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Long-term studies like the UK Prospective Diabetes Study (UKPDS) and the Diabetes Control and Complications Trial (DCCT) showed that intensive insulinotherapy achieved blood glucose levels closer to non-diabetic people and that this was associated with reduced frequency and severity of blood vessel damage. Damage to large and small blood vessels ( macro- and microvascular damage ) is central to the development of complications of diabetes mellitus .
This evidence convinced most physicians who specialize in diabetes care that an important goal of treatment is to make the biochemical profile of the diabetic patient (blood lipids, HbA1c, etc ) as close to the values of non-diabetic people as possible. This is especially true for young patients with many decades of life ahead.
A working pancreas continually secretes small amounts of insulin into the blood to prevent the body from shifting into "starvation metabolism." This insulin is referred to as basal insulin secretion.
However, most insulin produced each day is produced during the digestion of meals. Insulin levels rise immediately as we begin to eat, remaining higher than the basal rate for 1 to 4 hours. This meal-associated (prandial) insulin production is roughly proportional to the amount of carbohydrate in the meal.
Intensive or flexible therapy involves supplying a continual supply of insulin to serve as the basal insulin, supplying meal insulin in doses proportional to the size of the meals, and supplying extra insulin when needed to correct high glucose levels. These three components of the insulin regimen are commonly referred to as basal insulin, meal insulin, and high correction.
One method of intensive insulinotherapy is based on multiple daily injections (sometimes referred to in medical literature as MDI). Meal insulin is supplied by injection of rapid acting insulin before each meal in an amount proportional to the size of the meal. Basal insulin is provided as a once or twice daily injection of dose of a long acting insulin.
In an MDI regimen, insulin glargine (brandname: Lantus, made by Aventis) is the long-acting insulin currently preferred for basal insulin. An older insulin used for this purpose is ultralente. Levemir, made by Novo , is another long-acting insulin in trials. Rapid-acting insulin analogs such as lispro (brandname: Humalog, made by Eli Lilly and Company) and aspart (brandname: Novolog, made by Novo) are preferred over older regular insulin for meal coverage and high correction. Most people using MDI regimens carry insulin pen s to inject their rapid acting insulins instead of traditional syringes.
The other method of intensive/flexible insulin therapy is an insulin pump. It is a small mechanical device about the size of a deck of cards. It contains a syringe-like reservoir of about 3 days' insulin supply. This is connected by thin, disposable, plastic tubing to a needle-like "infusion device" inserted into the patient's skin and held in place by an adhesive patch. The infusion tubing and needle must be removed and replaced every few days.
An insulin pump can be programmed to infuse a steady amount of rapid-acting insulin under the skin. This steady infusion is termed the basal rate and is designed to supply the basal insulin needs. Each time the patient eats, he or she must press a button on the pump to instruct the pump to give a specified number of units of insulin to cover that meal. Extra insulin is also given the same way to correct a high glucose reading. Current pumps do not include a glucose sensor and cannot automatically respond to meals or to rising or falling glucose levels.
Both MDI and pumping can achieve similarly excellent glycemic control. Some people prefer pens because they are less expensive than pumps and do not require the wearing of a continually attached device. A primary advantage of pumps is the freedom from syringes and injections.
Intensive/flexible insulin therapy requires frequent blood glucose checking To achieve the best balance of blood sugar with either intensive/flexible method a patient must check his or her glucose level with a meter monitoring of blood glucose several times a day. This allows optimization of the basal insulin and meal coverage as well as correction of the occasional high glucose.