Coconut - New Look
The Latest Studies on Coconut Oil
By Mary G. Enig, PhD
One of the very useful oils in the food supply comes from the coconut. Coconut oil has suffered from unjust criticism for more than 30 years in the United States because some of the governmental and food oil organizations, as well as consumer activist organizations such as Center for Science in the Public Interest (CSPI), have claimed that coconut oil as a "saturated fat" is shown to be atherogenic. This is not true.
There is a variety of supportive research published in 2003, 2004, and 2005, which shows the importance of coconut oil. Also, information on coconut oil is currently coming into the research literature from numerous countries, including India, Norway, Iran and the United States.
The following are some of the most recent studies showing the benefits of coconut oil. These studies contradict claims that coconut oil contributes to heart disease and also support earlier research showing an antimicrobial role for the fatty acids in this traditional fat.
BENEFICIAL FOR HEART DISEASE
Recent research contradicts claims that coconut oil causes atherosclerosis and heart disease. In a study published in Clinical Biochemistry, 2004,1 researchers looked at coconut oil as a component of diet in laboratory animals (Sprague-Dawley rats). In this study, virgin coconut oil, which was obtained by wet process, had a beneficial effect in lowering total cholesterol, triglycerides, phospholipids and low density lipoproteins (LDL). The effects were uniformly beneficial. In serum and tissues, very low density lipoprotein (VLDL) cholesterol levels were lowered and HDL-cholesterol was increased. The polyphenol fraction of virgin coconut oil was also found to prevent in vitro LDL-oxidation. We know that oxidized cholesterol can initiate the process of atherosclerosis—the fatty acids in coconut oil prevent this oxidation. The results in this study were interpreted as due to the biologically active polyphenol components present in the oil.
Another study dealing with lipoproteins and cholesterol was carried out in women. Researchers found that coconut oil-based diets lowered post-prandial tissue plasminogen activator and lipoprotein (a).2 Lp(a) is a blood marker that is a much more accurate indication of proneness to heart attack than cholesterol levels. Researchers had believed that levels of Lp(a) were unaffected by various forms of dietary fat intake. However, in this study, Lp(a) was lowered when the subjects consumed a high-saturated fat diet and somewhat lowered when they consumed a slightly lowered-saturated fat diet. The saturated fat used in both of these diets was coconut oil. The control diet was based on a monounsaturated oil.
One of the more interesting uses of coconut oil found in the human toxicology literature involves the beneficial use of coconut oil as a successful treatment for acute aluminium phosphide poisoning. This poison is used to control pests in grain storage facilities where it functions as a poisonous gas, namely phosphine gas, which is a mitochondrial poison. There is no known antidote for aluminium phosphide. The patient described in this case study survived following rapid treatment which included taking baking soda and coconut oil, as well as supportive care, and it was concluded that coconut oil had a significant use as an added part of the treatment protocol in this type of poisoning.
A few researchers have known for some time that a derivative of coconut oil, lauric acid and monolaurin, are safe antimicrobial agents that can either kill completely or stop the growth of some of the most dangerous viruses and bacteria. Many bacteria have become resistant to antibiotics but herbal oils such as the oils of oregano and the major fatty acid from coconut oil, lauric acid, which the body turns into the monoglyceride, monolaurin, are showing great promise as anti-bacterial and anti-viral agents. Monolaurin, in particular, is being shown to be useful in the prevention and treatment of severe bacterial infections, especially those that are difficult to treat or are antibiotic resistant. Difficult bacteria such as Staphylococcus aureus as well as other bacteria have been studied here in the United States in research groups such as Dr. H.G. Preuss’s group at Georgetown University. They found that monolaurin combined with herbal essential oils inhibited pathogenic bacteria both in the petri dish (in vitro) and also in mice (in vivo).
The above opinionated views and information serves to educated and informed consumer . The information provided herein should not be used during any medical emergency or for the diagnosis or treatment of any medical condition. .It should not replaced professional advise and consultation. A licensed physician should be consulted for diagnosis and treatment of any and all medical conditions
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