New research reveals that using smartphones or tablets an hour after getting into bed increases insomnia risk by 59%. This insight, drawn from a major study on university students’ screen habits and sleep, underscores how late-night devices may significantly disrupt a person’s sleeping habits.

Screen time, particularly before bedtime, can disrupt the body’s natural sleep-wake cycle. Research consistently demonstrates that screen exposure, especially to blue light, disrupts sleep by suppressing melatonin production, a key hormone regulating the sleep-wake cycle.

Sleep issues are alarmingly prevalent among university students worldwide. The Norwegian study, involving over 45,000 participants aged 18-28, examined screen use in bed and sleep patterns. Findings revealed that each hour of in-bed screen time reduces sleep duration by 24 minutes and increases insomnia risk. Interestingly, the researchers found, these declines in sleep duration and sleep quality were consistent regardless of how a person was using their screen.

Smartphones are constantly being used anytime of the day and are considered hubs of entertainment. Sleep experts often suggest that social media may disrupt sleep more than passive activities like watching TV. This makes sense, as social media platforms are engineered to sustain engagement through interactions, notifications, and infinite scrolling, making it hard to disengage.

Increasing evidence confirms that screen use at bedtime has clear causal effects, disrupting sleep through time displacement, emotional arousal, and media engagement. Non-screen users showed a 24% reduced chance of insomnia symptoms, highlighting the value of excluding devices from the bedroom as an effective sleep hygiene strategy. If you face sleep challenges and think screen time might contribute, aim to cut back on device use in bed, ideally pausing 30-60 minutes before bedtime.

While questions about screen use and sleep persist, experts emphasize creating strong associations between your bed and restful sleep. They recommend keeping screens out of the bedroom entirely and charge your phone in another room overnight. Choose to use a classic alarm clock to wake up and swap bedtime screen use for other activities such as reading or enjoying music.

If you need to use your computer or smart phone after dark then it will help if you wear blue blocking glasses.

To view the original scientific study click below:
How and when screens are used: comparing different screen activities and sleep in Norwegian university students

You might want to add chewing gum to your list of unexpected microplastic sources. A new preliminary study reveals that just one piece can release up to thousands of microplastic particles directly into your saliva.

Analysis showed that just one gram of chewing gum released an average of around 100 microplastic bits, and some samples releasing as many as 637 microparticles per gram. Since a single stick of gum often weighs between one and several grams, the total exposure could be significantly higher.

On average, someone who regularly chews gum could end up ingesting around 30,000 of the particles annually. The researchers set out to determine how much microplastic exposure might result from chewing both natural and synthetic gums. The researchers examined five different brands of synthetic gum and five varieties of natural gum.

The test consisted of one participant chewing each gum for four minutes, with researchers collecting saliva samples every 30 seconds using lab tubes. After chewing, the participant thoroughly rinsed their mouth several times with highly purified water. These rinses were then combined with the saliva samples to capture any remaining microplastics. The full process was repeated seven times for each gum variety.

Additionally, some gum samples were chewed for a full 20 minutes, with collection of the saliva every two minutes. This allowed researchers to assess how chewing duration affected the amount of microplastics released.

Interestingly, 94% of microplastics were emitted during the first eight minutes of chewing, suggesting most of the release happens early on. The researchers discovered that natural gums offered little advantage. On average, one gram of synthetic gum contained 104 microplastic particles, while natural gum wasn’t far behind, with 96 particles per gram.

To help limit microplastic exposure from gum, the researchers suggest chewing a single piece for a longer period rather than frequently switching to a new one. The study was only able to detect microplastics 20 micrometers or larger due to the limitations of the equipment and methods used. As a result, smaller particles, such as nanoplastics, may have gone undetected, highlighting the need for further research into the potential release of these tiny plastics during chewing.

To view the original scientific study click below:
Chewing gum can shed microplastics into saliva, pilot study finds