典型文献
Development of a 3D subcutaneous construct containing insulin-producing beta cells using bioprinting
文献摘要:
Type 1 diabetes is caused by insulin deficiency due to the loss of beta cells in the islets of Langerhans.In severe cases,islet transplantation into the portal vein is performed.However,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,3D-bioprinted construct implanted subcutaneously with the aim of preventing islet loss.The 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 period.Bioprinted MIN-6 generated clusters with a diameter of 100-200 μm,similar to the original pancreatic islets in the construct.In 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 implantation.Because 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,3D-bioprinted,subcutaneous construct can be a better alternative to portal vein islet transplantation.
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中图分类号:
作者姓名:
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 Medicine,College of Medicine,Gachon University,155,Gaetbeol-ro,Yeonsu-ku,Incheon,Republic of Korea;Department of Health Sciences and Technology,GAIHST,Gachon University,155,Gaetbeol-ro,Yeonsu-ku,Incheon,Republic of Korea;College of Pharmacy,Gachon University,191,Hambangmoe-ro,Yeonsu-ku,Incheon,Republic of Korea;Department Thoracic and Cardiovascular Surgery,Gachon University Gil Medical Center,College of Medicine,Gachon University,21,Namdong-daero 774 beon-gil,Namdong-gu,Incheon,Republic of Korea
文献出处:
引用格式:
[1]Chi B.Ahn;Ji-Hyun Lee;Joo H.Kim;Tae H.Kim;Hee-Sook Jun;Kuk H.Son;Jin W.Lee-.Development of a 3D subcutaneous construct containing insulin-producing beta cells using bioprinting)[J].生物设计与制造(英文),2022(02):265-276
A类:
bioprinted,bioink,Bioprinted
B类:
Development,containing,producing,beta,cells,using,bioprinting,Type,diabetes,caused,by,deficiency,due,loss,islets,Langerhans,In,severe,cases,transplantation,into,portal,vein,performed,However,transplanted,failure,function,year,independence,these,patients,this,study,developed,long,term,secreting,implanted,subcutaneously,aim,preventing,was,fabricated,multi,layer,mouse,insulinoma,MIN,encapsulated,alginate,caprolactone,biodegradable,polymer,glucose,response,assay,revealed,that,constructs,proliferated,released,normally,during,vitro,period,generated,clusters,diameter,similar,original,pancreatic,vivo,type,mice,animals,showed,three,times,higher,secretion,controlled,levels,weeks,after,implantation,Because,had,positive,effect,experimental,survival,group,than,results,suggest,proposed,can,better,alternative
AB值:
0.486805
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