The Emory Transplant Center is one of just a handful of institutions around the world performing islet transplants as a type 1 diabetes treatment. Emory is currently the only islet cell transplant program in Georgia, with 19 patients receiving islet transplants to date.
Islet cell transplant is still in the research phase awaiting Food and Drug Administration (FDA) approval so the surgery will no longer be experimental. Read a story in the Atlanta Journal Constitution featuring two Emory patients who have been diabetes free for a decade now thanks to islet transplant at Emory.
Learn About Islet Transplants
What Are Islets?
Islets are insulin-producing cell clusters found in the pancreas, which is a six- to ten-inch organ that lies behind the stomach. Each islet cluster is about the size of a grain of salt and contains a few thousand cells. A healthy pancreas has approximately a million islet clusters.
Glucose is the fuel that provides energy to cells. Insulin allows glucose from the bloodstream to enter cells. Without insulin, cells are deprived of fuel, and they begin to starve. As the cells starve, the level of glucose in the bloodstream rises to dangerous levels.
In type 1 diabetes, islets in the pancreas are destroyed by the body’s immune system. Without islets, the body cannot produce insulin. People with type 1 diabetes require several injections of insulin each day. They must follow a strict diet and monitor their blood glucose carefully. Sometimes, even the most diligent patients cannot completely control their blood sugar levels. Diabetes that is very difficult to control is called brittle diabetes.
Why Islet Transplantation?
Islet transplantation can restore insulin production by replacing the islets that have been destroyed. When insulin production is restored, blood glucose levels stabilize, and the health risks associated with low and high blood sugars are greatly reduced.
What Is an Islet Transplant?
The islet cell transplant process begins when islets for transplantation from a donated pancreas become available. During the islet transplantation procedure, the islets are infused into a blood vessel that leads to the liver. The islets from the pancreas are also separated from other cells through a highly complex process called “islet isolation.” The islets are then infused and lodged into the liver of the recipient, where they are able to detect the level of glucose in the blood and produce the correct amount of insulin. Recent advances in islet isolation have resulted in sustained insulin independence in people with type 1 diabetes, which may make islet transplantation more common in the foreseeable future.