It's In the News.. a look at the top headlines and stories in the diabetes community. This week's top stories: It's World Diabetes Day and we have a LOT of news to get to! Daily oral insulin tested to prevent T1D, mothers and sons and a T1D link, stem cell updates, Tandem Android news, Omnipod's workplace campaign and more!

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Episode transcription with links:

 

Hello and welcome to Diabetes Connections In the News! I'm Stacey Simms and every other Friday I bring you a short episode with the top diabetes stories and headlines happening now.

It's world diabetes day! It is marked every year on 14 November, the birthday of Sir Frederick Banting, who co-discovered insulin along with Charles Best in 1922.

 

WDD was created in 1991 by International Diabetes Federation (IDF) and the World Health Organization and became an official United Nations Day in 2006 with the passage of United Nations Resolution 61/225.

There will be a ton of stuff in your feeds today and that's great! I'm going to keep this to a pretty normal in the news episode.. although I do have my own World Diabetes Day announcement – I want YOUR community commercials. You could have an ad for your event or your blog or your project right here! There's a post on the website explaining it all and I'll come back at the end of the episode and tell you more.

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The Primary Oral Insulin Trial (POInT) is the first large-scale clinical trial to test whether giving at-risk children daily oral insulin could prevent or delay type 1 diabetes (T1D). Conducted by researchers from Helmholtz Munich and the Technical University of Munich across five European countries, the study enrolled more than 1,000 children with a genetic risk for T1D. Results published in The Lancet show that while oral insulin did not prevent the development of islet autoantibodies—an early sign of diabetes—it was safe and well tolerated. Importantly, researchers found that some children who received oral insulin developed diabetes more slowly than those given a placebo, suggesting potential protective effects in certain genetic subgroups.

 

Further analysis revealed that the response to treatment depended on the child's insulin gene variant. Children with genetic versions that raise diabetes risk appeared to benefit, showing delayed onset of the disease, while those without the risk variant did not. These findings point toward a future of personalized prevention, where genetic screening could help identify which children might benefit most from oral insulin. Researchers will continue following the participants until age 12 to assess long-term effects. The study marks a major milestone in decades of diabetes prevention research, highlighting both the promise and complexity of developing tailored, early interventions against type 1 diabetes.

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Joint US-Chinese research looking at generating new beta cells from stomach cells.

Upon turning on the "genetic switch," the human stomach cells were converted to insulin-secreting cells within the mice and resembled pancreatic beta cells with respect to gene and protein expression.

Encouragingly, when those experiments were done with diabetic mice, insulin secreted from the transformed human cells helped control blood sugar levels and ameliorated diabetes. The scientists hope that a similar approach can be taken to convert cells from a patient's own stomach into insulin-secreting cells directly within the body. Importantly, additional studies are needed to address if this approach is safe and effective to be used in patients.

https://www.technologynetworks.com/cell-science/news/human-stomach-cells-tweaked-to-make-insulin-406694

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A new study in Nature Metabolism may help explain why children born to mothers with type 1 diabetes are less likely to develop the disease early in life compared to those whose fathers or siblings have it. Researchers looked at nearly 2,000 mothers and their children and found that  kids whose moms have type 1 diabetes show changes in their DNA that may actually help protect them. These aren't genetic mutations, but epigenetic changes — chemical tags that turn certain genes on or off. The study found these changes in genes tied to the immune system and type 1 diabetes risk, suggesting that a mother's condition during pregnancy can shape her child's immune response in a protective way.

Scientists identified more than 500 areas of DNA where these changes occurred, many in regions that control how the body's immune system works. Most of the changes appeared to calm down the kind of overactive immune response that leads to type 1 diabetes. Researchers even created a "methylation score" to help measure this protective effect. They say the next step is to confirm these results in more diverse groups and figure out exactly how these DNA changes help prevent early diabetes.

https://www.news-medical.net/news/20251110/Maternal-type-1-diabetes-may-protect-children-from-developing-the-disease.aspx

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A new study from Karolinska Institutet and Stockholm University reveals that sons born to mothers with type 1 diabetes may develop early vascular dysfunction—independently of metabolic health. The finding may help shape future strategies to prevent cardiovascular disease early in life.

 

 

Children of women with type 1 diabetes are known to be at increased risk of developing cardiovascular diseases. This new study, published in Cell Reports Medicine, is the first to show that the risk is linked to early dysfunction in blood vessel cells in sons, even before any metabolic issues arise.

The team is now investigating the long-term effects of maternal diabetes, with a particular focus on why sons seem to be affected earlier than daughters.

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