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Young Diabetes Patient Hopes To Help Others By Testing Arthritis Drug

January 21, 2009

Daniel Albright skipped school recently in order to fight a battle, one being waged inside the 16-year-old's own body.

Albright is one of four local participants enrolled in a first-of-its-kind medication study at the Vanderbilt Eskind Pediatric Diabetes Clinic. It’s part of the national Type 1 Diabetes TrialNet series of studies, this one testing an arthritis drug called Abatacept to see if it can stop a rogue immune system from killing the body's precious insulin-producing cells.

Dan Moore, M.D., examines Daniel Albright, 16, who is taking part in a novel study to test whether an arthritis drug might help in the fight against diabetes.

Dan Moore, M.D., examines Daniel Albright, 16, who is taking part in a novel study to test whether an arthritis drug might help in the fight against diabetes.

The key in this study is that the war has just begun. Participants must be within the first 100 days of diagnosis of type 1 diabetes. Albright has diabetes, and although he hasn’t yet reached the point of needing insulin shots, doctors know he will.

“Sometimes it takes only a few weeks, sometimes it can take a few years, but in the end with type 1 diabetes, all the insulin-producing cells are destroyed. What we are trying to do is to rescue at least some percentage of the cells,” said William Russell, M.D., director of the Division of Pediatric Endocrinology at the Monroe Carell Jr. Children's Hospital at Vanderbilt and Vanderbilt's principal investigator for the study.

In autoimmune disorders, certain triggers in the immune system are overactive and can cause the immune system to become destructive. Doctors now know this is one of the mechanisms involved in the destruction of insulin-producing cells (beta cells) in type 1 diabetes.

Abatacept is already approved to quell rheumatoid arthritis in children, because it binds to a crucial trigger in the T cells of the immune system. The hope is by continually tying up the triggers through regular infusions of Abatacept, the immune system will be quieted and insulin-producing beta cells will be spared.

“If you can preserve some of the indigenous production of insulin, it is much easier to control blood sugar levels and prevent some of the long-term and devastating effects of the disease than if you try to control blood sugars in a completely artificial manner,” Russell said.

In the Abatacept trial, patients must still be able to produce 10 percent to 30 percent of their own insulin. Now doctors will learn if the drug can hold that line for an extended period of time.

The Albright family hopes so. Already two of the four children in the family have fully insulin-dependant type 1 diabetes. The family enrolled in the TrialNet studies when their daughter, Sarah, 9, was diagnosed in August. Their youngest son, Michael, was the first diagnosed, in 2003. He is now 13. Only the eldest child, 19-year-old Jonathan, remains free of any signs or markers for the disease.

“When Daniel was first tested, he had two markers that made him high risk to develop diabetes. He had diabetes within a year,” said Donna Albright. “It's a challenge having children with diabetes. There was a lot of getting up at 3 a.m. to test Michael's blood sugar. Now he has a pump. We hope Daniel might not get to that point.”

The Vanderbilt Eskind Pediatric Diabetes Clinic now follows more than 1,900 children with diabetes and sees about 250 new cases each year.
 


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