BLOOD GLUCOSE SUMMARY
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Through maintaining a steady blood concentration of glucose the body maintains a constant supply of glucose to the cells (Jiang & Zhang, 2003). This mechanism helps minimize fatal variations in glucose concentration immediately after meals and also long after meals. Glucose is stored in body muscles and also in the liver in form of glycogen. Glycogen can be described as long chains of glucose that are metabolized when the body experiences shortage of glucose (Jiang & Zhang, 2003). The role of glucose regulation in the body is carried out by two main hormones: Glucagon and insulin. These hormones are produced in the pancreas. One of the main functions of insulin is stimulation of conversion of glucose into glycogen and its storage in the liver. Insulin is also believed to inhibit the kidneys from producing glucose in addition to stimulating the formation of fat from glycerol and fatty acids. Insulin also stimulates the formation of proteins from amino acids in the muscles. Glucagon, on the other hand, enhances the breakdown of fatty acids to form glucose in addition to stimulating the liver and muscle cells to breakdown glycogen to glucose (Michael & Sircar, 2010). Part IV: Macroparasite Internet Research Information on where the macroparasite is primarily located in the world, its life cycle and how humans get infected with the macroparasite Mites have been recognized as examples of macroparasites that subject human beings to devastating effects. Mites go through various stages in their process of development, which include egg, larva, nymph and adult stages (Potter, 2010). These stages may be accomplished in a single host or in a number of hosts. Human beings are not usually part of hosts for mites. Nevertheless, human being may come into contact with mites from external sources such as other animals or dirty areas (North Carolina State University, 2008). Mites that come into contact
