Call for greater control of nanoparticles in food

University of Sydney research has provided new evidence that nanoparticles, which are present in many food items, may have a substantial and harmful influence on human health.

The study investigated the health impacts of food additive E171 (titanium dioxide nanoparticles), which is commonly used in high quantities in foods and some medicines as a whitening agent. Found in more than 900 food products such as chewing gum and mayonnaise, E171 is consumed in high proportion every day by the general population.

Published in Frontiers in Nutrition, the mice study found that consumption of food containing E171 has an impact on the gut microbiota (defined by the trillions of bacteria that inhabit the gut), which could trigger diseases such as inflammatory bowel diseases and colorectal cancer.

Co-lead author Associate Professor Wojciech Chrzanowski said the study added substantially to a body of work on nanoparticle toxicity and safety and their impact on health and environment.

“The aim of this research is to stimulate discussions on new standards and regulations to ensure safe use of nanoparticles in Australia and globally,” he said.

While nanoparticles have been commonly used in medicines, foods, clothing and other applications, the possible impacts of nanoparticles, especially their long-term effects, are still poorly understood.

Titanium dioxide consumption has considerably increased in the last decade and has already been linked to several medical conditions, and although it is approved in food, there is insufficient evidence about its safety.

Increasing rates of dementia, autoimmune diseases, cancer metastasis, eczema, asthma and autism are among a growing list of diseases that have been linked to soaring exposure to nanoparticles.

“It is well established that dietary composition has an impact on physiology and health, yet the role of food additives is poorly understood,” said Associate Professor Chrzanowski, a nanotoxicology expert from the University of Sydney’s School of Pharmacy and Sydney Nano Institute.

“There is increasing evidence that continuous exposure to nanoparticles has an impact on gut microbiota composition, and since gut microbiota is a gate keeper of our health, any changes to its function have an influence on overall health.”

Co-lead author Associate Professor Laurence Macia from the University of Sydney said: “Our research showed that titanium dioxide interacts with bacteria in the gut and impairs some of their functions, which may result in the development of diseases. We are saying that its consumption should be better regulated by food authorities.”

“This study investigated effects of titanium dioxide on gut health in mice and found that titanium dioxide did not change the composition of gut microbiota, but instead it affected bacteria activity and promoted their growth in a form of undesired biofilm. Biofilms are bacteria that stick together and the formation of biofilm has been reported in diseases such as colorectal cancer,” said Associate Professor Macia, who is an immunologist expert on the impacts of the gut and gut microbiota on health from the Faculty of Medicine and Health and the Charles Perkins Centre.

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