Trans Fat Chemistry

Trans fat is a type of unsaturated fat that is not common in nature but can be produced when vegetable fats are hydrogenated through chemical reactions to become saturated fats.

Saturated and Unsaturated Fat

All fats have a chemical structure that consists of long hydrocarbon chains, which is a series of carbon atoms bonded together and hydrogen atoms to stabilize the molecule by filling in the gaps.

Each bond that connects to carbon atoms in the acid chain can be single or double. Single refers to a single pair of electrons in the bond with more electrons available to form bonds with hydrogen atoms around the carbon atoms. Conversely, a double bond requires two pairs of electrons and leaves less free electrons to bond with hydrogen atoms around the chain.

Saturation of a hydrocarbon chain refers to how many hydrogen atoms are present in the chain. For hydrocarbon chains with all single bonds, there are more hydrogen atoms bonded around the carbon atoms, so it is known as saturated. If there are double bonds present, however, there are fewer hydrogen atoms because the electrons are used to create the double bonds, which is referred to as unsaturated.

Hydrogenation of Vegetable Oils

Naturally occurring vegetable oils are usually unsaturated fats, but for some commercial purposes it is beneficial to create saturated fats from vegetable oils through a process known as hydrogenation.

Chemical hydrogenation is a process that involves a catalyst to reduce the number of double bonds present and adding hydrogen atoms into the hydrocarbon chain. The process is controlled to produce the optimal physical and chemical properties for its intended purpose. Factors that are considered in this process include pressure, temperature, catalyst, time, fat source and the properties of the reaction vessel.

In theory, the process of hydrogenation should be completed to produce a fully saturated fat the does not contain any double bonds. However, there is no method that is 100% effective and some double bonds nearly always remain. This is known as partial hydrogenation, which occurs when the saturation is incomplete and some double bonds remain or may shift to another position of the chain.

The chemical process often affects partially hydrogenated fats in that the atomic configuration is altered, which changes the properties of the fat.

Cis and Trans Fat Configurations

The positioning of the atoms around the double bonds of unsaturated fats is not always the same and depend on where the hydrogen atoms rest around the carbon chain. They are differentiated by the terms cis and trans configuration, also known as elaidic acid and oleic acid respectively.

Trans configuration involves the arrangement of hydrogen atoms in a more linear way, which changes the properties of the fat including the melting point, shelf life, flavor and stability. These properties are favorable for the commercial food industry and are used in many products such as margarine and baked goods.

Cis fat is abundant in nature but with the chemical hydrogenation process used by commercial industries both cis and trans fats can be produced. While it depends on the manufacturing process, on average 25-45% of hydrogenated oils is trans fat.

Health Implications

High intake of trans fat in the diet can have negative consequences on overall health, including increased risk of serious health conditions such as cardiovascular disease.

Trans fat is not usually labeled as such on commercially available products and, instead, is recognized as partially hydrogenated vegetable oil or vegetable oil, although it depends on the specific regulations of the country. As such, it is important for individuals to be aware of products with trans fat in their ingredients, even if it is not specifically labeled.

References

  • https://www.federalregister.gov/articles/2013/11/08/2013-26854/tentative-determination-regarding-partially-hydrogenated-oils-request-for-comments-and-for#h-10
  • http://elmhcx9.elmhurst.edu/~chm/vchembook/558hydrogenation.html
  • http://chemwiki.ucdavis.edu/Biological_Chemistry/Lipids/Fatty_Acids/Hydrogenation_of_Unsaturated_Fats_and_Trans_Fat

Further Reading

  • All Trans Fat Content
  • What is Trans Fat?
  • Trans Fat History
  • Trans Fat Nutritional Guidelines
  • Trans Fat Food Industry Response
More…

Last Updated: Aug 23, 2018

Written by

Yolanda Smith

Yolanda graduated with a Bachelor of Pharmacy at the University of South Australia and has experience working in both Australia and Italy. She is passionate about how medicine, diet and lifestyle affect our health and enjoys helping people understand this. In her spare time she loves to explore the world and learn about new cultures and languages.

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