A cradle-to-grave life cycle assessment of the endoscopic sinus surgery considering materials, energy, and waste.

Abstract

Operating rooms generate 1.8 million tons of waste annually, or 20%‒30% of the total healthcare waste in the United States. Our objective was to perform a life cycle assessment (LCA) for endoscopic sinus surgeries (ESSs) in order to analyze its environmental impact. A comprehensive LCA of ESS was performed considering energy, climate, and water use impacts associated with the materials and processes used. It focuses on the ESS performed at a large tertiary academic hospital and then extends the impacts to consider annual US surgeries. The assessment considers end-of-life waste management at both landfills and incinerators. Single-use instrument production constitutes 89%‒96% of the total impacts throughout the life cycle of an ESS. Waste-to-energy incineration is shown to be a preferred end-of-life destination, as it recovers much of the input production energy of plastic items, ultimately reducing the input to 36%, although this is done at the expense of higher greenhouse gas emissions. For multi-use items, decontamination dominates environmental impact (>99% of totals), but consideration of reusable items reduces overall energy consumption and global warming potential (GWP) by 25%‒33%. Single-use items dominate the total environmental impact of ESS. While multi-use items require additional decontamination over their lifetimes, results show that their incorporation reduces energy consumption and GWP by 25%‒33%, demonstrating the clear environmental benefit.