Summary: A new study suggests prenatal cannabis exposure may influence long-term brain development and mental health.
Researchers used data from the ABCD Study to examine neuroimaging of children exposed to cannabis in utero. They found potential biological mechanisms, including altered brain structure and inflammation, that may contribute to behavioral issues.
The study highlights the complexity of linking prenatal cannabis exposure to later mental health outcomes.
Key Facts:
- Prenatal Exposure Impact: Cannabis exposure in utero may alter brain development and increase mental health risks.
- Neuroimaging Insights: Changes in brain structure and inflammation were observed in exposed children.
- Complex Factors: Differentiating effects of cannabis from genetics and environment remains challenging.
Source: WUSTL
Scientists are trying to understand how cannabis may affect long term neurodevelopment when people were exposed to it in the womb. Previous work by WashU researchers Sarah Paul and David Baranger in the Behavioral Research and Imaging Neurogenetics (BRAIN) lab led by Ryan Bogdan found associations between prenatal cannabis exposure and potential mental health conditions in childhood and adolescence, but potential biological mechanisms that could possibly explain this association were unclear.
In research published in Nature Mental Health this month, Bogdan, the Dean’s Distinguished Professor of Psychological & Brain Sciences at Washington University in St. Louis, and Postdoctoral Fellow Baranger, outline some of those potential mechanisms, the intermediate biological steps that could play into how prenatal cannabis exposure leads to behavioral issues down the line.
“We see evidence that cannabis exposure may influence the developing brain, consistent with associations with mental health,” said Baranger.
Trying to draw out the long-term impacts of cannabis exposure during pregnancy is not a simple knot to untangle. There are many confounding factors that affect mental health and behavior.
For example, say someone was exposed to cannabis in utero and later develops attention deficit disorder as a teen—how do you differentiate that as an inherited trait, or a trait influenced by environmental factors, versus a trait that was influenced by cannabis exposure early in development? Or all three processes could contribute to eventual psychopathology.
Another complication is the increasing prevalence of cannabis use, including among the pregnant population where cannabis use has increased from 3 to 7 percent from 2002 to 2017.
Researchers used statistical methods to filter out some of these confounding factors and to suggest potential biological measurements between prenatal cannabis exposure and types of adolescent behavior.
Nothing can 100 percent establish causation “but we can look at the plausibility of causation, and identifying potential biological correlates that are associated with cannabis exposure and these mental health outcomes suggests it’s plausible,” said Bogdan about the study results.
Researchers have been using data from the Adolescent Brain and Cognitive Development (ABCD) Study, an ongoing research project that includes nearly 12,000 children across the United States.
As part of that study, researchers collected data about each mother’s substance use prior to the birth and neuroimaging data at ages 9-10 and 11-12. Some 370 children were exposed to cannabis prior to the mother’s knowledge of pregnancy, and 195 were exposed both before and after learning of pregnancy.
The researchers looked at a variety of neuroimaging measurements that are important in brain development, including measures of brain thickness and surface area, as well as measures of water diffusion in and out of cells. The patterns found in the group of children exposed to cannabis before birth are consistent with potential reductions in neuroinflammation.
“It’s possible what we’re seeing is an anti-inflammatory effect of cannabis which is leading to differences in how the brain is being pruned during neuro development,” said Bogdan.
Much has been touted about the anti-inflammatory effects of cannabis, but it’s not always good to reduce inflammation. It’s all about the timing. Too much of a reduction of inflammation at the wrong time could affect how the brain is pruned and primed.
Another theory is that cannabis exposure leads to accelerated aging. But don’t expect to find the smoking gun of biological clues pinning mental health conditions to early cannabis exposure.
It might not even be about pruning. It might also not be from the cannabis use itself, but rather the post combustion products from smoking cannabis that might set off accelerated aging and the downstream cognitive effects, said Bogdan.
Or, it’s all down to sociological factors.
Trying to find the one-to-one connection that proves that prenatal cannabis exposure has negative effects during the teenage years is a challenge and may not be possible with retrospective studies.
Baranger notes that the major limitation of this data set is that it was retrospective; mothers reported what their cannabis use was 10 years ago, so he’s looking forward to new data from prospective, longitudinal studies that will offer more recent, accurate and detailed information about cannabis use in pregnancy.
“That will potentially give us more answers to these questions in the future.”
In the meantime, results from this study reaffirm that if you’re thinking about using cannabis while pregnant, “talk to your doctor about your choices and what other options there might be,” said Baranger.
Funding: Research reported in this press release was supported by R01DA54750 (RB, AA). Additional funding included: DAAB (K99AA030808), APM (T32DA015035), AJG (DGE-213989), SEP (F31AA029934), ASH (K01AA030083), ECJ (K01DA051759; BBRF Young Investigator Grant 29571), CER (R01DA046224), AA (R01DA54750), RB (R01DA54750, R21AA027827, U01DA055367). Data for this study were provided by the Adolescent Brain Cognitive Development (ABCD) study which was funded by awards U01DA041022, U01DA041025, U01DA041028, U01DA041048, U01DA041089, U01DA041093, U01DA041106, U01DA041117, U01DA041120, U01DA041134, U01DA041148, U01DA041156, U01DA041174, U24DA041123, and U24DA041147 from the NIH and additional federal partners (https://abcdstudy.org/federal-partners.html).
The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.
About this CUD and developmental neuroscience research news
Author: Leah Shaffer
Source: WUSTL
Contact: Leah Shaffer – WUSTL
Image: The image is credited to Neuroscience News
Original Research: Closed access.
“Prenatal cannabis exposure is associated with localized brain differences that partially mediate associations with increased adolescent psychopathology” by Ryan Bogdan et al. Nature Mental Health
Abstract
Prenatal cannabis exposure is associated with localized brain differences that partially mediate associations with increased adolescent psychopathology
Prenatal cannabis exposure (PCE) is associated with mental health problems in early adolescence, but the possible neurobiological mechanisms remain unknown.
In a large longitudinal sample of adolescents (ages 9–12 years, n = 9,322–10,186), we find that PCE is associated with localized differences in gray and white matter of the frontal and parietal cortices, their associated white matter tracts, and striatal resting-state connectivity, even after accounting for potential pregnancy, familial, and child confounds.
Variability in forceps minor and pars triangularis diffusion metrics partially longitudinally mediate associations of PCE with attention problems and attention deficit hyperactivity disorder symptoms.
PCE-related differences in brain development may confer vulnerability to worse mental health in early adolescence.