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The human body cannot produce its own supply of natural antioxidants; that is why we have to depend solely on our diet to get the amount of antioxidants our body needs. Groups of well-known natural antioxidants include catechins, coumarins, indoles, and carotenoids. All these are complex compounds found in almost every plant.
They are also loaded with healing antioxidants, which of course make them excellent antioxidant foods. There are several kinds of berries, as you well know, and each kind has a different concentration of antioxidants. In recent studies, purple berries (such as Elderberry and black currant) are considered as the richest antioxidant foods.
Others act by repairing damages caused by the accumulation of free radicals in tissues. Countless studies have been devoted to determining the extent of the health benefits super antioxidants may have. Super antioxidants have been the subject of various cancer research studies and even research on how to reverse aging.
Their results point to free radicals as the main culprits. It seemed that the more free radicals you have in your body, the faster the aging process becomes. Free radicals are harmful, unstable substances that develop after oxidation, a naturally occurring process of the body. Free radicals are not harmful in themselves.
Antioxidant foods are powerful scavengers of free radicals. The function of antioxidant foods is to hunt down free radicals and destroy them. What are Free Radicals? Free radicals are highly reactive chemical substances that are produced when the body undergoes the process of oxidation. The reason that free radicals are highly reactive is that they lack electrons, which cause them to be highly unstable.
They are derived from molecular oxygen under reducing conditions, such as when a person breathes. However, because of their high reactivity, free radicals often participate in unwanted side reactions resulting in cell damage. Many forms of cancer are thought to be the result of reactions between free radicals and DNA, resulting in mutations that can adversely affect the cell cycle and potentially lead to malignancy.