Diabetes autoantibodies are proteins that appear when the insulin-producing beta cells in the pancreas are damaged. They are the most reliable indicator that a person is likely to develop type 1 diabetes in future.
With a grant of £610,480 from Diabetes UK, the Oxford team will build a database and a website that people can use to join the registry. The registry is unique as it will include individuals identified from clinical care and those from research platforms around the UK. Recruitment to the registry is expected to start later in 2024.
The registry aims to inform people about new treatments and opportunities to take part in research to prevent type 1 diabetes, such as testing immunotherapy treatments that could prevent or delay the condition. One of the goals is to better understand what it’s like being at high risk of type 1 diabetes and develop resources to support people, and provide guidance for doctors on how best to care for and support people who are at risk. Additionally, to collect data on how type 1 diabetes develops and understand why people progress from being antibody positive and at risk of type 1 diabetes to needing insulin, and also to understand whether being at risk causes people to attend their GP or A&E more often.
The registry will be held at the Diabetes Trials Unit at the Radcliffe Department of Medicine in the University of Oxford. This collaborative initiative will be led by the University of Oxford, co-led by the University of Cambridge and involve researchers from Birmingham, Dundee, Imperial College London, Bristol, Edinburgh, Cardiff, Exeter and the British Heart Foundation.
Dr Rachel Besser, a paediatric diabetes consultant at Oxford University Hospitals NHS Foundation Trust and researcher at the Nuffield Department of Medicine’s Centre for Human Genetics, is leading the project. Her work is supported by the National Institute for Health and Care Research (NIHR) Oxford Biomedical Research Centre (BRC).
Dr Besser said: ‘This registry is a first for the UK and brings together children and adults who are at risk of type 1 diabetes. It is an important step towards a better understanding of the care and support people at high risk of type 1 require, allowing us to offer them a ‘softer landing’ into life with the condition.’
Dr Loredana Marcovecchio, Academic Consultant in Paediatric Endocrinology and diabetes at the University of Cambridge and co-lead for the project, added: ‘We’re hoping that it will be easier to tell people about opportunities to take part in research to develop new treatments that might prevent or delay the onset of type 1 diabetes.’
Dr Lucy Chambers, Head of Research Communications at Diabetes UK, said: ‘We’re delighted to fund the UK-Islet Antibody registry and hope that it will offer a better future for children and adults identified as being at high risk of developing type 1 diabetes. With innovative treatments that can delay or entirely prevent the development of type 1 diabetes on the horizon, the registry will play an important role in readying the UK for the next era of type 1 therapies.’
It is hoped that the registry data can be compared with other data routinely collected in the NHS, to better understand if these people use NHS services more than others, perhaps due to anxiety about developing type 1 diabetes. This data can also be compared with data from other countries.
In addition, more needs to be done to understand the pathway to requiring insulin, and it is hoped the registry will be able to fill these gaps in our knowledge.
Among the research platforms that will be feeding into the registry are The ELSA study, The Type 1 Diabetes Risk in Adults T1DRA study, Bart's-Oxford (BOX) family study, ADDRESS-2 study, TrialNet programme, INNODIA (UK).