# Propylene Oxide > Source URL: https://additivefacts.com/additives/propylene-oxide > Markdown URL: https://additivefacts.com/additives/propylene-oxide.md **Safety rating:** AVOID **CAS number:** 75-56-9 **Category:** other **FDA GRAS:** no **Adverse events (FDA AERS):** 0 **FDA recalls:** 0 **Last updated:** 2026-04-04 ## Summary Propylene oxide (CAS 75-56-9) is a chemical compound that has been used historically as a sterilizing agent and fumigant in food processing. Its function in modern food applications remains unclear, and it is not currently approved by the FDA for use as a food additive. ## Regulatory status | Country | Status | | --- | --- | | United States | approved | | European Union | not_evaluated | | United Kingdom | approved | | Canada | approved | | Australia | approved | | Japan | approved | | South Korea | approved | | Brazil | approved | | China | approved | | India | approved | ## Detailed analysis ## What is Propylene Oxide? Propylene oxide is a volatile organic compound with the molecular formula C3H6O. It exists as a colorless liquid with a characteristic sweet odor at room temperature. The compound is industrially produced through the chlorohydrin process or cumene process. Chemically, it is an epoxide—a three-membered ring containing an oxygen atom—which gives it reactive properties useful in various industrial applications. ## Common Uses Historically, propylene oxide has been employed as a sterilizing agent and fumigant in food processing facilities, particularly for spices and dried food ingredients. It was also investigated for use as a surface sterilant on packaged foods. However, its current use in food products marketed in the United States is limited due to regulatory restrictions. Some countries have permitted its use for specific sterilization purposes, though this practice has declined significantly with the development of alternative sterilization methods. ## Safety Assessment Propylene oxide is classified as a potential hazard based on its chemical properties and toxicology profile. According to the International Agency for Research on Cancer (IARC), propylene oxide is classified as Group 2B (possibly carcinogenic to humans) based on limited evidence. The compound has demonstrated reproductive and developmental effects in animal studies at high exposure levels. The FDA has not granted propylene oxide GRAS (Generally Recognized as Safe) status for food use. The agency's assessment indicates that the additive does not meet the criteria for approval as a food additive. There are currently zero recorded adverse events and zero recalls associated with propylene oxide in the FDA database, though this reflects its limited use in food rather than an absence of hazard. Exposure to propylene oxide primarily occurs in occupational settings during manufacturing and handling. Worker exposure is regulated through Occupational Safety and Health Administration (OSHA) standards that limit airborne concentrations to 100 parts per million (ppm) as an 8-hour time-weighted average. ## Regulatory Status Propylene oxide is not approved as a food additive in the United States under the Food Additives Amendment. The European Food Safety Authority (EFSA) has also restricted its use in food applications. While some countries permitted its use as a sterilizing agent under specific conditions, the trend globally has been toward phase-out in favor of safer alternatives such as ethylene oxide (though this too faces scrutiny), electron beam irradiation, and hydrogen peroxide sterilization. The compound remains approved for certain non-food industrial applications, including use as a chemical intermediate and in manufacturing polyether polyols used in foam production. ## Key Studies Toxicological research on propylene oxide has primarily focused on occupational exposure and animal models. Studies have documented reproductive effects and potential developmental toxicity in laboratory animals at substantial dose levels. The IARC evaluation considered genotoxicity data and carcinogenicity findings from rodent studies when determining its classification. Regulatory agencies continue to monitor scientific literature on propylene oxide. Any new evidence regarding its safety profile would be incorporated into future regulatory assessments. Researchers interested in sterilization of food products have increasingly focused on non-chemical alternatives to minimize potential chemical residues in the food supply. ## Sources - FDA Substances Added to Food (CFSAN) - OpenFDA Adverse Event Reporting System (AERS) - OpenFDA Food Recalls - EFSA OpenFoodTox - EU Food Additive Portal ## Citation Additive Facts. "Propylene Oxide — Safety, regulation, and evidence." https://additivefacts.com/additives/propylene-oxide. Accessed 2026-05-20.