Environmental microplastic and nanoplastic: Exposure routes and effects on coagulation and the cardiovascular system

Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial s...

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Published inEnvironmental pollution (1987) Vol. 291; p. 118190
Main Authors Lett, Zachary, Hall, Abigail, Skidmore, Shelby, Alves, Nathan J.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.12.2021
Subjects
Cardiovascular health
Cardiovascular System
chemistry
coagulation
dermal exposure
Environmental exposure
Environmental Monitoring
Environmental Pollutants
heart
Microplastic
Microplastics
nanoplastics
Plastics
Platelet aggregation
pollution
Polystyrene
thrombosis
uncertainty
wastes
Water Pollutants, Chemical - analysis
Environmental exposure
Platelet aggregation
Microplastic
Polystyrene
Cardiovascular health
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Abstract Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure. [Display omitted] •Absorption and effects of modified microplastics (MP) are not well studied.•Microplastics in circulation can affect thrombosis through size dependent pathways.•Chemical modifications influence MP effects on platelet aggregation and hemolysis.•More studies using modified microplastics in long-term low doses are needed.
AbstractList Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure.Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure.
Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure.
Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure.
Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate waste and recycling management. Microplastic, and even smaller nanoplastic, particles are persistent pollutants in aquatic and terrestrial systems and are the subject of active and urgent research. This review will explore the current research on how exposure to plastic particles occurs and the risks associated from different exposure routes: ingestion, inhalation, and dermal exposure. The effects of microplastics on the cardiovascular system are of particular importance due to its sensitivity and ability to transport particles to other organ systems. The effects of microplastics and nanoplastics on the heart, platelet aggregation, and thrombus formation will all be explored with focus on how the particle characteristics modulate their effect. Plastic particle interactions are highly dependent on both their size and their surface chemistry and interesting research is being done with the interaction of particle characteristics and effect on thrombosis and the cardiovascular system. There is significant uncertainty surrounding some of the findings in this field as research in this area is still maturing. There are undoubtedly more physiological consequences than we are currently aware of resulting from environmental plastic exposure and more studies need to be conducted to reveal the full extent of pathologies caused by the various routes of microplastic exposure, with particular emphasis on longitudinal exposure effects. Further research will allow us to recognize the full extent of physiological impact and begin developing viable solutions to reduce plastic pollution and potentially design interventions to mitigate in-vivo plastic effects following significant or prolonged exposure. [Display omitted] •Absorption and effects of modified microplastics (MP) are not well studied.•Microplastics in circulation can affect thrombosis through size dependent pathways.•Chemical modifications influence MP effects on platelet aggregation and hemolysis.•More studies using modified microplastics in long-term low doses are needed.
ArticleNumber 118190
Author Lett, Zachary
Skidmore, Shelby
Hall, Abigail
Alves, Nathan J.
AuthorAffiliation b Weldon School of Biomedical Engineering, Purdue University, West Lafayette, IN, United States of America
a Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, United States of America
AuthorAffiliation_xml – name: a Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, United States of America
– name: b Weldon School of Biomedical Engineering, Purdue University, West Lafayette, IN, United States of America
Author_xml – sequence: 1
  givenname: Zachary
  orcidid: 0000-0003-4909-1620
  surname: Lett
  fullname: Lett, Zachary
  organization: Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, USA
– sequence: 2
  givenname: Abigail
  orcidid: 0000-0002-4741-373X
  surname: Hall
  fullname: Hall, Abigail
  organization: Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, USA
– sequence: 3
  givenname: Shelby
  surname: Skidmore
  fullname: Skidmore, Shelby
  organization: Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, USA
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  givenname: Nathan J.
  orcidid: 0000-0003-3816-5137
  surname: Alves
  fullname: Alves, Nathan J.
  email: nalves@iu.edu
  organization: Emergency Medicine Department, Indiana University School of Medicine, Indianapolis, IN, USA
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Fri Jul 11 07:44:48 EDT 2025
Thu Jul 10 22:48:17 EDT 2025
Mon Jul 21 05:30:12 EDT 2025
Tue Jul 01 03:15:15 EDT 2025
Thu Apr 24 23:13:19 EDT 2025
Fri Feb 23 02:41:05 EST 2024
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Keywords Environmental exposure
Platelet aggregation
Microplastic
Polystyrene
Cardiovascular health
Language English
License Copyright © 2021 Elsevier Ltd. All rights reserved.
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These authors contributed equally to this work.
Zachary Lett: Writing- Original Draft, Abigail Hall: Writing- Original Draft, Shelby Skidmore: Resources, Nathan J Alves: Writing- Review & Editing, Supervision
ORCID 0000-0002-4741-373X
0000-0003-3816-5137
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Snippet Plastic pollution has been a growing concern in recent decades due to the proliferation and ease of manufacturing of single use plastic products and inadequate...
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SubjectTerms Cardiovascular health
Cardiovascular System
chemistry
coagulation
dermal exposure
Environmental exposure
Environmental Monitoring
Environmental Pollutants
heart
Microplastic
Microplastics
nanoplastics
Plastics
Platelet aggregation
pollution
Polystyrene
thrombosis
uncertainty
wastes
Water Pollutants, Chemical - analysis
Title Environmental microplastic and nanoplastic: Exposure routes and effects on coagulation and the cardiovascular system
URI https://dx.doi.org/10.1016/j.envpol.2021.118190
https://www.ncbi.nlm.nih.gov/pubmed/34563850
https://www.proquest.com/docview/2576906413
https://www.proquest.com/docview/2636786591
https://pubmed.ncbi.nlm.nih.gov/PMC11098554
Volume 291
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