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The Journal of allergy and clinical immunology
08, 2016;138 (2): 386-96.

A work group report on ultrafine particles (American Academy of Allergy, Asthma & Immunology): Why ambient ultrafine and engineered nanoparticles should receive special attention for possible adverse health outcomes in human subjects.

Ning Li, Steve Georas, Neil Alexis, Patricia Fritz, Tian Xia, Marc A Williams, Elliott Horner, Andre Nel
Author Information
  1. Ning Li: Department of Pathology & Diagnostic Investigation, CVM, Michigan State University, East Lansing, Mich. Electronic address: lining3@msu.edu.
  2. Steve Georas: Department of Medicine, University of Rochester School of Medicine, Rochester, NY.
  3. Neil Alexis: Center for Environmental Medicine and Lung Biology, University of North Carolina, Chapel Hill, NC.
  4. Patricia Fritz: New York State Department of Health, Albany, NY.
  5. Tian Xia: Division of NanoMedicine, Department of Medicine, University of California Los Angeles, Los Angeles, Calif.
  6. Marc A Williams: US Army Public Health Command, Toxicology Portfolio, Health Effects Research Program, Aberdeen Proving Ground, Aberdeen, Md.
  7. Elliott Horner: UL Environment, Marietta, Ga.
  8. Andre Nel: Division of NanoMedicine, Department of Medicine, University of California Los Angeles, Los Angeles, Calif. Electronic address: ANel@mednet.ucla.edu.
PMID: 27130856 DOI: 10.1016/j.jaci.2016.02.023

Abstract

Ultrafine particles (UFPs) are airborne particulates of less than 100 nm in aerodynamic diameter. Examples of UFPs are diesel exhaust particles, products of cooking, heating, and wood burning in indoor environments, and, more recently, products generated through the use of nanotechnology. Studies have shown that ambient UFPs have detrimental effects on both the cardiovascular and respiratory systems, including a higher incidence of atherosclerosis and exacerbation rate of asthma. UFPs have been found to alter in vitro and in vivo responses of the immune system to allergens and can also play a role in allergen sensitization. The inflammatory properties of UFPs can be mediated by a number of different mechanisms, including the ability to produce reactive oxygen species, leading to the generation of proinflammatory cytokines and airway inflammation. In addition, because of their small size, UFPs also have unique distribution characteristics in the respiratory tree and circulation and might be able to alter cellular function in ways that circumvent normal signaling pathways. Additionally, UFPs can penetrate intracellularly and potentially cause DNA damage. The recent advances in nanotechnology, although opening up new opportunities for the advancement of technology and medicine, could also lead to unforeseen adverse health effects in exposed human subjects. Further research is needed to clarify the safety of nanoscale particles, as well as the elucidation of the possible beneficial use of these particulates to treat disease.

Keywords

Ambient ultrafine particles allergic inflammation asthma effect on human health engineered nanoparticles lung inflammation oxidative stress particle deposition and distribution

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Grants

  1. P30 ES001247/NIEHS NIH HHS
  2. U19 ES019528/NIEHS NIH HHS

MeSH Term

Air Pollutants
Air Pollution
Animals
Disease Susceptibility
Environmental Exposure
Humans
Inflammation
Nanoparticles
Oxidative Stress
Particulate Matter
Public Health Surveillance
Silicones

Chemicals

Air Pollutants
Particulate Matter
Silicones
Journal Article Review
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