• Exposure to mercury during prenatal development (via the placenta) and early childhood (due to immature detoxification systems) may contribute to brain changes linked to autism spectrum disorders (ASD). The first trimester and early postnatal years are particularly sensitive periods.
• Children with ASD tend to have higher levels of mercury in their blood, hair and urine, likely due to impaired detoxification systems, including deficits in glutathione (GSH) and metallothionein (MT) proteins, which are crucial for eliminating toxic metals.
• Key exposure sources include dental amalgams (mercury fillings), environmental pollution (coal plants, industrial emissions), maternal seafood consumption and certain medications like pregnancy shots of Rho(D) immune globulin. Some studies also suggest that ASD children may absorb more toxins due to altered gut microbiota (often due to antibiotic use) and increased intestinal permeability.
• Studies using brain imaging reveal that children with ASD often show altered brain structures, particularly in the cerebellum, temporal lobe and limbic system, which are involved in cognitive and emotional processing. Mercury’s neurotoxic effects, including oxidative stress and inflammation, may play a role in these changes.

Autism spectrum disorder (ASD) is a complex neurodevelopmental condition that affects behavior, communication and social interaction. While genetics play a significant role, researchers continue to explore environmental factors that might contribute to autism risk. One potential culprit under investigation is mercury (Hg), a known neurotoxin found in food, air and water.

A systematic review published February 2024 in the Journal of Neurochemistry analyzed 57 studies to examine whether exposure to mercury – particularly during pregnancy and early childhood – could influence autism risk. The results were mixed, but scientists agree that understanding how environmental toxins interact with genetic vulnerabilities is crucial.

The developing brain is highly sensitive to environmental influences, especially during pregnancy and early childhood. Mercury, which can cross biological barriers, may interfere with neural development at these critical stages.

• Prenatal exposure. The placenta filters harmful substances but it is not a perfect shield. Mercury can reach the fetal bloodstream, particularly during the first trimester, when key brain structures are forming.
• Postnatal exposure. After birth, infants have an immature blood-brain barrier and underdeveloped detoxification systems, making them more vulnerable to environmental toxins like mercury.

Some studies suggest that mercury exposure during this window could heighten autism-related traits in children with a reduced ability to eliminate heavy metals.

The studies examined mercury levels in blood, hair, urine and baby teeth. Some found high levels of mercury in autistic children while others did not identify a significant difference. The most notable findings came from hair analyses, where 14 out of 21 studies reported higher mercury levels in children with autism. One study analyzing baby teeth suggested prenatal exposure may contribute to mercury accumulation.

One intriguing finding is that children with autism may have a harder time eliminating mercury from their bodies, leading to higher internal levels. Possible explanations include:

• Weakened detoxification systems. Children with autism may have lower levels of glutathione (GSH) and metallothionein (MT), proteins that help remove heavy metals.
• Oxidative stress and inflammation. Mercury exposure has been linked to increased oxidative stress, which can damage brain cells.
• Gut microbiome differences. Research suggests gut bacteria influence how the body processes toxins. Children with autism often have altered gut microbiomes (possibly due to increased antibiotic use), which could affect mercury metabolism (how their bodies convert and eliminate mercury), leading to greater accumulation.

Common sources of mercury exposure

Mercury is a naturally occurring element but human activity has increased its presence in the environment. Common exposure sources include:

• Food. Certain fish, like swordfish and tuna, contain high mercury levels due to ocean pollution. (Related: Mercury exposure in the oceans is getting worse, causing mercury levels in seafood to rise.)
• Air pollution. Industrial emissions, particularly from coal-burning power plants, release mercury into the atmosphere.
• Water contamination. Industrial waste can lead to mercury accumulation in lakes, oceans and rivers.
• Dental fillings and medications. Silver amalgam fillings contain mercury, though research suggests minimal risk. While thimerosal, a mercury-based preservative, has been largely removed from most childhood vaccines in the U.S., it is still used in some vaccines, such as certain flu shots. Moreover, many countries around the world continue to use thimerosal in pediatric vaccines. (Related: FACT CHECK: Some flu vaccines still contain Thimerosal [mercury], “potent neurotoxin.”)

Brain changes and the role of environment and socioeconomic factors

Studies using brain imaging studies show that individuals with autism often have differences in the cerebellum, limbic system and temporal lobe – areas linked to communication, emotion and sensory processing. Interestingly, while this suggests a possible connection, scientists are cautious about making definitive conclusions, as multiple factors contribute to brain development.

Studies have also examined geographic and socioeconomic factors in mercury exposure and autism rates. Some findings include higher autism prevalence near industrial sites that release mercury and increased mercury levels in umbilical cord blood of babies whose mothers consumed high-mercury fish during pregnancy.

However, not all studies agree, further reinforcing the need for careful, controlled research.

At this stage, the systematic review adds to a growing body of research suggesting mercury exposure may be one of many contributing factors for children with certain genetic vulnerabilities or physiological susceptibilities.

While research and scientific inquiry continue, experts advise minimizing mercury exposure where possible. This includes being mindful of fish consumption (especially high-mercury fish) during pregnancy and reducing exposure to industrial pollutants. A cautious, science-based approach to environmental exposures is a reasonable step toward protecting neurodevelopmental health.

Visit HeavyMetals.news for more stories about mercury and its harms.

Watch the following video to learn more about trace amounts of ethylmercury vs methylmercury.

This video is from the OneNinetyFiveNationsRising channel on Brighteon.com.

More related stories:

Study raises questions about mercury exposure and autism: A look at nine children’s stories.

The mercury-autism connection: What the science says.

Hidden flaws in vaccine safety studies: Unpacking the truth about thimerosal, vaccines and autism.

Sources include:

OnlineLibrary.Wiley.com

Brighteon.com