Delicious olives offer an amazing array of health benefits that humans have likely been enjoying for thousands of years. Historians note that olives were part of the diet for people as far back as 6,000 years ago in the early Bronze Age. Although the Mediterranean region is particularly note for their delectable olives and high-quality olive oil, olives also grow in regions of Portugal and the Middle East. There are many different varieties of olives, but the research is suggests that each variety offers spectacular health benefits. Whether you’re a fan of green olives or black olives or all the wonderful olive varieties that exist, you should add them to your weekly diet to obtain their many health benefits.
Good for Your Brain
With their brain-supportive antioxidants, olives provide support for strong cognitive function. Because your brain requires so much oxygen, it’s more prone to the development of free radicals than other parts of your body. Antioxidants neutralize these disease-causing free radicals to protect brain health. Additionally, olives contain vitamin K; a lack of vitamin K has been linked to diseases like Alzheimer’s. As if those benefits weren’t enough, there is research that suggests that olives can reduce the risk for depression. So, simply be eating olives, you could elevate your mood and protect your brain health at the same time.
Olives, whether they be black, green, or stuffed with blue cheese, are loaded with Vitamin E and polyphenols, both of which are powerful antioxidants. To break that down a little, antioxidants are potent compounds that fight free radicals in the body, which can help protect cells and prevent cardiovascular diseases and cancer. Antioxidants also help protect your immune system, helping you avoid getting sick and keep you healthy as you age. Vitamin E is fat soluble, meaning that .Olives are a great source of vitamin E, which has the ability to neutralize free radicals in body fat. Especially when working with the stable monounsaturated fats found in olives, vitamin E can make cellular processes safer. If the DNA of a cell is damaged, it can mutate and become cancerous. Studies have shown that a diet supplemented with olives and olive oil leads to a lower risk of colon cancer, almost as low a risk as a diet rich in fish oil.it’s better absorbed into your bloodstream when combined with fat—just like in that perfect little olive package that nature cleverly designed.
GOOD – Arachidonic acid is not one of the essential fatty acids. However it does become essential if there is a deficiency in linoleic acid or if there is an inability to convert linoleic acid to arachidonic acid which is required by most mammals.
BAD – Scientists believe omega-6s are pro-inflammatory, while omega-3s are anti-inflammatory ( 1 ). Of course, inflammation is essential for your survival. It helps protect your body from infection and injury, but it can also cause severe damage and contribute to disease when it’s chronic or excessive. Pro-inflammatory eicosanoids are important chemicals in the immune system. However, when too many of them are produced, they can increase inflammation and inflammatory disease ( 36 ). Although omega–6 fats are essential, the modern Western diet contains far more omega–6 fatty acids than necessary
Arachidonic Acid: The Good and Bad
Arachidonic acid is an essential fatty acid, which is consumed in small amounts in our regular diets. It is considered an “essential” fatty acid because it is an absolute requirement for the proper functioning for the human body. Essential fatty acids (EFA’s) are polyunsaturated fatty acids that the body cannot synthesize and therefore must obtain from the diet. There are two families of EFAs: omega-6 and omega-3. The most important omega-6 fatty acids are linoleic Acid (LA), gamma-linolenic acid (GLA), dihomogamma-linolenic acid (DGLA), and Arachidonic acid (AA). The most important omega-3 fatty acids are alpha-linolenic acid (ALA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA). Omega-3 fatty acids can be found in fish and certain plant oils. Linoleic acid, an omega-6 fatty acid, can be found primarily in seeds, nuts, grains and legumes. Linoleic acid can be converted into arachidonic acid. Arachidonic acid can be found mainly in the fatty parts of meats and fish (largely red meat), so vegetarians usually have lower levels of arachidonic acid in the body than those with omnivorous diets. There is a great deal of controversy about arachidonic acid. Some information says that arachidonic acid can cause health problems and other sources say it is needed to aid in muscle growth. Arachidonic acid is vital to the operation of the prostaglandin system. Prostaglandins are part of a class of substances called eicosanoids. Eicosanoids influence numerous metabolic activities including platelet aggregation (blood clotting), inflammation, hemorrhages, vasoconstriction and vasodilation, blood pressure, and immune function. The eicosanoids contain twenty carbons and include the prostaglandins (PG), prostacyclins (PGI2), thromboxanes (TX), leukotrienes (LT), and hydroxy acids. There are bad (pro-inflammatory) and good eicosanoids (anti-inflammatory) and they compete with each other. Two prostaglandins arachidonic acid is the substrate to are PGE2 and PGF2a. The first one is generally thought to be bad while the second is thought to be good. Studies point to PGF2a, specifically, as being the prostaglandin most closely tied to increase skeletal muscle protein synthesis. Skeletal muscle tissue has no capacity to actually store prostaglandins, so the only local source for PGF2a is the arachidonic acid that is retained in the outer phospholipids layer of each cell. It is the stretching of muscle fibers during intense physical exercise that causes arachidonic acid to be released and metabolized to active prostaglandins. Arachidonic acid is actually the chemical messenger first released by your muscles during intense weight training, controlling the core physiological response to exercise and regulating the intensity of all growth signals to follow. Also, anytime you have tissue injury, inflammation is involved in healing the wound. Some prostaglandins have pro-inflammatory affects. The fact is, if you work out, you have tissue injury – micro trauma to the muscle tissue. As your delayed onset muscle soreness will tell you, inflammation is involved in the healing of this micro trauma. Furthermore, in both animal and human studies it has been shown that exercise lowers the content of arachidnoic acid in skeletal muscle tissue. Therefore, there has been talk of arachidonic acid supplementation. The omega-6 and omega-3 fatty acid families form different eicosanoids with different activities. They compete with one another for the enzyme (PLA2) that catalyzes the release of the essential fatty acids from the cell membrane. Also, they compete for cyclooxygenase and lipoxygenase, the enzymes necessary for eicosanoid synthesis. A proper balance of these fatty acids in the diet is therefore important for the maintenance of good health. An increase in the consumption of one family will reduce the synthesis of eicosanoids derived from the other family, which will ultimately have an effect on overall health. According to many sources, humans evolved on a 1:1 dietary ratio of omega-6 to omega-3. With today’s typical “Western” dietary habits the average person consumes a dietary ratio of between 25 and 40 to 1 omega-6 to omega-3. This highly imbalanced ratio is due to the dramatic increase in consumption of omega-6 fatty acids in vegetable oils, which contain linoleic acid, and meat and shellfish, which contain arachidonic acid. At the same time, we are consuming less of the omega-3 fatty acids. Since the omega-6 compete with the omega-3 fatty acids for incorporation into cell membranes and subsequent metabolism, high intake of the omega-6 fatty acids will result in an increased production of unhealthy eicosanoids derived from arachidonic acid. Omega-3 fatty acids produce eicosanoids that are anti-inflammatory. These eicosanoids help support normal blood pressure by relaxing the arteries and blood vessels and decreasing blood lipids. They also decrease blood-clotting factors. Omega-6 fatty acids can produce both anti-inflammatory and/or inflammatory and vasoconstricting eicosanoids. Omega-6 can be good for you if you take them in the right amount with omega-3. Omega-3 can counteract the pro-inflammatory effects of omega-6 fatty acids. When omega-3 and omega-6 are in balance, they are both very good but when omega-6 is in excess, they become bad. For that reason, it is essential to have a proper balance of omega-6 and omega-3 fatty acids. A healthy ratio of omega-6 to omega-3 ranges from 1:1 to 1:3. Now that arachidonic acid supplements are on the market, athletes need to be aware that there needs to be a balance of omega-6 and omega-3 fatty acids in their diet. Supplementation is acceptable only if you are consuming enough omega-3 fatty acids to balance with the added omega-6 fatty acid (arachidonic acid) from the supplement. You have a choice to make. If your primary concern is muscular gain supplementing arachidonic acid could help as long as you are consuming enough omega-3 to balance your diet. However, if you suffer from one of the many inflammatory conditions that plague many people who exercise (tendonitis, bursitis, arthritis, etc.) then you should probably stay away from it since it can be pro-inflammatory. Furthermore, if you suffer from diabetes, asthma, high blood pressure, high cholesterol, heart disease, are pregnant, or are suffering from any inflammatory disease you should not supplement arachidonic acid in your diet. Just remember if you are going to take arachidonic acid supplements you should have a healthy ratio of omega-6 to omega 3.
-THE ACUTE INFLAMMATORY PROCESS-
The acute inflammatory process, arachidonic acid metabolism and the mode of action of anti-inflammatory drugs.- Arachidonic acid is a polyunsaturated fatty acid covalently bound in esterified form in the cell membranes of most body cells. Following irritation or injury, arachidonic acid is released and oxygenated by enzyme systems leading to the formation of an important group of inflammatory mediators, the eicosanoids. It is now recognised that eicosanoid release is fundamental to the inflammatory process. For example, the prostaglandins and other prostanoids, products of the cyclooxygenase enzyme pathway, have potent inflammatory properties and prostaglandin E2 is readily detectable in equine acute inflammatory exudates. The administration of nonsteroidal anti-inflammatory drugs results in inhibition of prostaglandin synthesis and this explains the mode of action of agents such as phenylbutazone and flunixin. Lipoxygenase enzymes metabolise arachidonic acid to a group of noncyclised eicosanoids, the leukotrienes, some of which are also important inflammatory mediators. They are probably of particular importance in leucocyte-mediated aspects of chronic inflammation. Currently available non-steroidal anti-inflammatory drugs, however, do not inhibit lipoxygenase activity. In the light of recent evidence, the inflammatory process is re-examined and the important emerging roles of both cyclo-oxygenase and lipoxygenase derived eicosanoids are explored. The mode of action of current and future anti-inflammatory drugs offered to the equine clinician can be explained by their interference with arachidonic acid metabolism. For full article : https://onlinelibrary.wiley.com/doi/abs/10.1111/j.2042-3306.1984.tb01893.x?sid=nlm%3Apubmed
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