Summary: One-third of subjects who started using cannabis frequently before age 18 were more likely to report insomnia and short sleep duration as adults.
Source: University of Colorado
Smoke a lot of weed as a teenager, and when you reach adulthood you’ll be more likely to have trouble falling or staying asleep, according to a new University of Colorado Boulder study of more than 1,800 twins.
The study, published in the journal Sleep, comes at a time when cannabis—in everything from THC-infused gummies to prerolled joints and high-potency vape pens—is increasingly being marketed as a sleep aid in states where marijuana is legal. It adds to a growing body of evidence suggesting that while it may help some users fall asleep occasionally, chronic use can have negative long-term consequences, particularly for the young.
“People tend to think that cannabis helps with sleep, but if you look closely at the studies, continued or excessive use is also associated with a lot of sleep deficits,” said lead author Evan Winiger, a graduate student in the Institute for Behavioral Genetics. “Our study adds to that literature, showing for the first time that early use is associated with increased rates of insomnia later on.”
For the study, Winiger analyzed data from 1,882 young adults from the Colorado Twin Registry, which has been following twins for research since 1968. Each had completed surveys about their sleep habits, marijuana use and mental health.
They found that about one-third of subjects who started using marijuana regularly before age 18 had insomnia in adulthood, compared to less than 20% among those who didn’t use cannabis regularly as teens. The same pattern held true for a particularly hazardous form of insomnia known as “short sleep” (sleeping fewer than six hours per night on a regular basis). About one in 10 subjects who used cannabis regularly as teens grew up to be short-sleepers, while only about 5% of non-users did.
People who started using marijuana after they turned 18 also had slightly higher rates of insomnia in young adulthood. And these patterns persisted when controlling for depression, anxiety and shift work (which can all also impair sleep).
Lasting impacts on developing brains
Exactly why early cannabis use correlates with later sleep problems remains unclear, but several theories are emerging.
As Winiger explains, the human body has its own endocannabinoid system, producing chemicals much like the cannabinoids (CBD and THC) present in marijuana that bind to cannabinoid receptors in our brains and have been shown to influence our cognition, emotions and circadian rhythm—or body clock.
“One theory is that these receptors are being desensitized or disturbed from all the cannabis use at a time that the brain is still developing, and that leads to waking issues later,” he said.
It could also be that cannabis use in adolescence leads to structural changes in the brain. (Previous brain imaging studies have shown it can alter the developing prefrontal cortex.)
Or chronic use may set teens up for poor sleep habits when they are young, which linger into adulthood.
Genes may also be at play.
By looking at 472 identical twin pairs (who share 100% of their genetic makeup) and 304 fraternal pairs (who share only 50%), the researchers were able to infer to what degree the traits were inherited. They concluded that many of the same genes that contribute to the risk of early cannabis use are also associated with insomnia and insomnia with short sleep.
This is the first study to find a direct genetic correlation between cannabis use and insomnia.
In short, it remains a chicken-and-egg question.
“It is possible that sleep problems could influence cannabis use, cannabis use could influence sleep problems, or common genetics could be responsible,” the authors wrote.
Co-author Ken Wright, director of the Sleep and Chronobiology lab, says the study does not necessarily mean all strains of marijuana are bad for sleep in all people all the time. Some previous studies show cannabis can help people fall asleep if used occasionally.
“The evidence in adults is quite mixed, and unfortunately we can’t do randomized controlled trials with different strains and different doses,” Wright said, pointing to federal laws that prohibit researchers from handling cannabis, providing it to subjects or being present while subjects use it.
What he can say now is this:
“We would not recommend that teenagers utilize marijuana to promote their sleep. Anytime you are dealing with a developing brain you need to be cautious.”
About this neuroscience research article
Source: University of Colorado Media Contacts: Lisa Marshall – University of Colorado Image Source: The image is in the public domain.
Onset of regular cannabis use and young adult insomnia: an analysis of shared genetic liability
Study Objectives Estimate the genetic and environmental influences on the relationship between onset of regular cannabis use and young adult insomnia.
Methods In a population-based twin cohort of 1882 twins (56% female, mean age = 22.99, SD = 2.97) we explored the genetic/environmental etiology of the relationship between onset of regular cannabis use and insomnia-related outcomes via multivariate twin models.
Results Controlling for sex, current depression symptoms, and prior diagnosis of an anxiety or depression disorder, adult twins who reported early onset for regular cannabis use (age 17 or younger) were more likely to have insomnia (β = 0.07, p = 0.024) and insomnia with short sleep on weekdays (β = 0.08, p = 0.003) as young adults. We found significant genetic contributions for the onset of regular cannabis use (a2 = 76%, p < 0.001), insomnia (a2 = 44%, p < 0.001), and insomnia with short sleep on weekdays (a2 = 37%, p < 0.001). We found significant genetic correlations between onset of regular use and both insomnia (rA = 0.20, p = 0.047) and insomnia with short sleep on weekdays (rA = 0.25, p = 0.008) but no significant environmental associations between these traits.
Conclusions We found common genetic liabilities for early onset of regular cannabis use and insomnia, implying pleiotropic influences of genes on both traits.