A team of international scientists has made a major leap forward in diabetes research by successfully 3D printing functional human islets using a novel bioink (Monday, 30 June 2025, London, United ...

LYON, France--(BUSINESS WIRE)-- Regulatory News: Adocia (Euronext Paris: FR0011184241 – ADOC), a clinical-stage biopharmaceutical company focused on the research and development of innovative ...

Islet Transplantation with Blood Vessel Cells Shows Promise to Treat Type 1 Diabetes Adding engineered human blood vessel-forming cells to islet transplants boosted the survival of the ...

Researchers have 3D printed devices made of insulin-producing cells. These devices could enable a long-term treatment for type 1 diabetes that would let people produce their own insulin – without ...

Dozens of unexpected genes are strongly linked to type 2 diabetes, new research from The Jackson Laboratory (JAX) shows. The ...

PHOENIX, June 24, 2024 (GLOBE NEWSWIRE) -- Creative Medical Technology Holdings, Inc. (CELZ), a leading commercial stage biotechnology company focused on a regenerative approach to immunotherapy, ...

A combination blood stem cell and pancreatic islet cell transplant from an immunologically mismatched donor completely ...

Researchers at Karolinska Institutet have established a novel transplantation site for islets of Langerhans that enables long-term intravital microscopy of islet physiology in awake mice with ...

LONDON, June 28, 2025 /PRNewswire/ -- A team of international scientists has made a major leap forward in diabetes research by successfully 3D printing functional human islets using a novel bioink.

"We showed that vascularized human islets implanted into the subcutaneous tissue of mice that were immune-deficient promptly connected to the host circulation, providing immediate nutrition and oxygen ...