Vitamin D plays an integral role in multiple systems in the human body, from its function in Calcium and Phosphorus metabolism, to modulation of the immune and reducing the risk of cardiovascular diseases (Grober et al. 2013). Unfortunately, factors such as diet, geographic position, and skin pigmentation are contributing to an increase of prevalence of Vitamin D deficiency around the world, consequently leading to a higher rate of associated illnesses. Namely, Cardiovascular Diseases such as Coronary Artery Disease (CAD), Hypertensive Vascular Disease, and Myocardial Infarction have been shown to be more common in people with lower levels of Vitamin D in their system (Lavie, Lee & Milani 2011).
Vitamin D can often be obtained with two different methods. The main method is the conversion of 7-dehydrocholesterol in the skin into Vitamin D3 via sun exposure to absorb ultraviolet B radiation with a wavelength of 290-315nm (Holick 2007). The other method, is through consumption in diets through plants in the form of Vitamin D2; or fatty fishes, supplements or fortified vitamin D products in the form of Vitamin D3 (Lavie, Lee & Milani 2011). Vitamin D undergoes hydroxylation twice; first with the enzyme 25-hydroxylase to form 25-hydroxyvitamin D (Calcidiol) (Al Mheid et al. 2013). Then, Calcidiol is converted to the most active form of Vitamin D, 1,25-dihidroxyvitamin D Hormone (Calcitriol) with the help of renal 1--hydroxylase in the kidney (Al Mheid et al. 2013). Vitamin D2 and D3 are relatively similar since share the same hydroxylation pathway to produce Calcitriol (Tripkovic 2013), however, D3 has shown to have a greater influence on Calcidiol levels and thus more effective in maintaining Vitamin D health (Heaney et al. 2011).
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..., RL & Armas, LAG 2011, 'Vitamin D3 Is More Potent Than Vitamin D2 in Humans', The Journal of Clinical Endocrinology & Metabolism, vol. 96, no. 3, pp. E447-E52.
Holick, MF 2007, 'Vitamin D Deficiency', New England Journal of Medicine, vol. 357, no. 3, pp. 266-81.
Lavie, CJ, Lee, JH & Milani, RV 2011, 'Vitamin D and Cardiovascular Disease Will It Live Up to its Hype?', Journal of the American College of Cardiology, vol. 58, no. 15, pp. 1547-56.
Reid, IR & Bolland, MJ 2012, 'Role of vitamin D deficiency in cardiovascular disease', Heart, vol. 98, no. 8, pp. 609-14.
Tripkovic, L 2013, 'Vitamin D2 vs. vitamin D3: Are they one and the same?', Nutrition Bulletin, vol. 38, no. 2, pp. 243-8.
Zittermann, A 2006, 'Vitamin D and disease prevention with special reference to cardiovascular disease', Progress in Biophysics and Molecular Biology, vol. 92, no. 1, pp. 39-48.
Her findings from this research was praised as she concluded that small supplementary feeding with fruits, milk and wheat germ improved the growth of school children. She also found out that the over dosage of Vitamin D produced brittle bones and calcification of soft tissues. If that wasn’t enough, she continued her extensive research and showed that pantothenic acid is essential for normal pigmentation of hair and skin. Lastly she was intelligent enough to prove that the bone density of woman decreased between 50 and 65 years of
Brownstein, Joseph. “Some common vitamin supplements could increase death risk, study finds.” 10 October 2011. Vitals on mnsbc.com. Web. 11 January 2012. http://vitals.msnbc.msn.com/_news
Vitamin B12 deficiency limits selenium methylation and excretion resulting in higher tissue selenium levels and subsequent toxicity. It occurs in people whose digestive systems do not adequately absorb the vitamin from the foods they eat. Vegetarians who eat eggs and milk products are the most at risk because, on average, they consume less than half the adult vitamin B12 Recommended Dietary Allowance (RDA) while strict vegans (who don't eat any animal products, including meat, eggs, or milk) are at an even greater risk. Vitamin B12 is important since it works with the vitamin folate to make the body’s genetic material and help keep levels of the amino acid homocysteine in check which helps to decrease heart disease risk. It is also essential in the production of red blood cells which carry oxygen through the blood to the body’s tissues. Life Extension gives offers some of selenium supplements. Babies who are born of parents with low selenium and vitamin B12 rich foods are at risk of anaemia.
Marks, R., P.A. Foley, D. Jolley, K.R. Knight, and J. Harrison. 1995. The effect of regular sunscreen use on vitamin D levels in an Australian population: results of a randomized controlled trial. Archives of Dermatology 131: 415-421.
In 2011, the University Of Minnesota took women who take vitamins daily and studied them(Offit, Paul., 2013). The result was the same in that there was no supporting evidence that favors Pauling’s claims and statements. In conclusion, the general public believed the words of a man who had no specific evidence to support his own claims over researches done by trusted establishments who had evidence towards their own claims against Linus Pauling. Vitamin D is essential in many aspects especially during growth periods such as adolescents and infancy as indicated by Winston Koo and Nitin Walyat who are the respective authors of “Vitamin D and Skeletal Growth and Development”. Vitamin D is essential for the body as it helps development organ cells; without the development of organ cells, the body cannot fight against harsh diseases and it will eventually cause severe diseases which can lead to delayed growth rate(Koo, Winston ., 2013, p.188).. Children who drink breast milk are more prone to vitamin D deficiency because breast milk does not contain as many vitamins as mineral (Koo,
Cardiovascular Disease is defined by the American Heart Association as “Heart and blood vessel disease”. Atherosclerosis of the arteries, can lead to hypertension, heart failure, arrhythmias, heart valve problems, myocardial infarctions or a stroke (AHA, 2016). In this paper, all of heart and vessel diseases aforementioned, will be considered cardiovascular disease (CVD). According to
Since ancient times vitamin D has been the predominant cause of bone deficiencies.1 However, it was not in till the seventeenth century when both Dr. Daniel Whistler and Professor Francis Glisson made the first scientific description of a vitamin D deficiency.2 During the mid-seventeenth century there was an increase amount of children that were diagnosed with the bone disease called rickets.2 The cause of the rickets was determined to be associated to the lack of sunlight. A German researcher Kurt Huldschinsky came to the conclusion that when infants were exposed to ultraviolet light rays they became cured of rickets2. He stated that a substance in the skin was the potential source of the cure.2 In 1922, American scientist Elmer McCollum proved that when cod liver oil was heated; the beneficial effects of vitamin A in the oil were reduced.2 However, the oil remained effective in curing rickets leading McCollum to reason that a nutrient different from vitamin A was present in the oil. As a result, he named this nutrient vitamin D, which became the fourth vitamin to be discovered and named.2 Additionally, shortly after 1918, vitamin D was also discovered by an accidental experiment that included a group of scientists curing dogs affected with rickets by feeding cod liver oil to them.1
Today, cardiovascular disease is “the number one killer in the United States and the developed world” (Sapolsky, 2004, p. 41). Coronary heart disease (CHD) is the most common form of cardiovascular disease, and is responsible for claiming an unreasonable amount of lives every year. CHD can begin to accumulate in young adults, but is prominently found in both men and women in their later adult lives. As a result of CHD, men typically experience heart attacks, whereas women present with chest pains, known as angina (Matthews, 2005).
The body can manufacture only vitamin D; all others must be derived from the diet. Lack of them causes a wide range of metabolic and other dysfunctions. In the U.S., since 1940, the Food and Nutrition Board of the National Research Council has published recommended dietary allowances (RDA) for vitamins, minerals, and other nutrients.
Heaney RP. The vitamin D requirement in health and disease. J Steroid Biochem Mol Biol. 2005;97(1-2):13-19.
Rickets is a bone disease that occurs in children as a result of a Vitamin D deficiency. This disease, which was nearly eradicated in the early 20th century, has become a re-emerging health concern for various countries in the past ten years. Certain factors such as poor nutrition as a result of low socioeconomic status or high concentrations of melanin in the skin can increase the chances of getting rickets. Sufficient Vitamin D levels are crucial to the functioning of the body, especially in the absorption of calcium. This essay will examine the causes, symptoms, pathogenesis, diagnosis and treatment of rickets; as well as the importance of Vitamin D and calcium in the prevention and treatment of this disease.
Vitamin B12 is an essential nutrient that plays an important role in DNA synthesis and nerve function. It is contained in high amounts in animal derived foods such as milk, eggs, and meat. The vitamin is stored in the liver long-term. Individuals with vegetarian, vegan, or other forms of restricted diet may develop the condition after approximately 6 months as liver stores of vitamin B12 become depleted. Some individuals develop the condition due to autoimmune destruction of cells in the stomach that produce intrinsic factor. Intrinsic factor is necessary for proper absorption of vitamin B12 in the small intestine.
My average intake is 66 mg. it is lower than the required Vitamin C intake. Deficiency in Vitamin C can develop scurvy, if vitamin C is missing on our diet. Oranges, lemon and other citrus fruits, bell pepper, kiwi broccoli, berries, tomatoes and papayas are rich in Vitamin C . Lack of Vitamin D on diet can develop rickets to small children. The required intake for this vitamins is 15microgram and my report is zero. Vitamin D can be achieved from exposure of skin to ultra violet rays of the sun. Vitamin E is responsible for transmission of nerve impulses, body weakness and eye problem that can cause blindness. My nutrient intake for Vitamin 10 mg AT and the require intake is 15 mg AT, which is 5 mg lower than the require amount. Food related to Vitamin E are green leafy vegies such as spinach, kale are rich in Vitamin E, in addition, broccoli, hazel nuts, squash and pumpkin are also rich in Vitamin E. My vitamin K intake is 3 microgram, way too low compared to the requirement which is 90 microgram. Vitamin K deficiency can cause hemorrhagic disease of new born. Food that gives Vitamin K are green leafy vegetables such as kale and spinach, canola oils, olive oils, and
Doheney, Kathleen. “Low Vitamin D Linked to Poor Diabetes Control.” webmd.com. WebMD, 21 July 2010. Web. 23 November 2011.
Vitamin E is the general classification for a group of eight fat-soluble compounds of tocopherols and tocotrienols. Vitamin E functions primarily as an antioxidant, but also has other roles in the body [1].