From the Journals

Diabetes prevention moves toward reality as studies published


 

Two newly published studies highlight recent success toward delaying the onset of type 1 diabetes in people at high risk and slowing progression in those with recent onset of the condition.

Both studies were initially presented in June 2020 at the annual scientific sessions of the American Diabetes Association and reported by this news organization at the time.

As yet, neither of the two strategies – preserving insulin-producing pancreatic beta-cell function soon after diagnosis or delaying type 1 diabetes onset in those at high risk – represent a cure or certain disease prevention.

However, both can potentially lead to better long-term glycemic control with less hypoglycemia and a lower risk for diabetes-related complications.

Combination treatment prolongs beta-cell function in new-onset disease

The first study, entitled, “Anti–interleukin-21 antibody and liraglutide for the preservation of beta-cell function in adults with recent-onset type 1 diabetes,” was published online March 1, 2021, in The Lancet Diabetes & Endocrinology by Matthias von Herrath, MD, of Novo Nordisk, Søborg, Denmark, and colleagues.

The randomized, placebo-controlled, double-blind, phase 2 combination treatment trial involved 308 individuals aged 18-45 years who had been diagnosed with type 1 diabetes in the previous 20 weeks and still had residual beta-cell function.

Patients were randomized with 77 per group to receive monoclonal anti-IL-21 plus liraglutide, anti-IL-21 alone, liraglutide alone, or placebo. The antibody was given intravenously every 6 weeks and liraglutide or matching placebo were self-administered by daily injections.

Compared with placebo (ratio to baseline, 0.61; 39% decrease), the decrease in mixed meal tolerance test stimulated C-peptide concentration from baseline to week 54 – the primary outcome – was significantly smaller with combination treatment (0.90, 10% decrease; estimated treatment ratio, 1.48; P = .0017), but not with anti-IL-21 alone (1.23; P = .093) or liraglutide alone (1.12; P = .38).

Despite greater insulin use in the placebo group, the decrease in hemoglobin A1c (a key secondary outcome) at week 54 was greater with all active treatments (–0.50 percentage points) than with placebo (–0.10 percentage points), although the differences versus placebo were not significant.

“The combination of anti-IL-21 and liraglutide could preserve beta-cell function in recently diagnosed type 1 diabetes,” the researchers said.

“These results suggest that this combination has the potential to offer a novel and valuable disease-modifying therapy for patients with recently diagnosed type 1 diabetes. However, the efficacy and safety need to be further investigated in a phase 3 program,” Dr. von Herrath and colleagues concluded.

Teplizumab: 3-year data continue to show benefit

The other study looked at delaying the onset of type 1 diabetes. Entitled, “Teplizumab improves and stabilizes beta cell function in antibody-positive high-risk individuals,” the article was published online March 3, 2021, in Science Translational Medicine by Emily K. Sims, MD, of the department of pediatrics, Indiana University, Indianapolis, and colleagues.

This trial of the anti-CD3 monoclonal antibody adds an additional year of follow-up to the “game-changer” 2-year data reported in 2019.

Among the 76 individuals aged 8-49 years who were positive for two or more type 1 diabetes–related autoantibodies, 50% of those randomized to a single 14-day infusion course of teplizumab remained diabetes free at a median follow-up of 923 days, compared with only 22% of those who received placebo infusions (hazard ratio, 0.457; P = .01).

The teplizumab group had a greater average C-peptide area under the curve, compared with placebo, reflecting improved beta-cell function (1.96 vs 1.68 pmol/mL; P = .006).

C-peptide levels declined over time in the placebo group but stabilized in those receiving teplizumab (P = .0015).

“It is very encouraging to see that a single course of teplizumab delayed insulin dependence in this high-risk population for approximately 3 years versus placebo,” said Frank Martin, PhD, JDRF director of research at Provention Bio, which is developing teplizumab.

“These exciting results have been made possible by the unwavering efforts of TrialNet and Provention Bio. Teplizumab, if approved by the FDA, could positively change the course of disease development for people at risk of developing T1D and their standard of care,” he concluded.

The teplizumab study was funded by TrialNet. Dr. von Herrath is an employee of Novo Nordisk, which funded the study involving its drug liraglutide. Dr. Sims reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Recommended Reading

Goldenseal may interfere with metformin absorption, jeopardizing glucose control
MDedge Internal Medicine
More from DAPA-HF: Dapagliflozin quickly reduces heart failure events
MDedge Internal Medicine
Obesity pegged as diabetes cause in almost half of U.S. cases
MDedge Internal Medicine
Thirteen percent of patients with type 2 diabetes have major ECG abnormalities
MDedge Internal Medicine
Big data ‘clinch’ link between high glycemic index diets and CVD
MDedge Internal Medicine
Heart failure redefined with new classifications, staging
MDedge Internal Medicine
Semaglutide for meaningful weight loss in obesity and diabetes?
MDedge Internal Medicine
‘Major update’ of BP guidance for kidney disease; treat to 120 mm Hg
MDedge Internal Medicine
Type 2 diabetes linked to increased risk for Parkinson’s
MDedge Internal Medicine
High obesity rates in Southern states magnify COVID threats
MDedge Internal Medicine