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Microbial Bioremediation of Plastics

Polyethylene terephthalate (PET) is a synthetic polymer widely utilized in the packaging industry, particularly for bottles and containers. Due to its chemical stability and durability, PET accumulates in the environment, contributing significantly to plastic pollution. It comprises repeating units of terephthalic acid and ethylene glycol, resulting in a semi-crystalline structure that is resistant to natural degradation processes.A notable breakthrough in plastic biodegradation came with the...

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Microplastic polyethylene induced inner ear dysfunction in murine model.

Javeria Zaheer1, Ho Sun Lee2, Seungyoun Kim1

  • 1Division of Applied RI, Korea Institute Radiological and Medical Sciences, Seoul 01812, Republic of Korea; Radiological and Medico-Oncological Sciences, Korea National University of Science and Technology (UST), Seoul 01812, Republic of Korea.

Journal of Hazardous Materials
|July 19, 2024
PubMed
Summary
This summary is machine-generated.

Microplastic (MP) polyethylene exposure in mice caused hearing loss and balance problems. MPs accumulated in the inner ear, leading to dysfunction and altered brain activity, highlighting potential health risks.

Keywords:
Balance disorderHearing lossInner ear dysfunctionMicroplasticPolyethylenePositron emission tomography

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Area of Science:

  • Environmental Health
  • Toxicology
  • Neuroscience

Background:

  • Microplastic (MP) pollution is a growing concern, with increasing reports on its hazardous effects.
  • The impact of MPs on inner ear function, crucial for hearing and balance, remains largely unknown.
  • Inner ear dysfunction is prevalent across all age groups, necessitating investigation into potential environmental triggers.

Purpose of the Study:

  • To investigate the effects of polyethylene (PE) microplastic exposure on inner ear function in a murine model.
  • To determine if PE MPs induce hearing loss and balance disorders.
  • To explore the underlying molecular and metabolic changes in the inner ear and brain following PE exposure.

Main Methods:

  • C57BL/6J mice were orally administered PE MPs daily for 4 months.
  • Evaluated hearing thresholds, cerebral glucose metabolism, and balance-related behaviors.
  • Conducted transcriptome analysis, qRT-PCR, Western blotting, and immunofluorescence staining to assess molecular changes.

Main Results:

  • PE MPs were detected in the cochlea and vestibular region of the inner ear.
  • PE exposure led to increased hearing thresholds and impaired balance.
  • Transcriptomic analysis revealed the upregulation of PER1, NR4A3, and CEBPB in PE-exposed inner ear tissue.
  • Decreased glucose metabolism was observed in auditory cortex regions and the entorhinal cortex.

Conclusions:

  • Oral exposure to polyethylene microplastics induces inner ear dysfunction in mice.
  • PE MPs can cause hearing loss and balance disorders.
  • These findings suggest a direct link between microplastic exposure and neurosensory deficits.