sábado, 8 de dezembro de 2012

Processed cows milk linked to diabetes

Saturday, December 08, 2012 by: Joseph Bova

(NaturalNews) We all grew up with the classical food pyramid, consuming all the proper servings of grains, dairy, and meat. Well, what if you found out that one of the main levels of the food pyramid actually could give you diabetes? Studies have indeed shown that our bodies, when reacting to A1 beta-casein in dairy, cause a diabetes-like response.

The facts

Diabetes is one of the most prevalent conditions in the western world. According to the American Diabetes Association, 18.8 million people are currently diagnosed with diabetes in the United States, seven million people are currently undiagnosed and 79 million people are classified as "pre-diabetic."

For decades, people who have developed Type I diabetes have been told that there is nothing they can do about it, that they were just "born" that way. However, studies have been done which show significantly strong evidence that auto-antibody reactions against the A1 beta-casein particles in cows' milk, may contribute to beta cell (pancreas) dysfunction and Type I diabetes. The correlation has been shown through multiple studies worldwide. The prevalence of casein consumption and diabetes diagnoses are very closely related. The suspected manner in which this occurs is through what is known as cross reactivity (micro-mimicry). Cross reactivity is when our bodies attack a foreign agent such as casein, as well as a cell type in our body. What happens is as we consume dairy products, our body has to digest the food. It breaks the dairy down into both whey and casein proteins. In cross reactivity or micro-mimicry reactions, the body attacks the casein molecule as a foreign invader, and it also begins to attack beta cells in the pancreas because they look very similar. The reaction is similar to a guy taking a girl out on a date, and the next time he goes to take her on the date, he actually takes her twin sister out. The two particles may act and look the same but obviously, we know they are not the same. Unfortunately, when the body's immune system is in "attack" mode, it sometimes gets "a little carried away." As stated by Cavallo et al (1996), it is suggested that micro-mimicry may take place between a sequence of the beta-casein protein and an epitope of the GLUT 2 transporter. This means when the body attacks the casein molecule, it will also attack the GLUT 2 transporter dealing with glucose regulation.

Think about the type of diet an average American has in 2012. If you take the high inflammatory diet that Americans have and add these micro-mimicry reactions, you can see why autoimmune disease is such a problem today. If you read the data from 1975 until 2010 in regards to dairy consumption per year, you will see an increase of 77 pounds per capita. This is a significant increase considering we have more knowledge of food now than we did in 1975.

So, does this mean that casein is the only cause of diabetes, no. It does mean; however, that before you give your kid a nice tall glass of cows' milk, think about the future repercussions. You are not giving your child diabetes, but you are increasing their chance of developing this disease. Now, there are many alternative options that are very delicious and healthy. In fact, options such as coconut milk or almond milk actually have many benefits. Now you have the information, it is up to you to choose not to be ignorant and make changes.

Sources:



Banchuin N, Boonyasrisawat W, Vannasaeng S, et al. Cell-mediated immune responses to GAD and beta-casein in type 1 diabetes mellitus in Thailand. Diabetes Res Clin Pract. 2002;55(3):237-45
Birgisdottir BE, Hill JP, Thorsson AV, Thorsdottir I. Lower consumption of cow milk protein A1 beta-casein at 2 years of age, rather than consumption among 11- to 14-year-old adolescents, may explain the lower incidence of type 1 diabetes in Iceland than in Scandinavia. Ann Nutr Metab. 2006;50(3):177-83
Cavallo MG, Fava D, Monetini L, et al. Cell-mediated immune response to beta casein in recent-onset insulin-dependent diabetes: implications for disease pathogenesis. Lancet. 1996;348(9032):926-8
Cavallo MG, Monetini L, Walker BK, et al. Diabetes and cows' milk. Letter. Lancet. 1996;348(9032):1655
Elliott RB, Harris DP, Hill JP, at al. Type I (insulin-dependent) diabetes mellitus and cow milk: casein variant consumption. Diabetologia. 1999;42(3):292-6
Fava D, Leslie RD, Pozzilli P. Relationship between dairy product consumption and incidence of IDDM in childhood in Italy. Diabetes Care. 1994;17(12):1488-9
Inman LR, McAllister CT, Chen L, et al. Autoantibodies to the GLUT-2 glucose transporter of beta cells in insulin-dependent diabetes mellitus of recent onset. Proc Natl Acad Sci USA. 1993;90(4):1281-4
Karvonen M, Viik-Kajander M, Moltchanova E, et al. Incidence of childhood type 1 diabetes worldwide. Diabetes Mondiale (DiaMond) Project Group. Diabetes Care. 2000;23(10):1516-26
Laugesen M, Elliott R. Ischaemic heart disease, Type 1 diabetes, and cow milk A1 beta-casein. N Z Med J. 2003;116(1168):U295
Monetini L, Barone F, Stefanini L, et al. Establishment of T cell lines to bovine beta-casein and beta-casein-derived epitopes in patients with type 1 diabetes. J Endocrinol. 2003;176(1):143-50
Monetini L, Cavallo MG, Stefanini L, et al. Bovine beta-casein antibodies in breast- and bottle-fed infants: their relevance in Type 1 diabetes. Diabetes Metab Res Rev. 2001;17(1):51-4
Padberg S, Schumm-Draeger PM, Petzoldt R, et al. The significance of A1 and A2 antibodies against beta-casein in type-1 diabetes mellitus. Dtsch Med Wochenschr. 1999;124(50):1518-21
Pozzilli P. Beta-casein in cow's milk: a major antigenic determinant for type 1 diabetes? J Endocrinol Invest. 1999;22(7):562-7
Thorsdottir I, Birgisdottir BE, Johannsdottir IM, et al. Different beta-casein fractions in Icelandic versus Scandinavian cow's milk may influence diabetogenicity of cow's milk in infancy and explain low incidence of insulin-dependent diabetes mellitus in Iceland. Pediatrics. 2000;106(4):719-24

About the author:
Joseph Bova is a student doctor at the Palmer College of Chiropractic Student Clinic in Port Orange, FL. He is also pursuing a Diplomate in Functional Neurology from the Carrick Institue for Graduate Studies. Joe is versed in both functional nutrition and medicine. As a student doctor Joe has helped patients with neurological disorders such as Parkinson''s Disease, Huningtons Chorea, Cervical Dystonia, ADD/ADHD, and Autism. Joe has also helped people with more common issues such as; acid reflux, hypertension, gastrointestinal issues, thyroid disease, rheumatoid arthritis, head aches, back pain and much more. You can follow Joe on twitter at BovaJoe, or on his blog at BovaHealthandWellness.com.

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