High on Health: A Link Between Microplastics and Alzheimer’s

Can these toxic chemicals speed up or even cause the disease?

As we age, we tend to become more focused on our health. Besides heart disease, diabetes, and cancer, we also have to worry about cognitive decline. Nearly seven million Americans live with Alzheimer’s disease, according to the Alzheimer’s Association. One in 14 people develops the disease by age 65, and one in three is diagnosed by 85. Among the most common neurodegenerative disorders, Alzheimer’s is also a top cause of death for individuals 65 and older. Now, new studies suggest that just three weeks of exposure to microplastics can lead to Alzheimer’s, at least in rats. The claim is based on animal research and shows a surprising, and scary, link between microplastics in the brain and dementia – or worse.

Until recently, it was unclear whether tiny plastics would be found in the human brain. However, in 2025, a study in Nature Medicine measured micro- and nanoplastics in several organs of deceased individuals and discovered that the particles were more concentrated in the brain than in the liver or kidneys. The authors reported that brain concentrations were “7–30 times greater” than in the other organs. They also observed that dementia cases had higher contamination levels than those of non-dementia controls. Furthermore, brain levels in 2024 samples were about 50% higher than in 2016.

The Role of Microplastics in Alzheimer’s Disease

In 2023, researchers at the University of Rhode Island gave mice drinking water containing tiny polystyrene plastic particles for three weeks. After the exposure, they looked at the animals’ behavior and examined their tissues. Microplastics showed up in several organs, including the brain, which means the particles could cross the brain’s protective barrier (the blood–brain barrier) after only a short time. The university’s summary described finding a particle “deep in the brain tissue,” and the peer-reviewed paper reports changes to the brain and immunity after the brief exposure.

“We were very surprised to see that,” said Jamie Ross, an assistant professor of biomedical and pharmaceutical sciences at the Ryan Institute for Neuroscience and an author of the study. “The brain blood barrier is supposed to be very difficult to permeate. It is a protective mechanism against viruses and bacteria, yet these particles were able to get there. It was actually deep in the brain tissue.”

The study was performed with several questions in mind, Ross explained:

“Nobody really understands the life cycle of these microplastics in the body, so part of what we want to address is the question of what happens as you get older. Are you more susceptible to systemic inflammation from these microplastics as you age? Can your body get rid of them as easily? Do your cells respond differently to these toxins? We also really want to understand if there are differences in how males and females respond to the toxins.”

In a similar study published in August this year – with many of the same authors, including Ross – mice were bred to carry human-like gene variants. The animals with APOE4 – the major human risk gene for late-onset Alzheimer’s – scored lower on memory and behavior tests than mice with the lower-risk APOE3 variant. The authors wrote that they saw “significant sex-dependent alterations … in APOE4 mice, but not in APOE3 controls.” Male APOE4 mice showed changes in exploration, and female APOE4 mice did worse on a recognition-memory task, which are considered patterns that echo some sex differences seen in human Alzheimer’s.

Male mice exposed to microplastics for three weeks wandered around the box they were placed inside instead of staying in the corners for protection; researchers say this suggests a lack of regard for safety, which is often a characteristic of Alzheimer’s. Female mice showed signs of memory problems, had difficulty recognizing familiar objects, and struggled to complete mazes. The authors of the study believe that these behaviors “mimic tell-tale signs of Alzheimer’s disease in humans, as men with the disease are more likely to be indifferent or unmotivated while women have more memory issues,” the Daily Caller explained.

Another team used advanced microscopes to watch what happens in awake mice. They found that microplastics traveling in the bloodstream were swallowed by immune cells. The loaded cells then got stuck in the brain’s tiniest blood vessels, cutting down local blood flow. In the same rodents, the researchers recorded short-term movement and memory problems matching the brief blockages of blood flow. This offers a clear pathway from exposure to brain effects, as reported by Science Advances.

Mice live short lives, so scientists use brief, controlled exposures, often at higher doses, for their tests. The important takeaway here is not the exact number of days of exposure; it’s the pattern. In mice, microplastics reach the brain in a few weeks, produce Alzheimer’s-like behavior changes in animals with the APOE4 gene, and trigger shifts in brain immune markers. That points to a real risk worth tracking in people, especially those with known genetic risks, as PubMed pointed out.

Researchers are still working to find answers to a variety of questions, such as which particle sizes and plastic types are most harmful, how to measure exposure in living people, and whether higher levels in blood or brain fluids predict faster memory decline over time. With Alzheimer’s cases and microplastic pollution both on the rise, the urgent need for answers has never been clearer.