Posted on 01/03/2025 10:49:17 AM PST by Red Badger
TFAs, harmful fats linked to heart disease, can form during home cooking with sulfur-rich vegetables like garlic and onions at high temperatures. A Japanese study found this effect is minor under normal conditions but emphasized awareness of TFA risks.
A new study reveals that garlic and onions contain compounds that can convert into trans fats when exposed to high cooking temperatures. Trans-fatty acids (TFAs) are a significant contributor to cardiovascular diseases. These harmful fats can build up on the walls of arteries, narrowing them and increasing the risk of heart attacks.
The World Health Organization (WHO) estimates that TFAs are linked to over 278,000 deaths globally each year. To minimize health risks, the WHO advises limiting TFA intake to less than 1% of total daily energy consumption.
TFAs are commonly found in fried fast foods and processed products like margarine, ghee, biscuits, and cakes. In industrial settings, TFAs are primarily created during the hydrogenation of vegetable oils—a process that saturates the oil with hydrogen. However, research shows that TFAs can also form during home cooking under certain conditions, emphasizing the need for awareness and precaution in meal preparation.
Formation of TFAs During Cooking
Studies indicate that unsaturated fatty acids (UFAs) can undergo trans-isomerization, a molecular reconfiguration that transforms them into TFAs when heated at 150 °C or higher. On the other hand, sulfur-containing compounds, such as isothiocyanates and polysulfides, which are found in many vegetables, are known to promote geometrical isomerization of carotenoids (e.g., lycopene in tomato) —natural pigments that give vegetables their red, orange, or yellow color.
This raises the question of whether these sulfur compounds also promote the trans-isomerization of UFAs in everyday cooking. Understanding the impact of natural sulfur compounds on the cooking process can help regulate TFA intake, particularly for those who avoid processed foods.
To explore this, a Japanese research team led by Mr. Junji Obi of Nissui Corporation and Dr. Masaki Honda of Meijo University assessed the role of isothiocyanates and polysulfides in promoting the trans-isomerization of vegetable UFAs during cooking. The research was published online on November 27, 2024, in the journal Food Research International.
Natural sulfur compounds promote formation of trans fatty acids (TFAs) during heating. Credit: Masaki Honda / Meijo University
The researchers first evaluated the effects of sulfur compounds in triacylglycerols (TAGs) in a model system using reagents. Then, tests were conducted using ingredients (garlic, onion, leek, cabbage, horseradish, and broccoli sprouts) and vegetable oils (soybean and olive oils) to simulate actual cooking processes.
“We wanted to understand the principal characteristics of UFA isomerization in TAGs promoted by sulfur compounds through a model system using reagent-grade sulfur compounds and triglycerides,” explains Junji Obi, the first author of this paper. “We were interested in the effects of temperature, reaction time, sulfur compound concentration, the type of sulfur compounds, and addition of antioxidants on UFA isomerization.”
The team also assessed the role of antioxidants such as α-tocopherol in reducing the isomerization of UFAs in triglycerides like triolein and trilinolein.
Key Findings and Practical Implications
The study revealed that sulfur compounds significantly promote heat-induced trans-isomerization of UFAs in vegetable oils, especially when cooking temperatures are above 140°C. The addition of antioxidants significantly reduced the promotion of UFAs isomerization by isothiocyanates, whereas they did little to inhibit the promotion of isomerization by polysulfides. This explains that cooking polysulfide-rich vegetables such as garlic and onions in vegetable oil at high temperatures can generate TFAs. In fact, this study demonstrated that garlic and onions significantly promote the trans-isomerization of UFAs.
Under normal cooking conditions, the corresponding increase in the trans isomer ratio is expected to be minimal, at most a few percentages. Therefore, while excessive caution is not necessary, it is important to recognize that cooking with ingredients rich in sulfur compounds may increase the risk of TFA intake.
“Release of TFAs under normal cooking conditions is expected to be minimal. Therefore, excessive caution is unnecessary,” concludes Dr. Honda, the corresponding author of this paper. “However, it is important to understand that cooking with ingredients rich in natural sulfur compounds may increase the risk of TFA intake.”
Reference:
“Vegetables containing sulfur compounds promote trans-isomerization of unsaturated fatty acids in triacylglycerols during the cooking process”
by Junji Obi, Taro Sakamoto, Kiyomi Furihata, Seizo Sato and Masaki Honda, 27 November 2024, Food Research International.
DOI: 10.1016/j.foodres.2024.115425
Immediately dismisses everything about this claim. Vegetable oils are seed/rancid oils and are known to be carcinogenic at high heat and extended us; both parameters are true for restaurant cooking oils/fryers, for example.
Alliums have significant, known, and long studied benefits to health. The more likely outcome from this study is that you should be cooking them in butter, tallow, or ghee and NOT any type of plant-based fat.
You sound like a lot of fun. When’s the next barbecue? I’ll bring my propane torch!
>> So, just cook them in butter - problem solved.
I’m gonna cook mine in heart-healthy beef tallow. :-)
>> Soon we will be down to Soylent Green
“Soylent Green is pee pole!”
Ghee, Tallow, and Butter are very stable hydrocarbons, I don’t get your point in not using them. Obviously “seed oils” and EVOO past its flash point, but the others I don’t understand your point.
.
SciTech? Nonsense Nuts.
In other news, people who breathe air eventually die.
Umm.... Ghee is made from butter. Last time I checked - butter is not a vegetable.
The author doesn’t know that ghee comes from a cow, not a vegetable.
Some of us are confused, and we need the author to explain how he converts a cow to a vegetable. Or was I asleep in biology?
They’re trying to make everything good for us sound bad.
Heresy!!! BLASPHEMY!!!
Different article.
I have some GERD issues about 30 years ago and had to change my diet. Which meant in essence no Italian food or anything else with garlic and onion. I can take a little bit of it but not much as they are both an irritant to my system.
More “expert” advice. No thanks. All things in moderation. God will handle the rest.
that bites...
So anything that comes from a cow, milk, meat and hide is all "plant based". The cow is just a vegetable processing plant.
Well, between my >300 ldl and the OP article details...
...a long dead SOB is typing this.
You took all of the same points I did. Nothing combative. I was pointing out that the entire study’s premise was flawed.
The otherwise healthy all-natural pizza I cooked yesterday included onion and peppers (that I added).
I take it from the article that if I cooked them separately, and then added them after cooking, this would result in fewer TFAs.
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