Summaries by Inventor Millman, Jeffrey
Millman, Jeffrey ; Song, Jiwon
T-016681
— Technology Description Researchers at Washington University in St. Louis have developed a 3D-printed device for the subcutaneous transplantation of stem cell-derived beta (SC-beta) cells for diabetes cell replacement therapy. Diabetes mellitus, a disease characterized by loss of blood glucose cont…
Generating pancreatic beta cells from pluripotent stem cells for diabetes cell therapy or drug developmentHogrebe, Nathaniel ; Millman, Jeffrey ; Velazco-Cruz, Leonardo ; Veronese Paniagua, Daniel ; Wernes, Kristina
T-019409
— Technology Description: Researchers in Prof. Jeffrey Millman’s laboratory have developed multiple techniques for enhancing the differentiation, maturation and function of glucose-responsive, insulin-producing SC-beta cells (pancreatic beta cells made from human pluripotent stem cells). Downst…
Method to generate functionally mature, stem-cell derived, beta cellsMillman, Jeffrey ; Velazco-Cruz, Leonardo
T-019270
— Technology Description Researchers at Washington University in St. Louis have developed an improved method to differentiate stem-cells into functionally mature, insulin-secreting beta cells (SC-beta cells). Pancreatic beta cells play an important role in controlling blood glucose levels as they se…
Device for diabetes cell replacement therapyMillman, Jeffrey ; Song, Jiwon
T-016681
— Technology Description Researchers at Washington University in St. Louis have developed a 3D-printed device for the subcutaneous transplantation of stem cell-derived beta (SC-beta) cells for diabetes cell replacement therapy. Diabetes mellitus, a disease characterized by loss of blood glucose cont…
Vascular graft to promote stem cell therapy for diabetes and other diseasesMillman, Jeffrey ; Zayed, Mohamed
T-016290
— Technology Description An interdisciplinary team at Washington University in St. Louis has developed a multi-layered arteriovenous graft device that enhances the survival and function of stem cell transplants to treat Type 1 diabetes or other diseases. Artificial organs derived from stem cells cou…
Vascular graft to promote stem cell therapy for diabetes and other diseasesMillman, Jeffrey ; Zayed, Mohamed
T-016290
— Technology Description An interdisciplinary team at Washington University in St. Louis has developed a multi-layered arteriovenous graft device that enhances the survival and function of stem cell transplants to treat Type 1 diabetes or other diseases. Artificial organs derived from stem cells cou…
