Litcius/Paper detail

Stem Cell–Derived, Fully Differentiated Islets for Type 1 Diabetes

Trevor Reichman, James F. Markmann, Jon S. Odorico, Piotr Witkowski, John J. Fung, Martin Wijkstrom, Fouad Kandeel, Eelco J.P. de Koning, Anne L. Peters, Chantal Mathieu, Leslie S. Kean, Bote G. Bruinsma, Chenkun Wang, Molly Mascia, Bastiano Sanna, Gautham Marigowda, Felicia W. Pagliuca, D. A. Melton, Camillo Ricordi, Michael R. Rickels

2025New England Journal of Medicine118 citationsDOI

Abstract

BACKGROUND: Zimislecel is an allogeneic stem cell-derived islet-cell therapy. Data on the safety and efficacy of zimislecel in persons with type 1 diabetes are needed. METHODS: cells) as a single infusion. All the participants also received glucocorticoid-free immunosuppressive therapy. The primary end point in part A was safety. The primary end point in part C was freedom from severe hypoglycemic events during days 90 through 365, with a glycated hemoglobin level of less than 7% or a decrease of at least 1 percentage point from baseline in the glycated hemoglobin level at one or more time points between days 180 and 365. Secondary end points in part C included safety and insulin independence between days 180 and 365. Assessment of the primary and secondary end points in part C involved the participants who received the full dose of zimislecel as a single infusion in part B or C. Detection of serum C-peptide during a 4-hour mixed-meal tolerance test was used to assess engraftment and islet function. All the analyses were interim and not prespecified. RESULTS: A total of 14 participants (2 in part A and 12 in parts B and C) completed at least 12 months of follow-up and were included in the analyses. C-peptide was undetectable at baseline in all 14 participants. After zimislecel infusion, all the participants had engraftment and islet function, as evidenced by the detection of C-peptide. Neutropenia was the most common serious adverse event, occurring in 3 participants. Two deaths occurred - one caused by cryptococcal meningitis and one by severe dementia with agitation owing to the progression of preexisting neurocognitive impairment. All 12 participants in parts B and C were free of severe hypoglycemic events and had a glycated hemoglobin level of less than 7%; these participants spent more than 70% of the time in the target glucose range (70 to 180 mg per deciliter). Ten of the 12 participants (83%) had insulin independence and were not using exogenous insulin at day 365. CONCLUSIONS: The results of this small, short-term study involving persons with type 1 diabetes support the hypothesis that zimislecel can restore physiologic islet function, warranting further clinical investigation. (Funded by Vertex Pharmaceuticals; VX-880-101 FORWARD ClinicalTrials.gov number, NCT04786262.).

Topics & Concepts

IsletType 2 diabetesStem cellType 1 diabetesCell biologyDiabetes mellitusBiologyComputational biologyEndocrinologyPancreatic function and diabetesDiabetes and associated disordersDiabetes Management and Research