Development of a 3D subcutaneous construct containing insulin-producing beta cells using bioprinting

作     者：Chi B.Ahn Ji-Hyun Lee Joo H.Kim Tae H.Kim Hee-Sook Jun Kuk H.Son Jin W.Lee Chi B.Ahn;Ji-Hyun Lee;Joo H.Kim;Tae H.Kim;Hee-Sook Jun;Kuk H.Son;Jin W.Lee

作者机构：Department of Molecular MedicineCollege of MedicineGachon University155Gaetbeol-roYeonsu-kuIncheonRepublic of Korea Department of Health Sciences and TechnologyGAIHSTGachon University155Gaetbeol-roYeonsu-kuIncheonRepublic of Korea College of PharmacyGachon University191Hambangmoe-roYeonsu-kuIncheonRepublic of Korea Department Thoracic and Cardiovascular SurgeryGachon University Gil Medical CenterCollege of MedicineGachon University21Namdong-daero 774 beon-gilNamdong-guIncheonRepublic of Korea 

基　　金：supported by the Korea Health Industry Development Institute(KHIDI)funded by the Ministry of Health&Welfare,Republic of Korea(No.HH21C0011) Gachon University Gil Medical Center(No.FRD 2021-02) 

出 版 物：《Bio-Design and Manufacturing》 (生物设计与制造（英文）)

年 卷 期：2022年第5卷第2期

页      码：265-276页

摘      要：Type 1 diabetes is caused by insulin deficiency due to the loss of beta cells in the islets of *** severe cases,islet transplantation into the portal vein is ***,due to the loss of transplanted islets and the failure of islet function,the 5-year insulin independence rate of these patients is<50%.In this study,we developed a long-term,insulin-secreting,3 Dbioprinted construct implanted subcutaneously with the aim of preventing islet *** bioprinted construct was fabricated by the multi-layer bioprinting of beta-cell(mouse insulinoma-6:MIN-6)-encapsulated alginate bioink and poly(caprolactone)biodegradable polymer.A glucose response assay revealed that the bioprinted constructs proliferated and released insulin normally during the 4-week in vitro *** MIN-6 generated clusters with a diameter of 100-200μm,similar to the original pancreatic islets in the *** an in vivo study using type 1 diabetes mice,animals implanted with bioprinted constructs showed three times higher insulin secretion and controlled glucose levels at 8 weeks after *** the implanted,bioprinted constructs had a positive effect on insulin secretion in the experimental animals,the survival rate of the implanted group(75%)was three times higher than that of the non-implanted group(25%).The results suggest that the proposed,3 D-bioprinted,subcutaneous construct can be a better alternative to portal vein islet transplantation.

主 题 词：3D bioprinting Subcutaneous construct Type 1 diabetes Insulin Beta cells 

学科分类：0831[工学-公安技术类] 08[工学] 0802[工学-机械学] 0836[0836] 080201[080201] 

核心收录：

D　O　I：10.1007/s42242-021-00178-9

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