Getting To Know Your Insulin Pump
Some health care providers prefer the insulin pump because its slow release of insulin mimics how a normally working pancreas would release insulin. Studies vary on whether the pump provides better blood glucose control than multiple daily injections. Another advantage of the insulin pump is that it frees you from having to measure insulin into a syringe.
An insulin pump is a medical device continuously delivering insulin under the skin through a catheter. It usually connects somewhere in the waist area. There is a new generation of insulin pumps, called a patch pump. Patch pumps adhere directly to the skin with no catheter tubing showing. It then infuses insulin directly under the skin.
Both pumps deliver insulin at an hourly rate. For instance, the rate might be 1.1 units an hour. However, the pump delivers different rates at different times of day depending on the patients insulin infusion (or basal) rates that are programmed into the pump.
The amount of insulin delivered depends on two things. First by the amount of carbohydrate a patient eats using an insulin to carbohydrate ratio, and then by the correction factor, or the ratio of the number of milligrams per deciliter (mg/dl) a patients blood sugar will be lowered by one insulin unit.
If a patient eats 60 grams carbohydrate at meals and has an insulin-carbohydrate ratio of one insulin unit to 15 grams carbohydrate, the patients insulin injection at that meal would 4 units.
However, if a patient has a correction factor of one unit to 50 points of blood sugar, the pump should give an additional injection of 2.5 units to lower his blood sugar from 245 mg/dl to a needed level of 120 mg/dl.
To use an insulin pump a patient must be able to manage it. This involves knowledge of the device and how it works at several levels. First, patients must understand how to insert the catheter when using the pump, or how to attach the newer patch pump to their abdomen. They must also be able to push the right buttons on the pump to deliver proper insulin doses and adjust the basal rates.
Then the patient needs to be skilled in carbohydrate counting so they are able to deliver correct insulin doses at mealtimes. And they should be willing to check their blood glucose levels at least four to six times a day. This assures that they detect a pump failure and prevent hyperglycemia and diabetic ketoacidosis (DKA, in type 1 patients).
Patient attention is important because no long-acting insulin is used in type 1 patients who use pumps and they need to correct high- or low-blood sugars before they are clinically observable and symptomatic.
Insulin pump therapy is almost never needed to maintain life because insulin can be easily injected under the skin. Most insurers will cover insulin pump therapy in situations where insulin pump therapy will significantly improve the level of diabetes care and control over and above multidose insulin (MDI) therapy. This includes cases where:
The glucose control in multidose insulin therapy is not optimal with glycated hemoglobin (Hba1c>) than the ADA (American Diabetes Association) recommended goal of 7%. An endocrinologist, who will be able to help the patient learn how to use and the pump and adjust basal and correction doses, prescribes the pump.
The patient has type 1 diabetes. However, in many situations patients with type 2 diabetes will benefit from the pump as well. Presence of hypoglycemia despite adjustments in insulin doses and utilizing carbohydrate counting to help decide pre-meal insulin doses in patients who are using MDI therapy.
Presence of hyperglycemia-especially as revealed by high morning readings (Dawn phenomenon) where increasing basal rates of insulin in the early morning hours would help to better control blood sugar levels.
Insurers require medical charts from the prescribing doctor as well as blood sugar logs from the patient to prove that there is real medical necessity.