Effect of blue light from electronic devices on melatonin and sleep/wake rhythms in high school childre
Completed
- Conditions
- ate sleep phase
- Registration Number
- NL-OMON23034
- Lead Sponsor
- Dr. P.H.L.T Bisschop<br>Academic Medical Center<br>University of Amsterdam
- Brief Summary
Not available
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- Completed
- Sex
- Not specified
- Target Recruitment
- 30
Inclusion Criteria
•Age 11-17
•Going to high school
Exclusion Criteria
•Ocular pathology / color deficiency
•The necessity to wear glasses (and no opportunity to wear contact lenses)
Study & Design
- Study Type
- Observational non invasive
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method oSleep onset time<br /><br>oWake-up time<br /><br>oMid-sleep time<br /><br>oSleep duration<br /><br>oMelatonin onset<br>
- Secondary Outcome Measures
Name Time Method oTotal energy intake<br /><br>oSnacking frequency<br>
Related Research Topics
Explore scientific publications, clinical data analysis, treatment approaches, and expert-compiled information related to the mechanisms and outcomes of this trial. Click any topic for comprehensive research insights.
How does blue light exposure from electronic devices suppress melatonin secretion in adolescents with delayed sleep phase?
What are the comparative effects of blue light versus bright light therapy on circadian rhythm disruption in high school children?
Which biomarkers, such as DLMO or PER/CRY gene expression, correlate with blue light-induced sleep phase delays in NL-OMON23034?
What adverse effects of prolonged blue light exposure on sleep quality are documented in observational studies of adolescents?
How does blue light wavelength (450-495 nm) influence pineal gland activity and circadian phase shifts in the University of Amsterdam trial?