How Fats and Starches React to Humidity and Microwaves

Wheat starch and fatty acids can team up to form complexes. These complexes are important for health but can be easily affected by the moisture in the air. To understand this better, scientists created these complexes using microwaves and different types of fatty acids. They varied the length of the carbon chains in the fatty acids from 12 to 18 and the degree of unsaturation from C18:0 to C18:3. They then looked at how these differences affected the structure, digestion, and how well the complexes held up under different humidity levels. The study found that both the length of the carbon chains and the degree of unsaturation in the fatty acids changed how the complexes behaved. When it came to absorbing moisture, these complexes were more sensitive than pure wheat starch. They started to absorb moisture at a lower humidity level, around 44% to 68% relative humidity, compared to pure wheat starch, which started at 72% relative humidity. This means that even a little bit of humidity in the air can affect how well these complexes are stored. The complexes also reached a lower equilibrium moisture content, between 17. 7% and 20. 5%, compared to pure wheat starch, which reached 27. 7%. This shows that humidity can greatly affect how well these complexes are stored. The study also looked at how the complexes broke down during digestion. This is important because it can affect how nutrients are absorbed in the body. The research highlights the need for specific storage guidelines for these starch-lipid complexes. Understanding how they react to humidity and microwaves can help in creating better food products. It can also help in developing new ways to preserve these complexes for longer periods. This is especially important for products that need to be stored for a long time or in places with high humidity. The study also opens up new questions. For example, how do different types of fatty acids affect the stability of these complexes? And how can we use this information to create better food products? These are important questions that need to be answered to fully understand the potential of these complexes.