Orange peels may hold a key to better cardiovascular health, new University of Florida-led research shows.

Heart disease is the leading cause of death for men, women and people of most racial and ethnic groups, according to the Centers for Disease Control and Prevention.

Recent research has shown that some gut bacteria help develop cardiovascular disease. When they feed on certain nutrients during digestion, gut bacteria produce trimethylamine N-oxide (TMAO). Levels of TMAO can help predict future cardiovascular disease, according to researchers at the Cleveland Clinic.

With help from a $500,000 USDA grant, Yu Wang and her team investigated the potential of orange peel extracts – rich in beneficial phytochemicals – to reduce TMAO and trimethylamine (TMA) production. Scientists tested two types of extracts: a polar fraction and a non-polar fraction.

To get the polar fractions, scientists used polar and non-polar solvents to extract the orange peel, Wang said.

“If you imagine your salad dressing, anything in the water or vinegar part are the polar fraction; anything in the oil away from water is the non-polar fraction,” Wang said. “The solvents we used were not exactly like water and oil, but they possess similar polarity.”

Results from the study showed that the orange peel non-polar fraction extract effectively inhibited the production of harmful chemicals. Researchers also identified a compound called feruloylputrescine in the orange peel polar fraction extract that also significantly inhibits the enzyme responsible for TMA production.

“This is a novel finding that highlights the previously unrecognised health potential of feruloylputrescine in reducing the risk of cardiovascular disease,” said Wang, a UF/IFAS associate professor of food science and human nutrition.

The orange peel finding is significant because 5 million tons of orange peels are produced each year in orange juice production nationwide. Nearly 95 % of Florida oranges are used for juice. About half of the peels go to feed cattle. The rest goes to waste.

But the Food and Drug Administration considers natural orange peel extracts safe for human consumption. So, Wang hope to put the peels to better use.

“These findings suggest that orange peels, often discarded as waste in the citrus industry, can be repurposed into valuable health-promoting ingredients, such as diet supplements or food ingredients,” said Wang, a faculty member at the UF/IFAS Citrus Research and Education Center. “Our research paves the way for developing functional foods enriched with these bioactive compounds, providing new therapeutic strategies for heart health.”

About UF/IFAS
The mission of the University of Florida Institute of Food and Agricultural Sciences (UF/IFAS) is to develop knowledge relevant to agricultural, human and natural resources and to make that knowledge available to sustain and enhance the quality of human life. With more than a dozen research facilities, 67 county Extension offices, and award-winning students and faculty in the UF College of Agricultural and Life Sciences, UF/IFAS brings science-based solutions to the state’s agricultural and natural resources industries, and all Florida residents.

The shift from fossil-based to renewable bio-plastics requires new efficient methods. New technology developed at VTT enables the use of pectin-containing agricultural waste, such as citrus peel and sugar beet pulp, as raw material for bio-based PEF-plastics for replacing fossil-based PET. The carbon footprint of plastic bottles can be lowered by 50 % when replacing their raw material of PET with PEF polymers, which also provides a better shelf life for food.

“In the near future, you may buy orange juice in bottles that are made out of orange peel. VTT’s novel technology provides a circular approach to using food waste streams for high-performance food packaging material, and at the same time reducing greenhouse gas emissions,” shares Professor of Practice Holger Pöhler from VTT”.

PET (polyethylene terephthalate) and other polyesters are being widely used in food packaging, plastic bottles and textiles. The annual production of PET products is estimated at 30 million tonnes. Replacing fossil-based PET with plant-based PEF (polyethylene furanoate) polymers can lower the carbon footprint of the products by 50 %.

Moreover, the barrier properties of PEF plastics are better than PETs, meaning that the food products have a longer shelf life. PEF is a fully recyclable and renewable high-performance plastic. Therefore, it opens up possibilities for the industries to reduce waste and to have positive impact on the environment.

VTT’s technology has significant advantages for making bio-based PEF plastics. The technology uses a stable intermediate for the production of FDCA (2,5-furandicarboxylic acid), one of the monomers of PEF, which enables a highly efficient process. In addition, utilising pectin-containing waste streams opens up new possibilities for the circular economy of plastics.

VTT’s unique scale-up infrastructure from laboratory to pilot scale ensures that this new technology will be brought to a technology readiness level that will allow polymer manufacturers’ easy transition to full scale.

VTT has patented the technology, and the research has been published in the scientific journal Green Chemistry on 7 December 2020: A unique pathway to platform chemicals: aldaric acids as stable intermediates for the synthesis of furandicarboxylic acid esters