Long acting insulin

Insulin is a protein hormone that is used as a medication to treat high blood glucose. This includes in diabetes mellitus type 1, diabetes mellitus type 2, gestational diabetes, and complications of diabetes such as diabetic ketoacidosis and hyperosmolar hyperglycemic states. It is also used along with glucose to treat high blood potassium levels. Typically it is given by injection under the skin, but some forms may also be used by injection into a vein or muscle.   A-Chain Position  B-Chain Position Insulin is a protein hormone that is used as a medication to treat high blood glucose. This includes in diabetes mellitus type 1, diabetes mellitus type 2, gestational diabetes, and complications of diabetes such as diabetic ketoacidosis and hyperosmolar hyperglycemic states. It is also used along with glucose to treat high blood potassium levels. Typically it is given by injection under the skin, but some forms may also be used by injection into a vein or muscle. The common side effect is low blood sugar. Other side effects may include pain or skin changes at the sites of injection, low blood potassium, and allergic reactions. Use during pregnancy is relatively safe for the baby. Insulin can be made from the pancreas of pigs or cows. Human versions can be made either by modifying pig versions or recombinant technology. It comes in three main types short–acting (such as regular insulin), intermediate–acting (such as neutral protamine Hagedorn (NPH) insulin), and longer-acting (such as insulin glargine). Insulin was first used as a medication in Canada by Charles Best and Frederick Banting in 1922. It is on the World Health Organization's List of Essential Medicines, the most effective and safe medicines needed in a health system. The wholesale cost in the developing world is about US$2.39 to $10.61 per 1,000 iu (34.7 mg) of regular insulin and $2.23 to $10.35 per 1,000 iu of NPH insulin. In the United Kingdom 1,000 iu of regular or NPH insulin costs the NHS £7.48, while this amount of insulin glargine costs £30.68. Insulin is used to treat a number of diseases including diabetes and its acute complications such as diabetic ketoacidosis and hyperosmolar hyperglycemic states. It is also used along with glucose to treat high blood potassium levels. Insulin was formerly used in a psychiatric treatment called insulin shock therapy. If too much insulin is delivered or the person eats less than he or she dosed for, there may be hypoglycemia. On the other hand, if too little insulin is delivered, there will be hyperglycemia. Both can be life-threatening. Allergy to Insulin products is rare with a prevalence of about 2%, of which most reactions are not due to the insulin itself but to preservatives added to insulin such as zinc, protamine, and meta-cresol. Most reactions are Type I hypersensitivity reactions and rarely cause anaphylaxis. A suspected allergy to insulin can be confirmed by skin prick testing, patch testing and occasionally skin biopsy. First line therapy against insulin hypersensitivity reactions include symptomatic therapy with antihistamines. The affected persons are then switched to a preparation that does not contain the specific agent they are reacting to or undergo desensitization. Insulin is an endogenous hormone, which is produced by the pancreas.The insulin protein has been highly conserved across evolutionary time, and is present in both mammals and invertebrates. The insulin/insulin-like growth factor signalling pathway (IIS) has been extensively studied in species including nematode worms (e.g.C. elegans), flies (Drosophila melanogaster) and mice (Mus musculus). Its mechanisms of action are highly similar across species. Both diabetes mellitus type 1 and diabetes mellitus type 2 are marked by a loss of pancreatic function, though to differing degrees. Patients who suffer from either type of diabetes are at risk for severe hypoglycemia, with potentially severe consequences to the heart and brain. Many patients require insulin therapy to manage their blood sugar levels and keep them within a target range. Initially, the only way to obtain insulin for clinical use was to extract it from the pancreas of another creature. Animal glands were obtainable as a waste product of the meatpacking industry. Insulin was derived primarily from cows (Eli Lilly and Company) and pigs (Nordisk Insulinlaboratorium). The making of eight ounces of purified insulin could require as much as two tons of pig parts.Insulin from these sources is effective in humans as it is highly similar to human insulin (three amino acid difference in bovine insulin, one amino acid difference in porcine). Initially, lower preparation purity resulted in allergic reactions to the presence of non-insulin substances. Purity has improved steadily since the 1920s ultimately reaching purity of 99% by the mid-1970s thanks to high-pressure liquid chromatography (HPLC) methods. Minor allergic reactions still occur occasionally, even to synthetic 'human' insulin varieties.