Published December 15, 2025 | Version v1
Journal article Open

RESPIRATORY TOXICITY OF MICROPLASTICS: MECHANISMS, CLINICAL OUTCOMES, AND FUTURE THREATS

Authors/Creators

  • 1. Pharm.D. Student, Department of Pharmacy Practice, Shri Vishnu College of Pharmacy, Bhimavaram, A.P, India.
  • 2. Associate Professor, Department of Pharmacology, Shri Vishnu College of Pharmacy.

Description

Airborne microplastics have turned out to be a new risk for the respiratory system. This is mainly because they are everywhere and come from many sources, both inside and outside places. Microplastics are tiny and have different shapes, so they get into the respiratory tract very deeply and settle in the bronchi and alveoli. Inhaling them can produce a series of harmful effects in the lungs such as oxidative stress, inflammation, injury to the respiratory epithelium, alteration in the immune response, and changes in the microbiome of the lungs. More and more, clinical findings are linking exposure to symptoms like cough, wheeze, asthma, and COPD exacerbations; reduced lung function; interstitial changes; higher risk of infection, and even possible long-term carcinogenicity. The recent discovery of microplastics in lung tissue as well as airway samples is an undeniable confirmation of human exposure. The utilization of cutting-edge analytical techniques, which include microscopy, FTIR, Raman spectroscopy, and Py-GC/MS has also contributed to the high detection accuracy. The ongoing rise of global plastic production is anticipated to lead to an increase in the risk of future respiratory effects, thereby emphasizing the need for monitoring, regulatory intervention, and long-term health studies.

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References

  • 1. Ghosh S, Sinha JK, Ghosh S, Vashisth K, Han S, Bhaskar R. Microplastics as an Emerging Threat to the Global Environment and Human Health. Sustainability, 2023; 15(14): 10821.
  • 2. Andrady, A.L. Microplastics in the marine environment. Mar. Pollut. Bull, 2011; 62: 1596–1605.
  • 3. Monique, M.; Giuseppe, P.; Francesca, F.; Davide, D.P.; Savoca, S.; Gioele, C.; Teresa, R.; Giovanni, P.; Eleonora, G.; Nunziacarla, S.; et al. Investigating the effects of microplastic ingestion in Scyliorhinus canicula from the South of Sicily. Sci Total Environ, 2022; 850: 157875
  • 4. Pandey B, Pathak J, Singh P, Kumar R, Kumar A, Kaushik S, Thakur TK. Microplastics in the Ecosystem: An Overview on Detection, Removal, Toxicity Assessment, and Control Release. Water, 2023; 15(1): 51.
  • 5. Nassikas NJ, McCormack MC, Ewart G, Balmes JR, Bond TC, Brigham E, Cromar K, Goldstein AH, Hicks A, Hopke PK, Meyer B, Nazaroff WW, Paulin LM, Rice MB, Thurston GD, Turpin BJ, Vance ME, Weschler CJ, Zhang J, Kipen HM. Indoor Air Sources of Outdoor Air Pollution: Health Consequences, Policy, and Recommendations: An Official American Thoracic Society Workshop Report. Ann Am Thorac Soc, 2024 Mar; 21(3): 365-376
  • 6. Fussell JC, Franklin M, Green DC, Gustafsson M, Harrison RM, Hicks W, Kelly FJ, Kishta F, Miller MR, Mudway IS, Oroumiyeh F, Selley L, Wang M, Zhu Y. A Review of Road Traffic-Derived Non-Exhaust Particles: Emissions, Physicochemical Characteristics, Health Risks, and Mitigation Measures. Environ Sci Technol, 2022 Jun 7; 56(11): 6813-6835.
  • 7. Tsochatzis ED, Gika H, Theodoridis G, Maragou N, Thomaidis N, Corredig M. Microplastics and nanoplastics: Exposure and toxicological effects require important analysis considerations. Heliyon, 2024 May 31; 10(11): e32261.
  • 8. Osman AI, Hosny M, Eltaweil AS, Omar S, Elgarahy AM, Farghali M, Yap PS, Wu YS, Nagandran S, Batumalaie K, Gopinath SCB, John OD, Sekar M, Saikia T, Karunanithi P, Hatta MHM, Akinyede KA. Microplastic sources, formation, toxicity and remediation: a review. Environ Chem Lett, 2023 Apr 4: 1-41
  • 9. Przygoda-Kuś P, Kosiorowska KE, Urbanek AK, Mirończuk AM. Current Approaches to Microplastics Detection and Plastic Biodegradation. Molecules, 2025 Jun 4; 30(11): 2462
  • 10. Saha SC, Saha G. Effect of microplastics deposition on human lung airways: A review with computational benefits and challenges. Heliyon, 2024 Jan 11; 10(2): e24355.
  • 11. Raju S, Siddharthan T, McCormack MC. Indoor Air Pollution and Respiratory Health. Clin Chest Med, 2020 Dec; 41(4): 825-843.
  • 12. Amato-Lourenço LF, Dos Santos Galvão L, de Weger LA, Hiemstra PS, Vijver MG, Mauad T. An emerging class of air pollutants: Potential effects of microplastics to respiratory human health? Sci Total Environ, 2020 Dec 20; 749: 141676.
  • 13. Borgatta M, Breider F. Inhalation of Microplastics—A Toxicological Complexity. Toxics. 2024; 12(5):358.
  • 14. Carriera F, Di Fiore C, Avino P. Occurrence of Microplastics in the Atmosphere: An Overview on Sources, Analytical Challenges, and Human Health Effects. Atmosphere, 2024; 15(7): 863.
  • 15. Ou C, Hang J, Hua J, Li Y, Deng Q, Zhao B, Ling H. Particle Deposition in Large-Scale Human Tracheobronchial Airways Predicted by Single-Path Modelling. Int J Environ Res Public Health, 2023 Mar 4; 20(5): 4583.
  • 16. Rahimi-Gorji M, Gorji TB, Gorji-Bandpy M. Details of regional particle deposition and airflow structures in a realistic model of human tracheobronchial airways: two-phase flow simulation. Comput Biol Med, 2016 Jul 1; 74: 1-17.
  • 17. Michelini S, Mawas S, Kurešepi E, Barbero F, Šimunović K, Miremont D, Devineau S, Schicht M, Ganin V, Haugen ØP, Afanou AK, Izabelle C, Zienolddiny-Narui S, Jüngert K, Repar N, Fenoglio I, Šetina Batić B, Paulsen F, Mandić-Mulec I, Boland S, Erman A, Drobne D. Pulmonary hazards of nanoplastic particles: a study using polystyrene in in vitro models of the alveolar and bronchial epithelium. J Nanobiotechnology, 2025 May 28; 23(1): 388.
  • 18. Bustamante-Marin XM, Ostrowski LE. Cilia and Mucociliary Clearance. Cold Spring Harb Perspect Biol, 2017 Apr 3; 9(4): a028241.
  • 19. Lehnert BE, Valdez YE, Tietjen GL. Alveolar macrophage-particle relationships during lung clearance. Am J Respir Cell Mol Biol, 1989 Aug; 1(2): 145-54.
  • 20. Uzeloto JS, Ramos D, Silva BSA, Lima MBP, Silva RN, Camillo CA, Ramos EMC. Mucociliary Clearance of Different Respiratory Conditions: A Clinical Study. Int Arch Otorhinolaryngol, 2021 Jan; 25(1): e35-e40
  • 21. Liu M, Zhang X, Huang X, Yang C. Effects of microplastics on allergic airways and potential pathogenesis: a review. Environ Geochem Health, 2025 Aug 25; 47(10): 412.
  • 22. Kadac-Czapska K, Ośko J, Knez E, Grembecka M. Microplastics and Oxidative Stress-Current Problems and Prospects. Antioxidants (Basel), 2024 May 8; 13(5): 579.
  • 23. Du Z, Yu X, Li X, Zhang L, Lin Y, He Y, Wu Y. Mechanism of microplastics in respiratory disease from 2020 to 2024: visualization and bibliometric analysis. Front Med (Lausanne), 2025 May 22; 12: 1586772
  • 24. Lin RH, Chen HT, Lee IT, Vo TT, Wang YL. Microplastics and Nanoplastics in Health Concerning Cellular Toxicity Mechanisms, Exposure Pathways, and Global Mitigation Strategies. Life (Basel), 2025 Sep 16; 15(9): 1449.
  • 25. Tang KHD. Genotoxicity of Microplastics on Living Organisms: Effects on Chromosomes, DNA and Gene Expression. Environments, 2025; 12(1): 10.
  • 26. Weis JS, Alava JJ. (Micro)Plastics Are Toxic Pollutants. Toxics, 2023 Nov 17; 11(11): 935
  • 27. Cholewińska P, Moniuszko H, Wojnarowski K, Pokorny P, Szeligowska N, Dobicki W, Polechoński R, Górniak W. The Occurrence of Microplastics and the Formation of Biofilms by Pathogenic and Opportunistic Bacteria as Threats in Aquaculture. International Journal of Environmental Research and Public Health, 2022; 19(13): 8137
  • 28. Yang W, Jannatun N, Zeng Y, Liu T, Zhang G, Chen C, Li Y. Impacts of microplastics on immunity. Front Toxicol, 2022 Sep 27; 4: 956885
  • 29. Lu K, Zhan D, Fang Y, Li L, Chen G, Chen S, Wang L. Microplastics, potential threat to patients with lung diseases. Front Toxicol, 2022 Sep 28; 4: 958414
  • 30. Alqahtani S, Alqahtani S, Saquib Q, Mohiddin F. Toxicological impact of microplastics and nanoplastics on humans: understanding the mechanistic aspect of the interaction. Front Toxicol, 2023 Jul 14; 5: 1193386.
  • 31. Roslan NS, Lee YY, Ibrahim YS, Tuan Anuar S, Yusof KMKK, Lai LA, Brentnall T. Detection of microplastics in human tissues and organs: A scoping review. J Glob Health, 2024 Aug 23; 14: 04179.
  • 32. Campanale C, Savino I, Massarelli C, Uricchio VF. Fourier Transform Infrared Spectroscopy to Assess the Degree of Alteration of Artificially Aged and Environmentally Weathered Microplastics. Polymers (Basel), 2023 Feb 11; 15(4): 911.
  • 33. Ardini B, Pittura L, Frontini A, Benedetti M, Gorbi S, Regoli F, Cerullo G, Valentini G, Manzoni C. Fast Detection and Classification of Microplastics by a Wide-Field Fourier Transform Raman Microscope. Environ Sci Technol, 2025 May 13; 59(18): 9255-9264.
  • 34. Lamichhane G, Acharya A, Marahatha R, Modi B, Paudel R, Adhikari A, Raut BK, Aryal S, Parajuli N. Microplastics in environment: global concern, challenges, and controlling measures. Int J Environ Sci Technol (Tehran), 2023; 20(4): 4673-4694.
  • 35. Wu P, Wu X, Huang Q, Yu Q, Jin H, Zhu M. Mass spectrometry-based multimodal approaches for the identification and quantification analysis of microplastics in food matrix. Front Nutr, 2023 Apr 6; 10: 1163823.
  • 36. Li J, Huang F, Zhang G, Zhang Z, Zhang X. Separation and flow cytometry analysis of microplastics and nanoplastics. Front Chem, 2023 Sep 15; 11: 1201734.
  • 37. Rednikin AR, Frank YA, Rozhin AO, Vorobiev DS, Fakhrullin RF. Airborne Microplastics: Challenges, Prospects, and Experimental Approaches. Atmosphere, 2024; 15(11): 1380.
  • 38. Ortiz-Quintero B, Martínez-Espinosa I, Pérez-Padilla R. Mechanisms of Lung Damage and Development of COPD Due to Household Biomass-Smoke Exposure: Inflammation, Oxidative Stress, MicroRNAs, and Gene Polymorphisms. Cells, 2022 Dec 23; 12(1): 67.
  • 39. Abbas G, Ahmed U, Ahmad MA. Impact of Microplastics on Human Health: Risks, Diseases, and Affected Body Systems. Microplastics, 2025; 4(2): 23
  • 40. Lee Y, Cho J, Sohn J, Kim C. Health Effects of Microplastic Exposures: Current Issues and Perspectives in South Korea. Yonsei Med J., 2023 May; 64(5): 301-308
  • 41. Yang W, Li Y, Boraschi D. Association between Microorganisms and Microplastics: How Does It Change the Host-Pathogen Interaction and Subsequent Immune Response? Int J Mol Sci., 2023 Feb 17; 24(4): 4065
  • 42. Lee SE, Kim DY, Jeong TS, Park YS. Micro- and Nano-Plastic-Induced Adverse Health Effects on Lungs and Kidneys Linked to Oxidative Stress and Inflammation. Life (Basel), 2025 Mar 3; 15(3): 392.
  • 43. Nguyen MK, Walker TR, Lin C, Nguyen D, Kim SS, Chung W, Nguyen DD. Emerging challenges of microplastic impacts to ecological health and climate change. Mar Pollut Bull, 2026 Jan; 222(Pt 2): 118778
  • 44. Krause S, Ouellet V, Allen D, Allen S, Moss K, Nel HA, Manaseki-Holland S, Lynch I. The potential of micro- and nanoplastics to exacerbate the health impacts and global burden of non-communicable diseases. Cell Rep Med, 2024 Jun 18; 5(6): 101581.
  • 45. Khaliq F, Singh P, Chandra P, Gupta K, Vaney N. Pulmonary functions in plastic factory workers: a preliminary study. Indian J Physiol Pharmacol, 2011 Jan-Mar; 55(1): 60-6.
  • 46. Gautam RK, Laltanpuia, Singh N, Kushwaha S. A particle of concern: explored and proposed underlying mechanisms of microplastic-induced lung damage and pulmonary fibrosis. Inhal Toxicol, 2025 Jan; 37(1): 1-17
  • 47. Maung TZ, Bishop JE, Holt E, Turner AM, Pfrang C. Indoor Air Pollution and the Health of Vulnerable Groups: A Systematic Review Focused on Particulate Matter (PM), Volatile Organic Compounds (VOCs) and Their Effects on Children and People with Pre-Existing Lung Disease. Int J Environ Res Public Health, 2022 Jul 19; 19(14): 8752.
  • 48. Yang S, Cheng Y, Chen Z, Liu T, Yin L, Pu Y, Liang G. In vitro evaluation of nanoplastics using human lung epithelial cells, microarray analysis and co-culture model. Ecotoxicol Environ Saf, 2021 Dec 15; 226: 112837.
  • 49. Xia Q, Wei Y, Hu LJ, Zeng FM, Chen YW, Xu D, Sun Y, Zhao LW, Li YF, Pang GH, Peng W, He M. Inhalation of Microplastics Induces Inflammatory Injuries in Multiple Murine Organs via the Toll-like Receptor Pathway. Environ Sci Technol, 2024 Oct 22; 58(42): 18603-18618.
  • 50. Ali SS, Alsharbaty MHM, Al-Tohamy R, Khalil MA, Schagerl M, Al-Zahrani M, Sun J. Microplastics as an Emerging Potential Threat: Toxicity, Life Cycle Assessment, and Management. Toxics, 2024; 12(12): 909.
  • 51. Yee MS, Hii LW, Looi CK, Lim WM, Wong SF, Kok YY, Tan BK, Wong CY, Leong CO. Impact of Microplastics and Nanoplastics on Human Health. Nanomaterials (Basel), 2021 Feb 16; 11(2): 496.
  • 52. Menéndez-Pedriza A, Jaumot J. Interaction of Environmental Pollutants with Microplastics: A Critical Review of Sorption Factors, Bioaccumulation and Ecotoxicological Effects. Toxics, 2020 Jun 2; 8(2): 40.
  • 53. Jaafarzadeh N, Talepour N. Microplastics as carriers of antibiotic resistance genes and pathogens in municipal solid waste (MSW) landfill leachate and soil: a review. J Environ Health Sci Eng, 2023 Oct 11; 22(1): 1-12.
  • 54. Rodríguez AG, Gutiérrez J, Villacorta A, et al. Polylactic acid nanoplastics (PLA -NPLs) induce adverse effects on an in vitro model of the human lung epithelium: the Calu -3 air -liquid interface (ALI) barrier. J Hazard Mater, 2024; 475: 134900.
  • 55. Boccia P, Mondellini S, Mauro S, Zanellato M, Parolini M, Sturchio E. Potential Effects of Environmental and Occupational Exposure to Microplastics: An Overview of Air Contamination. Toxics, 2024; 12(5): 320.
  • 56. Haque F, Fan C. Fate of microplastics under the influence of climate change. iScience, 2023 Aug 16; 26(9): 107649.
  • 57. Kyriakopoulos GL, Zamparas MG, Kapsalis VC. Investigating the Human Impacts and the Environmental Consequences of Microplastics Disposal into Water Resources. Sustainability, 2022; 14(2): 828.