Plastic on the Brain: Groundbreaking Study Detects Microplastics in Human Olfactory Bulbs for the First Time

By GreenMedInfo Research Group

Tiny plastic particles are infiltrating our bodies at an alarming rate, with new research uncovering their presence in human brains, reproductive organs, and even our bloodstream.

Quick Summary:

• Microplastics have been detected in human olfactory bulbs, suggesting a direct pathway to the brain
• The presence of microplastics in human and canine testes raises concerns about impacts on male fertility
• Individuals with microplastics in arterial plaque face 4.5 times higher risk of heart attack, stroke, or death
• Simple solutions like boiling water can reduce microplastic exposure, but systemic changes are urgently needed

In recent years, the pervasive nature of plastic pollution has become increasingly apparent, with microplastics found in the remotest corners of our planet. However, new research is revealing an even more disturbing reality: these tiny plastic particles are not just in our environment, but have infiltrated our bodies in ways previously unimagined. From our brains to our reproductive organs and even our bloodstream, microplastics are turning up in human tissues with alarming frequency and potential health consequences.

Microplastics in the Human Brain

A groundbreaking study published in JAMA Network Open has provided the first evidence of microplastics in the human olfactory bulb, the part of the brain responsible for processing smell. This discovery raises serious concerns about the potential neurotoxic effects of these particles and the mechanisms by which they might reach brain tissues.

Researchers analyzed olfactory bulb tissues from 15 deceased individuals who had been residents of São Paulo, Brazil, for more than five years. Using advanced micro-Fourier transform infrared spectroscopy, they detected microplastics in the olfactory bulbs of 8 out of 15 individuals. A total of 16 synthetic polymer particles and fibers were identified, with polypropylene being the most common polymer detected.

The size of the microplastics ranged from 5.5 μm to 26.4 μm for particles, and the mean fiber length was 21.4 μm. These dimensions suggest that the particles are small enough to potentially cross the blood-brain barrier or reach the brain through the olfactory pathway.

Dr. Luís Fernando Amato-Lourenço, the study’s lead author, emphasized the significance of these findings: “This case series provides evidence of MPs found in the human olfactory bulb, suggesting a potential pathway for the translocation of MPs to the brain. The findings underscore the need for further research on the health implications of MP exposure, particularly concerning neurotoxicity and the potential for MPs to bypass the blood-brain barrier.”

Microplastics in Reproductive Organs

Another alarming study, published in the journal Toxicological Sciences, has revealed the presence of microplastics in both human and canine testes. This discovery raises significant concerns about the potential impact of these particles on male fertility and reproductive health.

The study, conducted by researchers from the University of New Mexico, analyzed 47 canine and 23 human testes for the presence of 12 types of microplastics. Using advanced sensitive pyrolysis-gas chromatography/mass spectrometry, the researchers found microplastics in all of the samples tested.

Both humans and canines exhibited relatively similar proportions of the major polymer types, with polyethylene (PE) being the most dominant. The mean total microplastic levels were 122.63 μg/g in dogs and 328.44 μg/g in humans.

The researchers also investigated potential associations with sperm count and the weights of the testis and epididymis in dogs. They found a negative correlation between specific polymers, such as polyvinyl chloride (PVC) and polyethylene terephthalate (PET), and the normalized weight of the testis. This suggests that exposure to these types of microplastics may have an adverse effect on testicular development and function.

Dr. Xiaozhong Yu, one of the study’s authors, commented on the implications of their findings: “Our study is the first to quantify and characterize microplastics in human testes, and the results suggest that microplastics may have a negative impact on male fertility. More research is needed to determine the full extent of the impact of microplastics on male fertility and overall health.”

Microplastics and Cardiovascular Risk

Perhaps the most alarming recent discovery comes from a study published in the New England Journal of Medicine, which found a strong association between the presence of microplastics in arterial plaque and increased risk of cardiovascular events.

The study, conducted by Italian researchers, involved 257 patients who underwent surgery to remove built-up plaque from their carotid arteries. Using sophisticated chemical analysis techniques and high-resolution electron microscopy, the scientists analyzed the excised plaque specimens for the presence of microplastics and nanoplastics (MNPs).

The results were shocking: 58.4% of the patients had measurable amounts of polyethylene in their arterial plaque, with an average concentration of 21.7 micrograms per milligram of plaque tissue. Additionally, 12.1% of patients also had detectable levels of polyvinyl chloride.

But the most concerning finding came from following the patients’ health outcomes over an average of nearly 3 years after their surgery. The researchers found that those patients with MNPs detected in their excised plaque had a staggering 4.53 times higher risk of experiencing a major adverse cardiovascular event – defined as a heart attack, stroke, or death from any cause – compared to patients without detectable MNPs in their plaque.

Dr. Philip Landrigan, who wrote an accompanying editorial, emphasized the urgency of addressing this issue: “Inaction is no longer an option…We need to encourage our patients to reduce their use of plastics, especially unnecessary single-use items.”

Potential Solutions and Mitigation Strategies

While the accumulating evidence paints a grim picture of the pervasiveness and potential health impacts of microplastics, researchers and health experts are also exploring potential solutions and mitigation strategies.

1. Water Purification

A recent study published in Environmental Science & Technology Letters has revealed a surprisingly simple method for reducing microplastic exposure through drinking water. The research, conducted by a team led by Professor Eddy Y. Zeng of Jinan University, found that simply boiling tap water can eliminate up to 90% of nano- and micro-plastics.

The researchers discovered that heating causes minerals in hard water to bind to nano- and microplastics (NMPs), encapsulating them in calcium carbonate precipitates that form limescale. These plastic-laden particles can then be easily filtered out through everyday methods like pouring the boiled water through a strainer or scrubbing the boiled kettle.

2. Activated Charcoal

Preliminary research indicates that activated charcoal may adsorb and remove micro- and nano-plastics from the body. Some companies are now producing ozonated versions with enhanced micropore numbers, potentially increasing their ability to bind to and neutralize these plastics.

3. Plastic-Free Product Choices

Opting for products that don’t contribute to microplastic pollution, such as loose-leaf teas instead of bagged varieties, can help reduce individual exposure and environmental impact.

4. Sweating for Detoxification

Some researchers suggest that sauna- or exercise-induced sweating may enhance bodily detoxification of microplastics, though more research is needed to confirm this hypothesis.

The Need for Systemic Change

While individual actions can help mitigate personal exposure to microplastics, the scale of the problem demands systemic changes. Dr. Landrigan argues that addressing the harms of plastic pollution must be a key part of the urgent transition away from petroleum-based products.

Policy measures such as bans on single-use plastics, improved waste management systems, and investment in biodegradable alternatives are crucial steps in reducing the overall burden of microplastics in our environment and, by extension, our bodies.

Conclusion

The recent discoveries of microplastics in human brains, reproductive organs, and arterial plaque paint a disturbing picture of the extent to which these synthetic particles have infiltrated our bodies. The potential health implications, from neurotoxicity to reduced fertility and increased cardiovascular risk, are deeply concerning and demand urgent attention from the scientific community, policymakers, and the public.

While simple measures like boiling water and choosing plastic-free products can help reduce individual exposure, the ubiquity of microplastics in our environment calls for sweeping changes in how we produce, use, and dispose of plastic materials. As we continue to uncover the full extent of microplastic pollution in human tissues, it’s clear that this invisible invasion represents one of the most pressing public health challenges of our time.

The path forward will require a combination of further research, innovative solutions, and collective action to stem the tide of plastic pollution and protect human health for generations to come. As individuals, we must remain vigilant about our plastic use and exposure, while advocating for broader systemic changes to address this global crisis.

Interested in protecting yourself against microplastics? Check out Global Healing’s Ozonated Activated Charcoal here. 

References

1. Amato-Lourenço, Luís Fernando, Katia Cristina Dantas, Gabriel Ribeiro Júnior, Vitor Ribeiro Paes, Rômulo Augusto Ando, Raul de Oliveira Freitas, Ohanna Maria Menezes M. da Costa, et al. “Microplastics in the Olfactory Bulb of the Human Brain.” JAMA Network Open 7, no. 9 (September 16, 2024): e2440018. https://doi.org/10.1001/jamanetworkopen.2024.40018.

2. Hu, C. J., M. A. Garcia, A. Nihart, R. Liu, L. Yin, N. Adolphi, D. F. Gallego, H. Kang, M. J. Campen, and X. Yu. “Microplastic Presence in Dog and Human Testis and Its Potential Association with Sperm Count and Weights of Testis and Epididymis.” Toxicological Sciences, 2023, kfae060. https://doi.org/10.1093/toxsci/kfae060.

3. Marfella, Raffaele, Francesco Prattichizzo, Celestino Sardu, Michelangela Barbieri, Maria Rosaria Rizzo, Pasquale Fiordelisi, Antonella Toni, et al. “Microplastics and Nanoplastics in Atheromas and Cardiovascular Events.” New England Journal of Medicine 390, no. 10 (March 7, 2024): 900–910. https://doi.org/10.1056/NEJMoa2309822.

4. Yu, Zimin, Jia-Jia Wang, Liang-Ying Liu, Zhanjun Li, and Eddy Y. Zeng. “Drinking Boiled Tap Water Reduces Human Intake of Nanoplastics and Microplastics.” Environmental Science & Technology Letters, 2024. https://doi.org/10.1021/acs.estlett.4c00081.

The GMI Research Group (GMIRG) is dedicated to investigating the most important health and environmental issues of the day.  Special emphasis will be placed on environmental health.  Our focused and deep research will explore the many ways in which the present condition of the human body directly reflects the true state of the ambient environment.

Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of GreenMedInfo or its staff.

Source: GreenMedInfo

This article is copyrighted by GreenMedInfo LLC, 2024
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