References
[1]. Frias, J.P.G.L. and Nash, R., "Microplastics: Finding a consensus on the definition, " Marine Pollution Bulletin 138, 145–147, (2019).
[2]. Jahandari, A., "Microplastics in the urban atmosphere: Sources, occurrences, distribution, and potential health implications," Journal of Hazardous Materials Advances 12, 100346, (2023).
[3]. Prata, J. C., da Costa, J. P., Lopes, L., Duarte, A. C. and Rocha-Santos, T., "Environmental exposure to microplastics: An overview on possible human health effects," Science of The Total Environment 702, 134455, (2020).
[4]. Ragusa, A., Svelato, A., Santacroce, C., Catalano, P., Notarstefano, V., Carnevali, O., Papa, F., Rongioletti, M. C. A., Baiocco, F., Draghi, S., D'Amore, E., Rinaldo, D., Matta, M. and Giorgini, E., "Plasticenta: First evidence of microplastics in human placenta," Environment International 146, 106274, (2021).
[5]. Blackburn, K. and Green, D., "The potential effects of microplastics on human health: What is known and what is unknown," Ambio 51, 518–530 (2022).
[6]. Pironti, C., Notarstefano, V., Ricciardi, M., Motta, O., Giorgini, E., and Montano, L., " First Evidence of Microplastics in Human Urine, a Preliminary Study of Intake in the Human Body," Toxics 11(1), 40, (2023).
[7]. Huang, S., Huang, X., Bi, R., Guo, Q., Yu, X., Zeng, Q., Huang, Z., Liu, T., Wu, H., Chen, Y., Xu, J., Wu, Y., and Guo, P., " Detection and Analysis of Microplastics in Human Sputum," Environ. Sci. Technol 56 (4), 2476–2486, (2022).
[8]. Leslie, H., A., van Velzen, M., J., M., Brandsma, S., H., Vethaak, A., D., Garcia-Vallejo, J., J., and Lamoree, M., H., " Discovery and quantification of plastic particle pollution in human blood," Environment International 163, 107199, (2022).
[9]. Baini, M., Martellini, T., Cincinelli, A., Campani, T., Minutoli, R., Panti, C., Finoia, M., G., and Fossi, M., C., "First detection of seven phthalate esters (PAEs) as plastic tracers in superficial neustonic/planktonic samples and cetacean blubber," Analytical Methods 9, 1512, (2017).
[10]. Woo, H., Kang, S., H., Kwon, Y., Choi, Y., Kim, J., Ha, D., Tanaka, M., Okochi, M., Kim, J., S., Kim, H., K., and Choi, J., " Sensitive and specific capture of polystyrene and polypropylene microplastics using engineered peptide biosensors," RSC Adv. 12, 7680-7688, (2022).
[11]. Huang, C.-J., Narasimha, G., V., Chen, Y., Chen, J., Dong, G., " Measurement of Low Concentration of Micro-Plastics by Detection of Bioaffinity-Induced Particle Retention Using Surface Plasmon Resonance Biosensors" Biosensors 11(7), 219, (2021).
Cite this article
You,H. (2023). Methods for the detection of microplastics in mammals. Theoretical and Natural Science,24,94-98.
Data availability
The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.
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References
[1]. Frias, J.P.G.L. and Nash, R., "Microplastics: Finding a consensus on the definition, " Marine Pollution Bulletin 138, 145–147, (2019).
[2]. Jahandari, A., "Microplastics in the urban atmosphere: Sources, occurrences, distribution, and potential health implications," Journal of Hazardous Materials Advances 12, 100346, (2023).
[3]. Prata, J. C., da Costa, J. P., Lopes, L., Duarte, A. C. and Rocha-Santos, T., "Environmental exposure to microplastics: An overview on possible human health effects," Science of The Total Environment 702, 134455, (2020).
[4]. Ragusa, A., Svelato, A., Santacroce, C., Catalano, P., Notarstefano, V., Carnevali, O., Papa, F., Rongioletti, M. C. A., Baiocco, F., Draghi, S., D'Amore, E., Rinaldo, D., Matta, M. and Giorgini, E., "Plasticenta: First evidence of microplastics in human placenta," Environment International 146, 106274, (2021).
[5]. Blackburn, K. and Green, D., "The potential effects of microplastics on human health: What is known and what is unknown," Ambio 51, 518–530 (2022).
[6]. Pironti, C., Notarstefano, V., Ricciardi, M., Motta, O., Giorgini, E., and Montano, L., " First Evidence of Microplastics in Human Urine, a Preliminary Study of Intake in the Human Body," Toxics 11(1), 40, (2023).
[7]. Huang, S., Huang, X., Bi, R., Guo, Q., Yu, X., Zeng, Q., Huang, Z., Liu, T., Wu, H., Chen, Y., Xu, J., Wu, Y., and Guo, P., " Detection and Analysis of Microplastics in Human Sputum," Environ. Sci. Technol 56 (4), 2476–2486, (2022).
[8]. Leslie, H., A., van Velzen, M., J., M., Brandsma, S., H., Vethaak, A., D., Garcia-Vallejo, J., J., and Lamoree, M., H., " Discovery and quantification of plastic particle pollution in human blood," Environment International 163, 107199, (2022).
[9]. Baini, M., Martellini, T., Cincinelli, A., Campani, T., Minutoli, R., Panti, C., Finoia, M., G., and Fossi, M., C., "First detection of seven phthalate esters (PAEs) as plastic tracers in superficial neustonic/planktonic samples and cetacean blubber," Analytical Methods 9, 1512, (2017).
[10]. Woo, H., Kang, S., H., Kwon, Y., Choi, Y., Kim, J., Ha, D., Tanaka, M., Okochi, M., Kim, J., S., Kim, H., K., and Choi, J., " Sensitive and specific capture of polystyrene and polypropylene microplastics using engineered peptide biosensors," RSC Adv. 12, 7680-7688, (2022).
[11]. Huang, C.-J., Narasimha, G., V., Chen, Y., Chen, J., Dong, G., " Measurement of Low Concentration of Micro-Plastics by Detection of Bioaffinity-Induced Particle Retention Using Surface Plasmon Resonance Biosensors" Biosensors 11(7), 219, (2021).