'Gender-bending' chemical found in food and plastic bottles now linked to ADHD and autism

A toxin found in food, drinks and other everyday items lingers longer in the bodies of kids with autism and ADHD, a study suggests.

Bisphenol A (BPA) is a chemical compound that has been dubbed a 'gender-bending' chemical because of its ties to hormonal and sexual problems.

Now, researchers from Rowan University and Rutgers University in New Jersey have found that kids with autism and ADHD cannot expel BPA from their bodies as quickly as neurotypical kids. BPA has been linked to both conditions previously, though this is the first to find that kids with ADHD and autism have a harder time eliminating the chemical.

The researchers also believe increased BPA exposure may increase the risk of developing these conditions but admit it is not clear how that works.

But the new link is bound to reignite calls to clamp down on the amount of BPA allowed in products in America, which has some of the most lax rules in the Western world.

Earlier this year, European officials drastically reduced the maximum amount of BPA by 20,000 times after finding that millions of people are likely consuming too much of the dangerous chemical. However, the Food and Drug Administration (FDA) allows much higher levels.

The US also has some of the highest autism and ADHD rates in the world, with rates of autism in particular increasing by 52 percent since 2017.

The study, published last month in the journal PLOS One, measured detoxification efficiency- how quickly the body eliminates chemicals like BPA- in 66 children with autism, 46 with ADHD, and 37 neurotypical children. The participants were three to 16 years old.

In order to determine how much BPA they purged, researchers collected urine samples from each child between 10 a.m. and 4 p.m., which were then frozen. The team also measured the children's dietary and vitamin intake.

They found that children with autism are 10 percent less able to eliminate BPA from their bodies, while kids with ADHD are 17 percent less able to purge the chemical.

Dr T Peter Stein, professor at the Roman-Virtua School of Osteopathic Medicine and lead study author, said this compromised ability to clear BPA and other pollutants from the body is 'the first hard biochemical evidence of what the linkage is between BPA and the development of autism or ADHD.'

'We were surprised to find that ADHD shows the same defect in BPA detoxification.'

BPA is an 'endocrine disruptor,' meaning it can imitate the body's hormones and interfere with the production of and response to natural hormones like estrogen. It has also been linked to low sperm counts and infertility in men, as well as breast and prostate cancer.

It's found in plastic containers and water bottles, on the inside of food cans, and even in sunglasses.

Previous research has found associations between children with autism and exposure to BPA, though this new study is the first to find that children with this condition are less able to expel the chemical.

About one in 36 children in the US have autism spectrum disorder (ASD), a developmental disability.

People with ASD often have problems with social communication and interaction, as well as restricted or repetitive behaviors and interests.

The rate is higher among boys — four in 100 — compared to girls — one in 100.

There is no one definitive cause of autism, and research suggests the disorder develops from a combination of genetic and environmental influences that affect early brain development.

Attention deficit/hyperactivity disorder (ADHD) is a common disorder that is typically diagnosed in childhood, but recent years have seen an increase in adult diagnoses.

Neuroscientists have not pinned down a cause for ADHD, though genetics is believed to play a major role.

The primary symptoms of ADHD, which typically manifest before age 12, include inattention and hyperactive-impulsive behavior. People with ADHD may be continuously fidgety, unable to concentrate on a given task, talk excessively, interrupt others and be easily distracted, among other symptoms.

Stimulants are the most commonly used medications for ADHD because they increase levels of dopamine, a neurochemical key to concentration and sustained focus.

Medications work by slowing down how much dopamine is reabsorbed back into the neuron that produced it in the first place.

By slowing down the reuptake of dopamine, the neurotransmitter has more time to travel from neuron to neuron, relaying information and eventually binding to a receptor, thus helping messages within the brain be more effectively transmitted and received.

This improves communication in parts of the brain that produce dopamine and norepinephrine, a chemical that helps a person stay awake, pay attention, and think clearly.

The rate of women in their twenties filling prescriptions for ADHD medications such as Adderall spiked nearly 20 percent from 2020 to 2021, while that rate among adult men aged 30 to 39 jumped nearly 15 percent.

The team said that more research is needed to figure out if BPA exposure leads to an increased risk of developing autism or ADHD.

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