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Engineering pore-enriched and pre-vascularized volumetric constructs for enhanced blood glucose regulation in type 1 diabetes therapy. | LitMetric

AI Article Synopsis

  • Managing type 1 diabetes mellitus (T1DM) is challenging due to difficulties in replicating the pancreatic microenvironment and ensuring the function of insulin-producing cells after transplantation.
  • This study developed a 3D bioprinting approach to create tissue constructs that enhance blood glucose regulation by using a decellularized extracellular matrix combined with human-induced pluripotent stem cells (hiPSCs).
  • The constructs demonstrated successful cell survival and insulin production in diabetic rodent models, showcasing the effectiveness of this technology for T1DM treatment and its potential applications in regenerative medicine.

Article Abstract

Managing type 1 diabetes mellitus (T1DM) presents significant challenges because of the complexity of replicating the microenvironment of pancreatic islets and ensuring the long-term viability and function of transplanted insulin-producing cells (IPCs). This study developed a functional approach that utilizes 3D bioprinting technology to create pore-enriched and pre-vascularized tissue constructs incorporating a pancreatic tissue-derived decellularized extracellular matrix and human-induced pluripotent stem cells (hiPSCs) aimed at enhancing blood glucose regulation in T1DM. We designed a volumetric 3D pancreatic tissue construct that supported the engraftment, survival, and insulin-producing functionality of hiPSC-derived IPCs. The construct's porosity was optimized to enhance IPC delivery efficiency. Additionally, human umbilical vein endothelial cells co-cultured with IPCs in a patterned structure facilitated pre-vascularization, improving construct integration with host tissues and accelerating revascularization post-transplantation. Our results demonstrate high cell viability and sustained insulin production in diabetic rodent models, indicating the constructs' effectiveness in regulating blood glucose levels over an extended period. The findings of this study not only underscore the potential of 3D bioprinting for creating functional tissue constructs for T1DM treatment but also offer efficient cell delivery techniques applicable to other areas of regenerative medicine.

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Source
http://dx.doi.org/10.1088/1758-5090/ad998eDOI Listing

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