melatonin levels will be measured for biochemical verification of circadian rhythm status. Gingivitis groups will receive standard periodontal treatment and be re-evaluated at 2 weeks post-treatment. A total of 116 participants (29 per group) are planned for enrollment.
NCT04966351
Insufficient sleep and circadian misalignment are independent risk factors for the development of obesity and diabetes, yet few strategies exist to counter metabolic impairments when these behaviors are unavoidable. This project will examine whether avoiding food intake during the biological night can mitigate the impact of circadian misalignment on metabolic homeostasis in adults during simulated night shift work. Findings from this study could identify a translatable strategy to minimize metabolic diseases in populations that include anyone working nonstandard hours such as police, paramedics, firefighters, military personnel, pilots, doctors and nurses, truck drivers, and individuals with sleep disorders.
NCT04955431
Particulate matter exposure during smoke inhalation provokes inflammatory immune responses in people exposed to burning biomass including fire fighters and civilians. Persistent occupational exposure to particulate matter represents a unique hazard for firefighters, underpinning a burgeoning research area. This trial will evaluate the effects of sleep deprivation and circadian rhythm disruption on the inflammatory response to woodsmoke associated particulate matter exposure. Participants will undergo 2 experimental trials in a randomized cross-over design. Participants will have either an 8-hour sleep opportunity or a 4-hour sleep opportunity prior to reporting to lab for a 45 minute simulated firefighting trial (wood smoke associated particulate matter filtered to 2.5 um at a concentration of 250 ug/m\^3, while exercising at a moderate intensity). The effects of sleep restriction and simulated firefighting will be measured.
NCT05965609
The aim of the proposed study is to pilot test two behavioral sleep intervention strategies for improving insomnia among night shift working nurses.