An Overview of Dental Solid Waste Management and Associated Environmental Impacts: A Materials Perspective

Abstract

Dental healthcare plays an important role in the overall health of individuals, and the sector is rapidly growing around the world due to increases in population, healthcare facilities, and improved access for economically weaker sections of society. Dental procedures and oral care generate a significant amount of biomedical waste that should be managed in an environmentally safe and sustainable manner. An overview is presented of the current status of dental solid waste management with a focus on waste composition from traditional and emerging dental treatments, new-generation dental materials, waste treatment procedures, and current options. Dental waste can be broadly divided into three categories: infectious waste, non-infectious waste, and domestic-type waste. Infectious waste contains materials contaminated with blood or other infectious mouth fluids, amalgam, and sharps, whereas non-infectious dental waste is devoid of human fluid contamination but can be potentially toxic due to the presence of amalgams, acids, metal dust, resins, etc. Suspended particulates in dental wastewater are another likely source of contamination. Appropriate segregation of this waste is essential for containing infections during waste processing. New-generation dental materials, such as nanomaterials, resin-based composites, and ceramics, are finding increasing applications in a variety of dental procedures as antimicrobial, restorative, and therapeutic agents. While incineration and landfilling have been used for processing traditional dental waste, the presence of novel materials in dental waste raises several additional concerns. Novel single/multistage recycling approaches need to be developed for dental waste towards resource recovery, thus minimizing incineration and landfilling to the extent possible.