Nov 19, 2025 02:22 AM
https://www.eurekalert.org/news-releases/1106506
INTRO: A mouse study led by University of California, Riverside biomedical scientists suggests that everyday exposure to microplastics — tiny fragments shed from packaging, clothing, and countless plastic products — may accelerate the development of atherosclerosis, the artery-clogging process that leads to heart attacks and strokes. The harmful effects were seen only in male mice, offering new clues about how microplastics may affect cardiovascular health in humans.
“Our findings fit into a broader pattern seen in cardiovascular research, where males and females often respond differently,” said lead researcher Changcheng Zhou, a professor of biomedical sciences in the UCR School of Medicine. “Although the precise mechanism isn’t yet known, factors like sex chromosomes and hormones, particularly the protective effects of estrogen, may play a role.”
Microplastics are now found nearly everywhere: in food, water, the air, and even inside the human body. Recent human studies have detected microplastics in atherosclerotic plaques and linked higher levels to increased risk of cardiovascular disease. However, scientists didn’t understand whether or how microplastics directly contribute to artery damage.
“It’s nearly impossible to avoid microplastics completely,” Zhou said. “Still, the best strategy is to reduce exposure by limiting plastic use in food and water containers, reducing single-use plastics, and avoiding highly-processed foods. There are currently no effective ways to remove microplastics from the body, so minimizing exposure and maintaining overall cardiovascular health — through diet, exercise, and managing risk factors — remains essential.” (MORE - details, no ads)
INTRO: A mouse study led by University of California, Riverside biomedical scientists suggests that everyday exposure to microplastics — tiny fragments shed from packaging, clothing, and countless plastic products — may accelerate the development of atherosclerosis, the artery-clogging process that leads to heart attacks and strokes. The harmful effects were seen only in male mice, offering new clues about how microplastics may affect cardiovascular health in humans.
“Our findings fit into a broader pattern seen in cardiovascular research, where males and females often respond differently,” said lead researcher Changcheng Zhou, a professor of biomedical sciences in the UCR School of Medicine. “Although the precise mechanism isn’t yet known, factors like sex chromosomes and hormones, particularly the protective effects of estrogen, may play a role.”
Microplastics are now found nearly everywhere: in food, water, the air, and even inside the human body. Recent human studies have detected microplastics in atherosclerotic plaques and linked higher levels to increased risk of cardiovascular disease. However, scientists didn’t understand whether or how microplastics directly contribute to artery damage.
“It’s nearly impossible to avoid microplastics completely,” Zhou said. “Still, the best strategy is to reduce exposure by limiting plastic use in food and water containers, reducing single-use plastics, and avoiding highly-processed foods. There are currently no effective ways to remove microplastics from the body, so minimizing exposure and maintaining overall cardiovascular health — through diet, exercise, and managing risk factors — remains essential.” (MORE - details, no ads)
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