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Portrait of Maria Hedmer

Maria Hedmer

Docent, PhD

Portrait of Maria Hedmer

148. Carbon Nanotubes


  • Maria Hedmer
  • Monica Kåredal
  • Per Gustavsson
  • Jenny Rissler

Summary, in English

Carbon nanotubes (CNTs) can be seen as graphene sheets rolled to form cylinders. CNTs may be categorised as single- (SWCNT) or multi-walled (MWCNT). Due to the small size, the number of particles as well as the surface area per mass unit is extremely high. CNTs are highly diverse, differing with respect to e.g., diameter, length, chiral angles, chemical functionalisation, purity, stiffness and bulk density. Today, CNTs are utilised primarily for the reinforcement of composite polymers, but there is considerable potential for other applications. The rapidly growing production and use of CNTs increases the risk for occupational exposure. Since CNTs in bulk form are of very low density and much dust is produced during their handling, exposure by inhalation appears to represent the greatest potential risk in the work place. However, most work place measurements involved sampling periods that

are too short, varying sampling techniques and non-specific analytical methods. CNTs may be absorbed via inhalation and ingestion. Systemic uptake via the skin has not been demonstrated. Human toxicity data on CNTs are lacking and interpretation of animal studies is often problematic since the physical properties and chemical composition are diverse, impurities may be present and data are sometimes omitted. Because of the physical similarities between asbestos and CNTs, it can be suspected that the latter may also cause lung fibrosis, mesothelioma and lung cancer following inhalation. Intraperitoneal and intrascrotal administration of CNTs causes mesothelioma in animals, but no inhalation carcinogenicity studies have been conducted. Thus, it is too early conclude whether CNTs cause mesothelioma and lung cancer in humans. Both SWCNTs and MWCNTs cause inflammation and fibrosis in the lungs of relevant animal types and for MWCNTs these effects are also seen in the pleura. For instance, minimal histiocytosis and mild granulomatous inflammation in the

lungs and lung-draining lymph nodes have been observed in rats exposed for 13 weeks to 0.1 mg/m3 MWCNTs (lowest observed adverse effect level, LOAEL), with more pronounced inflammation in both mice and rats at higher doses. Thus, inflammatory responses in the lungs may be considered as the critical effect. However, the LOAEL of CNTs should be interpreted cautiously, since their toxicity is likely to vary widely, depending on the structure and physicochemical properties, as well as the contribution from non-carbon components. It is also uncertain which dose metric (e.g., mass, number or surface area per air volume unit) is most appropriate. Some studies indicate that longer straight CNTs evoke more pronounced

biological effects than shorter or tangled fibres.


  • Division of Occupational and Environmental Medicine, Lund University
  • Molecular Cell Biology
  • Ergonomics and Aerosol Technology
  • NanoLund: Center for Nanoscience

Publishing year





Arbete och Hälsa

Document type



The Nordic Expert Group for Criteria Documentation of Health Risks from Chemicals


  • Environmental Health and Occupational Health


  • carbon nanotubes
  • CNTs
  • fibrosis
  • inflammation
  • lung effects
  • occupational exposure limit
  • review
  • risk assessment
  • toxicity



Report number



  • ISBN: 978-91-85971-46-6