Latest news with #humanReproduction
Yahoo
02-07-2025
- Health
- Yahoo
Groundbreaking study finds microplastics in semen and female reproductive fluid
Scientists have detected potentially toxic microplastic particles in human semen and female reproductive fluids for the first time, raising concerns about potential risks to health and fertility. A growing body of research warns that these nearly ubiquitous tiny particles, under 5mm in size, pose a threat to environmental and public health. Previous research has shown that in tissues where microplastics accumulate, these particles can induce inflammation, free radical formation, DNA damage, cellular senescence, and hormone disruptions. A recent study also detected microplastics in human penis samples raising concerns about their potential role in erectile dysfunction. Now, new research, presented on Tuesday at the 41st Annual Meeting of the European Society of Human Reproduction and Embryology (ESHRE), looked for microplastics in semen from 22 men and follicular fluid from 29 women. Researchers found tiny particles of several commonly used microplastic polymers, including polytetrafluoroethylene (PTFE), polystyrene (PS), polyethylene terephthalate (PET), polyamide (PA), polypropylene (PP) and polyurethane (PU), in both fluids. Overall, the new study found microplastics in nearly 70 per cent of the follicular fluid samples analysed. PTFE was the most prevalent, present in nearly a third of the samples, researchers found. About 55 per cent of the analysed semen samples contained microplastics, with PTFE again emerging as the most prevalent polymer. Researchers ruled out contamination as a possible reason for the findings since the samples were collected and stored in glass containers, and underwent chemical treatment before analysis. 'Previous studies had already shown that microplastics can be found in various human organs. As a result, we weren't entirely surprised to find microplastics in fluids of the human reproductive system,' lead scientist Emilio Gomez-Sanchez said. 'But we were struck by how common they were – found in 69 per cent of the women and 55 per cent of the men we studied,' Dr Gomez-Sanchez said. While it is 'possible they could impair egg or sperm quality' in humans, scientists say they 'do not yet have enough evidence to confirm that'. Researchers hope to expand their analysis to a larger population, along with a detailed lifestyle and environmental exposure questionnaire. While studies point to several environmental factors influencing fertility, measuring the direct impacts of different agents remains a challenge. 'There's no need for alarm at this point. Microplastics are just one of many elements that may play a role in fertility,' Dr Gomez-Sanchez said. 'However, it is sensible to consider ways of reducing our exposure to them. Simple steps, such as using glass containers to store and heat food, or limiting the amount of water we consume from plastic bottles, can help minimise our intake,' he said.
The Independent
02-07-2025
- Health
- The Independent
Groundbreaking study finds microplastics in semen and female reproductive fluid
Scientists have detected potentially toxic microplastic particles in human semen and female reproductive fluids for the first time, raising concerns about potential risks to health and fertility. A growing body of research warns that these nearly ubiquitous tiny particles, under 5mm in size, pose a threat to environmental and public health. Previous research has shown that in tissues where microplastics accumulate, these particles can induce inflammation, free radical formation, DNA damage, cellular senescence, and hormone disruptions. A recent study also detected microplastics in human penis samples raising concerns about their potential role in erectile dysfunction. Now, new research, presented on Tuesday at the 41st Annual Meeting of the European Society of Human Reproduction and Embryology (ESHRE), looked for microplastics in semen from 22 men and follicular fluid from 29 women. Researchers found tiny particles of several commonly used microplastic polymers, including polytetrafluoroethylene (PTFE), polystyrene (PS), polyethylene terephthalate (PET), polyamide (PA), polypropylene (PP) and polyurethane (PU), in both fluids. Overall, the new study found microplastics in nearly 70 per cent of the follicular fluid samples analysed. PTFE was the most prevalent, present in nearly a third of the samples, researchers found. About 55 per cent of the analysed semen samples contained microplastics, with PTFE again emerging as the most prevalent polymer. Researchers ruled out contamination as a possible reason for the findings since the samples were collected and stored in glass containers, and underwent chemical treatment before analysis. 'Previous studies had already shown that microplastics can be found in various human organs. As a result, we weren't entirely surprised to find microplastics in fluids of the human reproductive system,' lead scientist Emilio Gomez-Sanchez said. 'But we were struck by how common they were – found in 69 per cent of the women and 55 per cent of the men we studied,' Dr Gomez-Sanchez said. While it is 'possible they could impair egg or sperm quality' in humans, scientists say they 'do not yet have enough evidence to confirm that'. Researchers hope to expand their analysis to a larger population, along with a detailed lifestyle and environmental exposure questionnaire. While studies point to several environmental factors influencing fertility, measuring the direct impacts of different agents remains a challenge. 'There's no need for alarm at this point. Microplastics are just one of many elements that may play a role in fertility,' Dr Gomez-Sanchez said. 'However, it is sensible to consider ways of reducing our exposure to them. Simple steps, such as using glass containers to store and heat food, or limiting the amount of water we consume from plastic bottles, can help minimise our intake,' he said.
BBC News
15-06-2025
- Health
- BBC News
'Forever chemical' TFA found in all but one of tested UK rivers
A chemical that scientists worry might have an impact on human reproduction has been found in rivers across the from York University analysed samples from 32 rivers in all the UK's 4 nations and found traces of trifluoroacetic acid (TFA) at 98% of the test is what's known as a "forever chemical" which means that it breaks down extremely slowly in nature, and so accumulates over with other "forever chemicals", also known as PFAS, just how much a threat to human health and at what concentrations is still being researched. But scientists in Germany say having looked at the impact of TFA on animals they want it to be classed as toxic for reproduction. TFA forms when synthetic chemicals from other "forever chemicals" such as those found in pesticides and refrigerants are partially broken down. "This molecule (TFA) is everywhere," Alistair Boxall, professor of Environmental Science at the University of York who carried out the research, told the BBC. "We will all be drinking water containing TFA every day - so we'll be exposed throughout our lifetime. It's that long-term, low level exposure that is the big concern."This new study was funded by environmental charity Fidras and involved sampling in 5 rivers in Wales, 3 in Northern Ireland 14 in Scotland and 10 in the north of England. The highest concentration was recorded on the River Kelvin in River Ness, which flows from Loch Ness to the Moray Firth, was the only river sampled not to show traces of studies in the EU have found TFA to be widespread, including in wine and food, human blood and breast milk. Authorities in Germany have been looking with interest at rising TFA levels in drinking water. In the last two decades its concentrations have gone up fourfold and researchers have been trying to establish what impact - if any - it might have on human health. Citing scientific studies that showed TFA affecting rabbit and rat foetuses, the German Federal Environment Agency (UBA) has applied to the European Chemicals Agency (ECHA) for TFA to be classified as toxic for reproduction and harmful to the environment. That could eventually lead to recommendations being made in the EU as to how products containing TFA should be controlled."Currently, there are no expected adverse health effects from consuming water or food contaminated with TFA," said Andreas Hensel, president of the German Federal Institute for Risk Assessment (BfR). "The new classification is an important step in preparing further measures to ensure that this remains the case in the future".There aren't currently any rules or regulations in place to identify or reduce the concentrations of TFA either in the environment or in drinking water supplies in the aware of concerns, the Drinking Water Inspectorate, which monitors and regulates drinking water quality in England and Wales, has just commissioned its own research. It will look at how much TFA is already in drinking water and what risk - if any - it poses. "The information signposted by the University of York suggests that TFA can be formed from the degradation of PFAS-containing pesticides," Ann Bunting, Principal Inspector of the Drinking Water Inspectorate, told the BBC. "It is important that the fate of pesticides and other chemicals in the environment is understood, in order to protect drinking water sources."A spokesperson for Water UK, which represents the UK's water companies, told the BBC: "We want to see PFAS, including TFA, banned and the development of a national plan to remove it from the environment which should be paid for by manufacturers."
