Type 1 diabetes is a lifelong disease that affects the body’s ability
to convert glucose from food into energy. In most cases, type 1
diabetes develops early in life and is often diagnosed during
The disease starts when the immune system attacks cells in the pancreas that produce insulin, the hormone that helps convert glucose into energy for the body’s cells. People living with type 1 diabetes require daily injections of insulin to survive.
Based on almost 100 years of experience discovering and producing treatments for people with diabetes, our scientists are advancing research to reduce the number of insulin injections required to maintain good glycaemic control, and to prevent low blood glucose (hypoglycaemic) episodes.
Our ultimate goal is a cure. We are progressing our research in regenerative medicine, such as cell therapy, which may one day be used as a curative treatment for type 1 diabetes.
The discovery of insulin more than 100 years ago transformed diabetes from a death sentence into a disease that people can manage.
Today we are still driving change in diabetes by improving quality of life through innovative new treatments and delivery devices. But we are also committed to driving change within access, education and care to ensure life-saving treatments reach those in need.
Quresha Nur Adan (22) is from a village near Mombasa in Kenya. Diagnosed with type 1 diabetes at age 7, she now runs community health organisation 'The Diabetic Champions', educating her community about healthy living and combating stigma around diabetes - with a particular focus on providing support for newly diagnosed girls.
Quresha is also a powerful example of a young woman who does not see diabetes as a hindrance for her becoming a successful young entrepreneur - or anything else she sets her mind to. Because she is determined to use her drive to inspire others and create change for herself and her diabetes community.
Watch Quresha's story above
Maintaining target blood glucose levels helps protect the body’s organs from damage. It also protects people living with type 1 diabetes from hypoglycaemia.
Insulin therapy aims to get as close as possible to the natural insulin response of someone without diabetes. This can help people living with type 1 diabetes maintain target blood glucose levels.
The closer insulin therapy gets to the body’s natural response, the better it is at balancing blood glucose levels.
Insulin treatment has evolved significantly, and with each advancement, we are closer to a natural insulin response. Most importantly, these advancements helped people living with type 1 diabetes overcome some of the inconveniences that come with treating and living with the disease.
One of our big ambitions is to develop glucose sensitive insulins that will eliminate hypoglycaemic events. This would be the next big breakthrough in type 1 diabetes care. We share this ambition with many partners in the diabetes research community and work closely with them towards a common goal – eliminating hypoglycaemia.
People living with type 1 diabetes can never take a break from their disease. Dependence on insulin therapy and the dedicated management of the disease plays a significant role in daily life.
Together with leading research universities around the world, we
have been able to transform stem cells into glucose-sensing,
insulin-secreting beta cells, just like those produced in the pancreas
of a healthy person. In animal studies, these transformed stem cells
successfully cured mice with type 1 diabetes.
We have made significant steps forward, and continue to work on the remaining challenges. Luckily, we are not alone. We have a solid network in the scientific community for stem cell research, and with each day it grows stronger.
Insulin treatment should be as simple as possible, and this has always been our philosophy. From better treatments to digital solutions, we strive to ease the burden of living with a chronic disease and meet the diverse needs of millions of people living with type 1 diabetes.
Within type 1 diabetes, we are currently researching into the following areas:
When we combine the voice of someone living with a chronic disease with our scientific expertise and engineering skills, we can continue to discover and develop innovative insulins and delivery systems.
Meet Johnna Wesley, head of type 1 diabetes, immunology and kidney disease research, and hear how she is looking into the possibilities of preventing or delaying the onset of type 1 diabetes.
We are working to improving our understanding of type 1 diabetes to better equip us in our search for a cure or reversal therapy – a long-held aspiration. But this is no easy task