Publication date: Jan 27, 2025

Face masks are strongly believed to be the best precaution to reduce the transmission of the SARS-CoV-2 virus, which resulted in an unprecedented surge in the production and use of personal respiratory protective equipment. Unfortunately, this surge led to improper disposal of used masks. This study aimed to assess the occurrence of microplastics (MPs) in used and unused surgical and cloth masks and N95 respirators. Respective samples were kept in a rotary shaker with distilled water in an Erlenmeyer flask for 5 hr to assess the release of MPs. Surgical masks showed a greater occurrence of microplastics release; an average of 18. 27 items/mask were released from used and discarded surgical masks and 10. 87 items/mask were released from unused new masks Fibers and fragments smaller than 0. 5 mm in size were found to have a predominant presence in all the observed facemasks and respirators. The ATR-FTIR analysis of all the masks and respirators revealed the presence of four different polymers, namely polyethylene (PE) 46%, polypropylene (PP) 27%, polyamide (PA) 15% and polystyrene (PS) 12%. The microplastics released by face masks and N95 respirators can be carried by the environment or directly inhaled during use. As a result, using masks and N95 respirators repeatedly could expose individuals to microplastics. The proper use of face masks and N95 respirators and proper disposal practices should be maintained to prevent human and environmental exposures to MPs. MPs have been shown to affect individuals at the cellular to systems level, and additional research on the effects of MPs on human health is needed.

Semantics

Original Article