Journal
JOURNAL OF FUNCTIONAL BIOMATERIALS
Volume 14, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/jfb14070371
Keywords
diabetes; pancreas islets; 3D bioprinting; glucose; xenotransplantation; bionic scaffold
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Recently, 3D bioprinting of the pancreas has gained clinical significance in tissue engineering and offers potential customized treatment for type 1 diabetes mellitus. This study evaluated the function of 3D-bioprinted pancreatic petals with islets in a murine model. The results showed that the bioprinted bionic petals significantly lowered plasma glucose concentration in the mice.
Recently, tissue engineering, including 3D bioprinting of the pancreas, has acquired clinical significance and has become an outstanding potential method of customized treatment for type 1 diabetes mellitus. The study aimed to evaluate the function of 3D-bioprinted pancreatic petals with pancreatic islets in the murine model. A total of 60 NOD-SCID (Nonobese diabetic/severe combined immunodeficiency) mice were used in the study and divided into three groups: control group; IsletTx (porcine islets transplanted under the renal capsule); and 3D bioprint (3D-bioprinted pancreatic petals with islets transplanted under the skin, on dorsal muscles). Glucose, C-peptide concentrations, and histological analyses were performed. In the obtained results, significantly lower mean fasting glucose levels (mg/dL) were observed both in a 3D-bioprint group and in a group with islets transplanted under the renal capsule when compared with untreated animals. Differences were observed in all control points: 7th, 14th, and 28th days post-transplantation (129, 119, 118 vs. 140, 139, 140; p < 0.001). Glucose levels were lower on the 14th and 28th days in a group with bioprinted petals compared to the group with islets transplanted under the renal capsule. Immunohistochemical staining indicated the presence of secreted insulin-living pancreatic islets and neovascularization within 3D-bioprinted pancreatic petals after transplantation. In conclusion, bioprinted bionic petals significantly lowered plasma glucose concentration in studied model species.
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