In a new study, published Wednesday in the journal Nutrition by Raj Bhopal, professor of public health at the University of Edinburgh, U.K who led the research. “Said The warning, steer clear of deep-fried and oily foods because the extra oil is bad for the heart as well as waistlines is not new, but the new study also shows that it may be the temperature we are cooking food at that is the real problem, not the amount of oil we are using, adding that “When food is heated up to a high temperature, new compounds are created, and some of them are known to be harmful to health,” and “This is not to do with frying. … It is more to do with the cooking process, with the temperature.”
When foods are cooked at high temperatures, they release chemicals known as neo-formed contaminants, or NFCs. This group includes trans-fatty acids – or Tran’s fats – that are known to increase the risk of heart disease, and Cooking food at extremely high temperatures releases harmful chemicals.
Trans fats and other chemicals are increase risk of heart disease, new research has shown, and “When the temperature is high, (trans fats) are produced at a very high rate,” Bhopal confirmed.
The researchers believe cuisines that typically involve cooking food in hot oils at high temperatures may explain why higher rates of heart disease are seen in certain populations, such as among people of South Asian descent.
The emphasis is on the temperature of your oils. “This study shows that by heating and frying, you can change what appear to be perfectly healthy oils and make them unhealthy,” said Michael Miller, professor of cardiovascular medicine at the University of Maryland Medical Center, who was not involved in the research in an online report.
By unhealthy, this means the creation of these chemical byproducts, such as trans fats. “Heart disease can manifest if you (then) reuse oils that have been boiled,” Miller added.
The group also looked at other byproducts of heating oil’s to high temperatures, called advanced glycogen end-products. These are also known to increase the likelihood of heart disease,
Bhopal used the example of cooking a chicken to highlight the vast differences in how much of these byproducts are produced. When a chicken is boiled, this cooking process releases an average of 1,000 glycogen end-products, whereas roasting and frying produces 4,000 and 9,000, respectively. “Different forms of cooking are leading to vastly different results,”