We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Migration of Dihydroxy Alkylamines and Their Possible Impurities from Packaging into Foods and Food Simulants: Analysis and Safety Evaluation
Summary
Researchers analyzed the migration of dihydroxy alkylamines and their impurities from plastic food packaging and coffee capsules into food simulants, finding detectable levels of these antistatic agents and highlighting the need for safety evaluation of packaging chemical migration.
Alkyl diethanolamines are a group of compounds commonly used as antistatic agents in plastic food packaging materials. These additives and their possible impurities have the ability to transfer into the food; hence, the consumer may be exposed to these chemicals. Recently, scientific evidence of unknown adverse effects associated with these compounds was reported. N,N-bis(2-hydroxyethyl)alkyl (C8-C18) amines as well as other related compounds and their possible impurities were analyzed in different plastic packaging materials and coffee capsules using target and non-target LC-MS methods. N,N-bis(2-hydroxyethyl)alkyl amines, precisely, C12, C13, C14, C15, C16, C17 and C18, 2-(octadecylamino)ethanol and octadecylamine, among others, were identified in most of the analyzed samples. It should be emphasized that the latter compounds are not listed in the European Regulation 10/2011 and 2-(octadecylamino)ethanol was classified as high toxicity according to Cramer rules. Migration tests were carried out in foods and in the food simulants Tenax and 20% ethanol (v/v). The results showed that stearyldiethanolamine migrated into the tomato, salty biscuits, salad and Tenax. Lastly, as a crucial step in the risk assessment process, the dietary exposure to stearyldiethanolamine transferred from the food packaging into the food was determined. The estimated values ranged from 0.0005 to 0.0026 µg/kg bw/day.
Sign in to start a discussion.
More Papers Like This
Microplastics in food packaging: Analytical methods, health risks, and sustainable alternatives
This review examines how microplastics from food packaging materials can migrate into the food we eat during storage and handling. It evaluates analytical methods for detecting this contamination and suggests biodegradable polymers as promising eco-friendly alternatives, while noting that standardized testing methods and risk assessment frameworks are still needed.
A Systematic Review: Migration of Chemical Compounds from Plastic Material Containers in Food and Pharmaceutical Fields
This systematic review examines how chemical compounds migrate from plastic containers into food and pharmaceutical products. The findings highlight that chemicals like phthalates, bisphenol A, and other additives can leach into what we eat and drink, especially under heat or extended storage, raising concerns about long-term health effects from daily exposure to food packaging.
An Insight into the Growing Concerns of Styrene Monomer and Poly(Styrene) Fragment Migration into Food and Drink Simulants from Poly(Styrene) Packaging
This review examined styrene monomer migration from polystyrene food packaging into food and drink simulants, summarizing evidence on migration rates under different conditions and discussing the regulatory status of styrene as a potential human health concern.
Migration studies and toxicity evaluation of cyclic polyesters oligomers from food packaging adhesives
Researchers found that cyclic polyester oligomers migrating from food packaging multilayer adhesives exceeded EU regulatory limits, showed partial hydrolysis during simulated gastric and intestinal digestion, and exhibited weak androgen receptor antagonism in vitro — raising concerns about endocrine-disrupting potential from food contact materials.
Migration of microplastics from plastic packaging into foods and its potential threats on human health
This review examined how microplastics migrate from plastic food packaging into the foods we eat. Researchers found that factors like temperature, food acidity, and contact time increase the release of plastic particles and chemical additives from packaging materials. The study raises concerns about long-term health effects from daily microplastic exposure through packaged foods, including potential accumulation of harmful monomers in the body.