Litcius/Paper detail

Safe-by-design strategies for lowering the genotoxicity and pulmonary inflammation of multiwalled carbon nanotubes: Reduction of length and the introduction of COOH groups

Niels Hadrup, Kristina Bram Knudsen, Marie Carrière, Martine Mayne–L'Hermite, Laure Bobyk, Soline Allard, F. Miserque, Baptiste Pibaleau, Mathieu Pinault, Håkan Wallin, Ulla Vogel

2021Environmental Toxicology and Pharmacology21 citationsDOIOpen Access PDF

Abstract

Potentially, the toxicity of multiwalled carbon nanotubes (MWCNTs) can be reduced in a safe-by-design strategy. We investigated if genotoxicity and pulmonary inflammation of MWCNTs from the same batch were lowered by a) reducing length and b) introducing COOH-groups into the structure. Mice were administered: 1) long and pristine MWCNT (CNT-long) (3.9 μm); 2) short and pristine CNT (CNT-short) (1 μm); 3) CNT modified with high ratio COOH-groups (CNT-COOH-high); 4) CNT modified with low ratio COOH-groups (CNT-COOH-low). MWCNTs were dosed by intratracheal instillation at 18 or 54 μg/mouse (∼0.9 and 2.7 mg/kg bw). Neutrophils numbers were highest after CNT-long exposure, and both shortening the MWCNT and addition of COOH-groups lowered pulmonary inflammation (day 1 and 28). Likewise, CNT-long induced genotoxicity, which was absent with CNT-short and after introduction of COOH groups. In conclusion, genotoxicity and pulmonary inflammation of MWCNTs were lowered, but not eliminated, by shortening the fibres or introducing COOH-groups.

Topics & Concepts

GenotoxicityInflammationCarbon nanotubeChemistryIntratracheal instillationNanotechnologyPharmacologyMaterials scienceToxicityImmunologyLungMedicineOrganic chemistryInternal medicineBronchoalveolar lavageNanoparticles: synthesis and applicationsAir Quality and Health ImpactsAnimal testing and alternatives