PET Tracing of Biodistribution for Orally Administered 64Cu-Labeled Polystyrene in Mice

Plastics are used commonly in the world because of their convenience and cost effectiveness. Microplastics, an environmental threat and human health risk, are widely detected in food and consequently ingested. However, degraded plastics are found everywhere, creating an environmental threat and huma...

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Published inThe Journal of nuclear medicine (1978) Vol. 63; no. 3; pp. 461 - 467
Main Authors Im, Changkeun, Kim, Hyeongi, Zaheer, Javeria, Kim, Jung Young, Lee, Yong-Jin, Kang, Choong Mo, Kim, Jin Su
Format Journal Article
LanguageEnglish
Published New York Society of Nuclear Medicine 01.03.2022
Subjects
Absorption
Accumulation
Biodistribution
Cost effectiveness
Focus on Molecular Imaging
Gamma rays
Health risk assessment
Health risks
Intestine
Microplastics
Oral administration
Plastic debris
Plastic pollution
Polystyrene
Polystyrene resins
Positron emission
Positron emission tomography
Thin layer chromatography
Tissues
Tomography
Toxicity
Transit
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Summary:Plastics are used commonly in the world because of their convenience and cost effectiveness. Microplastics, an environmental threat and human health risk, are widely detected in food and consequently ingested. However, degraded plastics are found everywhere, creating an environmental threat and human health risk. Therefore, real-time monitoring of orally administered microplastics to trace them in the body is tremendously important. Methods: In this study, to visualize their absorption path, we labeled polystyrene with [64Cu]Cu-DOTA. We prepared radiolabeled polystyrene with 64Cu. Afterward, [64Cu]Cu-DOTA-polystyrene was orally administered to mice, and we evaluated its transit and absorption using PET imaging. The absorption path and distribution of [64Cu]Cu-DOTA-polystyrene were determined using PET over 48 h. Ex vivo tissue radio–thin-layer chromatography (TLC) was used to demonstrate the existence of [64Cu]Cu-DOTA-polystyrene in tissue. Results: PET images demonstrated that [64Cu]Cu-DOTA-polystyrene began to transit to the intestine within 1 h. Accumulation of [64Cu]Cu-DOTA-polystyrene in the liver was also observed. The biodistribution of [64Cu]Cu-DOTA-polystyrene confirmed the distribution of [64Cu]Cu-DOTA-polystyrene observed on the PET images. Ex vivo radio-TLC demonstrated that the detected γ-rays originated from [64Cu]Cu-DOTA-polystyrene. Conclusion: This study provided PET evidence of the existence and accumulation of microplastics in tissue and cross-confirmed the PET findings by ex vivo radio-TLC. This information may be used as the basis for future studies on the toxicity of microplastics.
Bibliography:Contributed equally to this work.
Published online July 02, 2021.
ISSN:0161-5505
1535-5667
DOI:10.2967/jnumed.120.256982