Type 1 diabetes researchers have made great progress in understanding the disease in the last two decades, even as a cure ...

These tiny, encapsulated cells could act as a mini pancreas, potentially allowing those with diabetes to not need insulin ...

For people living with type 1 diabetes, it pays to be good at math. Keeping blood glucose in a healthy range requires a constant stream of calculations: counting the carbs in each meal, and then ...

In a major breakthrough for diabetes treatment, scientists have found a new way to regenerate insulin-producing cells. This approach could change how type 1 diabetes is treated, moving beyond just ...

Obesity increases the body's need for insulin, forcing cells in the pancreas known as beta cells to ramp up insulin production to maintain blood sugar levels. Scientists have thought that this ...

The bionic pancreas uses algorithms to continually adjust insulin doses based on the user’s needs, requiring less user input compared with other existing artificial pancreas technologies. A bionic ...

If the pancreas can no longer manage high blood sugar (hyperglycemia), significant, long-term health issues can arise.

Higher fat content in the pancreas of children and adolescents with obesity is associated with an increased level of heart ...

A new consensus statement summarizes the benefits, limitations, and challenges of using automated insulin delivery (AID) systems and provides recommendations for use by people with diabetes.

Increased fat content in the pancreas in obese children and adolescents is associated with a number of cardiometabolic risks.