The inhalation toxicology of p-aramid fibrils

Abstract

The pandemic of lung disease caused by asbestos has cast suspicion on any industrial fibrous material that can become airborne in respirable form in workplaces, such that the respirable fibres might be inhaled. Fibre toxicology arose as a sub-specialty of particle toxicology to address the specialised nature of fibre effects and has evolved substantially in the last 25 years. It has yielded valuable information on the dosimetry, structure-activity relationships, and mechanism involved in toxicological effects of a range of fibrous materials, including asbestos, other naturally occurring fibrous materials, and synthetic vitreous fibres. A robust structure/activity paradigm has emerged from this research that highlights fibre length, thinness, and biopersistence as major factors in determining the pathogenicity of a fibre. p-Aramid is a manufactured fibre composed of synthetic polyamide (poly paraphenylene terephthalamide) manufactured on a commercial scale since 1970 by polymerisation and spinning steps. It is used as an advanced composite and in fabrics, body armour, friction materials, etc. Respirable fibrils of p-aramid can be released from the fibres during working and can become airborne. A considerable body of research has been carried out into the hazard posed by inhaled p-aramid fibrils, and this review considers this body of literature and summarises the state-of-the-science in the toxicology of p-aramid fibrils in the light of the existing overarching fibre toxicology paradigm. The peer-reviewed studies demonstrate that p-aramid fibrils can be long and thin but that the fibrils are not biopersistent. Residence in the milieu of the lungs leads to fibre shortening, allowing efficient and complete phagocytosis and effective clearance. Subsequently the p-aramid hazard is low, and this is confirmed in animal studies. The mechanism of shortening of p-aramid fibrils is not well-understood, but may involve the action of macrophages on the fibrils following phagocytosis.