by Olivia Cook, Natural News:
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- Scientific evidence suggests mercury can disrupt brain function through oxidative stress, mitochondrial dysfunction and glial cell impairment – factors also observed in autism.
- Some individuals have genetic variations, such as differences in the glutathione-S-transferase (GST) gene, which make it harder for their bodies to detoxify mercury. This could increase their vulnerability to its neurological effects.
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- The “pink disease” (acrodynia) outbreak in the early 20th century, caused by mercury-containing teething powders, showed that mercury exposure can lead to symptoms similar to those seen in autism, emphasizing the need for caution.
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- Despite the reportedly significant reduction in vaccine-related mercury exposure, autism rates have continued to rise, indicating that other factors may be at play. Thus, more studies are needed to explore mercury’s long-term effects and genetic influences.
In recent years, the search for autism’s causes has intensified, revealing a complex interplay between genetic predisposition and environmental influences. Among the environmental factors under scrutiny, mercury – a known neurotoxin – has been examined for its potential role in disrupting brain function.
Scientific findings in a study published in the journal Toxicological and Environmental Chemistry suggest that mercury could contribute to neurological disruptions associated with the condition. Understanding the potential connection requires exploring how mercury affects brain cells, particularly glial cells, mitochondria and neurotransmitters, and how genetic factors may may some individuals more vulnerable to its effects.
Autism spectrum disorder (ASD) is a neurodevelopmental condition characterized by communication challenges, differences in social interaction, repetitive behaviors and sensory sensitivities. While autism was once considered “rare” or uncommon, autism is now diagnosed in approximately one in 36 children in the U.S., an increase from the previous estimate of one in 44 – a rise that has prompted researchers to investigate possible contributing factors. Additionally, around one in 45 adults in the country are on the spectrum.
The causes of autism remain elusive but research suggests a combination of genetic susceptibility and environmental influences. Some scientists have explored whether exposure to neurotoxic substances, including mercury, might play a role – especially during critical periods of brain development.
Understanding mercury, a pervasive neurotoxin
Mercury is a naturally occurring heavy metal found in the environment but human activity – such as industrial emissions and certain medical and consumer products – has increased its presence. Mercury exists in several forms: (a) elemental mercury (the silvery liquid once used in thermometers and some industrial applications). (b) inorganic mercury found in dental fillings or amalgams and some skin-lightening creams and (c) organic mercury or methylmercury (found in seafood, particularly large fish like tuna and swordfish, due to bioaccumulation in the food chain).
Due to its widespread presence, humans are exposed to mercury through air pollution, contaminated seafood, dental procedures and historically, some medical products, including certain vaccines, While thimerosal (a mercury-containing preservative) has been largely removed from routing childhood vaccines, concerns about mercury’s broader impact on brain development persist.
Mercury’s neurotoxic effects stem from its ability to interfere with essential biological processes in brain cells. It disrupts cellular function by binding to sulfur-containing molecules, which are critical for brain health. This can also lead to several harmful effects such as:
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- Oxidative stress: Oxidative stress occurs when there is an interaction between harmful molecules called reactive oxygen species (ROS) and the body’s ability to neutralize them. Mercury exposure can increase ROS levels, leading to cellular damage, inflammation and impaired brain function. The brain is particularly vulnerable because it has high oxygen consumption and relatively fewer antioxidant defenses.
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- Mitochondrial dysfunction: Mitochondria, often called the “powerhouses of the cell,” generate the energy that cells need to function. Mercury has been shown to impair mitochondrial function, leading to reduced energy production and increased oxidative stress – both of which have been observed in autistic individuals. Energy deficits in brain cells can impair cognitive function, communication and memory, which are key challenges in autism.
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- Glial cell disruption: Glial cells, which include astrocytes and microglia, are the brain’s support cells. They help regulate neurotransmitter levels, maintain the blood-brain barrier (which controls what enters and exits the brain) and protect neurons from damage.
Mercury exposure has been found to interfere with glial cell function, potentially leading to:
