Rick de Vries scite author profile

Microencapsulating pancreatic islets in immunoprotective alginate hydrogels is a promising strategy for treatment of type 1 diabetes. However, this strategy is limited by inflammation and hypoxia mediated oxidative stress, due to encapsulation and the hydrogel itself, leading to impaired insulin secretion and limited short and long term cell survival. Herein, the antioxidant effect of fucoidan, an algae derived polysaccharide, on beta cells, and its positive effects on encapsulated beta cell viability and function is presented. Fucoidan from Fucus vesiculosus (FF) exhibits a high total antioxidant capacity, and free radical scavenging activity, and is able to significantly alleviate intracellular oxidative stress in rat insolinoma beta cells (INS1E). In addition, FF significantly increases insulin secretion in a dose-and time-dependent manner. When FF is incorporated in ultrapure alginate used for microencapsulation of primary rat islets, both viability and glucose responsiveness of rat islets in these socalled Fucogel microcapsules (Fucocaps) are found to be significantly higher compared to islets encapsulated in alginate alone. Similar results are obtained with INS1E pseudoislets and neonatal pig islets. Fucocaps can provide a redox-modulatory niche and an immune barrier for islets and beta cells in the same time leading to significantly improved survival and endocrine function by mitigating oxidative stress.

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In vitro degradation profiles and in vivo biomaterial–tissue interactions of microwell array delivery devices

Hadavi

Vries

Smink

et al. 2020

J Biomed Mater Res

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To effectively apply microwell array cell delivery devices their biodegradation rate must be tailored towards their intended use and implantation location. Two microwell array devices with distinct degradation profiles, either suitable for the fabrication of retrievable systems in the case of slow degradation, or cell delivery systems capable of extensive remodeling using a fast degrading polymer, were compared in this study. Thin films of a poly(ethylene glycol)-poly(butylene terephthal

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Adipose-derived stromal cells preserve pancreatic islet function in a transplantable 3D bioprinted scaffold

Abadpour

Niemi

Orrhult

et al. 2022

Preprint

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Intra-portal islet transplantation is the method of choice for treatment of insulin dependent type 1 diabetes, but its outcome is hindered by limited islet survival due to the immunological and metabolic stress post transplantation. Adipose-derived stromal cells (ASCs) promise to improve significantly the islet micro-environment but an efficient long-term delivery method has not been achieved. We therefore explore the potential of generating ASC enriched islet transplant structure by 3D bioprinting. Here, we fabricate a double-layered 3D bioprinted scaffold for islets and ASCs by using alginate-nanofibrillated cellulose bioink. We demonstrate the diffusion properties of the scaffold and report that human ASCs increase the islet viability, preserve the endocrine function, and reduce pro-inflammatory cytokines secretion in vitro. Intraperitoneal implantation of the ASCs and islets in 3D bioprinted scaffold improve the long-term function of islets in diabetic mice. Our data reveals an important role for ASCs on the islet micro-environment. We suggest a novel cell therapy approach of ASCs combined with islets in a 3D structure with a potential for clinical beta cell replacement therapies at extrahepatic sites.

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Contributors

Adachi¹,

Adachi²,

Alejandro³

et al. 2020

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Systematic evaluation of clinically used biomaterials to determine their suitability for fabrication of beta cell delivery devices

Stell

Mohammed

Vries

et al. 2022

Journal of Immunology and Regenerative Medicine

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Rick de Vries

Oxidative stress in pancreatic alpha and beta cells as a selection criterion for biocompatible biomaterials

The Predictability of a Target Signal Affects Manual Feedforward Control

Bioengineering, biomaterials, and β-cell replacement therapy

Fucoidan Hydrogels Significantly Alleviate Oxidative Stress and Enhance the Endocrine Function of Encapsulated Beta Cells

In vitro degradation profiles and in vivo biomaterial–tissue interactions of microwell array delivery devices

Adipose-derived stromal cells preserve pancreatic islet function in a transplantable 3D bioprinted scaffold

Contributors

Systematic evaluation of clinically used biomaterials to determine their suitability for fabrication of beta cell delivery devices

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