OBJECTIVES: The subcutaneous transplantation of a bioartificial pancreas is a very attractive cure for diabetes mellitus. We recently developed a new immunoisolatory device that has the ability to induce neovascularization for subcutaneous transplantation. We applied the newly developed device to subcutaneous transplantation of a bioartificial pancreas. METHODS: We investigated the prevascularization-inducing activity of the device in diabetic rats by histologic analysis and evaluated the permeability of the device to insulin and BSA. We also evaluated the survival of cells enclosed in a bioartificial pancreas, which was composed of the device, from the viewpoint of the effects of prevascularization by semiquantitative RT-PCR. RESULTS: The devices induced prevascularization more efficiently than fibroblast growth factor 2 impregnated in gelatin microspheres alone did and had more useful permeability than a noncollagen-coated device. Significantly higher expression of insulin mRNA was detected in the RT-PCR amplicons from cells retrieved from the bioartificial pancreas transplanted at the prevascularization-induced site as compared with at a nonprevascularization-induced site. CONCLUSION: We demonstrated that our newly developed device has a superior ability to induce prevascularization in diabetic rats, and the prevascularization improves the initial cell survival of the implanted cells following transplantation.
OBJECTIVES: The subcutaneous transplantation of a bioartificial pancreas is a very attractive cure for diabetes mellitus. We recently developed a new immunoisolatory device that has the ability to induce neovascularization for subcutaneous transplantation. We applied the newly developed device to subcutaneous transplantation of a bioartificial pancreas. METHODS: We investigated the prevascularization-inducing activity of the device in diabeticrats by histologic analysis and evaluated the permeability of the device to insulin and BSA. We also evaluated the survival of cells enclosed in a bioartificial pancreas, which was composed of the device, from the viewpoint of the effects of prevascularization by semiquantitative RT-PCR. RESULTS: The devices induced prevascularization more efficiently than fibroblast growth factor 2 impregnated in gelatin microspheres alone did and had more useful permeability than a noncollagen-coated device. Significantly higher expression of insulin mRNA was detected in the RT-PCR amplicons from cells retrieved from the bioartificial pancreas transplanted at the prevascularization-induced site as compared with at a nonprevascularization-induced site. CONCLUSION: We demonstrated that our newly developed device has a superior ability to induce prevascularization in diabeticrats, and the prevascularization improves the initial cell survival of the implanted cells following transplantation.
Authors: Jessica D Weaver; Devon M Headen; Michael D Hunckler; Maria M Coronel; Cherie L Stabler; Andrés J García Journal: Biomaterials Date: 2018-04-25 Impact factor: 12.479
Authors: Max Urbanczyk; Aline Zbinden; Shannon L Layland; Garry Duffy; Katja Schenke-Layland Journal: Tissue Eng Part A Date: 2019-12-20 Impact factor: 3.845
Authors: Ruth E Levey; Fergal B Coulter; Karina C Scheiner; Stefano Deotti; Scott T Robinson; Liam McDonough; Thanh T Nguyen; Rob Steendam; Mark Canney; Robert Wylie; Liam P Burke; Eimear B Dolan; Peter Dockery; Helena M Kelly; Giulio Ghersi; Wim E Hennink; Robbert J Kok; Eoin O'Cearbhaill; Garry P Duffy Journal: Pharmaceutics Date: 2021-12-04 Impact factor: 6.321