Artificial pancreas

The artificial pancreas is a tool that has recently appeared in medical circles. Its main task is to imitate the functioning of a normal organ in the human body. It may be necessary for people with type II diabetes mellitus, patients after pancreatic surgery, etc. A person with such a gland lives a normal life, feeling all the same emotions as before the operation, and blood sugar levels are regulated automatically.

First, let's understand how an artificial pancreas works. Contrary to popular belief, it does not contain any organs from the human body. The design of the device is based on electrical energy and looks like a compact device with a port to which a catheter is attached. This device releases the hormone insulin into the systemic circulation, helping to regulate the patient's blood glucose levels. An important advantage of an artificial pancreas is the ability to accurately dose insulin levels every 5 minutes or even half a minute, while the natural organ produces the hormone in accordance with the dynamics of fluctuations in sugar levels in the body. The technology has made it possible to improve the quality of life of people with such disorders, reduce the risks of possible complications and significantly reduce dependence on insulin injections. And the dentures are made entirely

An artificial pancreas (APG) is a medical device that imitates the activity of the pancreas in the human body and regulates blood glucose levels. Although it is not a replacement for the real pancreas, which produces insulin and glucagon, IPG can help people with diabetes. An artificial pancreas can be implanted under the skin in the abdomen and used as needed, usually before meals.

How the Artificial Pancreas Works To begin functioning, artificial insulin is typically administered through a pump 30 minutes before a meal or on an empty stomach. This allows the body to lower blood sugar levels before meals and prevent a large spike in glucose levels. Depending on the person's condition, different settings for the power management mechanism are possible. The device can also use a glucagon sensor to determine when the digestion process needs to start, which can reduce the need for insulin