about
Mesenchymal Stem Cells: Rising Concerns over Their Application in Treatment of Type One Diabetes MellitusDesign of a bioartificial pancreasHuman regeneration: An achievable goal or a dream?Current status of immunomodulatory and cellular therapies in preclinical and clinical islet transplantation.Applications and implications of heparin and protamine in tissue engineering and regenerative medicine.Enhanced function of immuno-isolated islets in diabetes therapy by co-encapsulation with an anti-inflammatory drug.Biomaterials for integration with 3-D bioprinting.A scalable microfluidic device for the mass production of microencapsulated islets.New alginate microcapsule system for angiogenic protein delivery and immunoisolation of islets for transplantation in the rat omentum pouch.Regenerative medicine as applied to general surgeryMicrofluidic Approach to Cell Microencapsulation.Engineered multilayer ovarian tissue that secretes sex steroids and peptide hormones in response to gonadotropinsUltrathin polymeric coatings based on hydrogen-bonded polyphenol for protection of pancreatic islet cellsEthical considerations in tissue engineering research: Case studies in translation.The pharmacology of regenerative medicineStability of alginate microbead properties in vitro.Paracrine exchanges of molecular signals between alginate-encapsulated pericytes and freely suspended endothelial cells within a 3D protein gel.A three-dimensional microfluidic approach to scaling up microencapsulation of cellsLong-term function of islets encapsulated in a redesigned alginate microcapsule construct in omentum pouches of immune-competent diabetic rats.Encapsulated cell grafts to treat cellular deficiencies and dysfunction.A perspective on bioactive cell microencapsulation.Immunoisolation: where regenerative medicine meets solid organ transplantation.Regeneration and bioengineering of transplantable abdominal organs: current status and future challenges.Alginate-based strategies for therapeutic vascularization.Contribution of polymeric materials to progress in xenotransplantation of microencapsulated cells: a review.Promising perspectives towards regrowing a human arm.Porcine pancreas extracellular matrix as a platform for endocrine pancreas bioengineering.Connexin-Based Therapeutics and Tissue Engineering Approaches to the Amelioration of Chronic Pancreatitis and Type I Diabetes: Construction and Characterization of a Novel Prevascularized Bioartificial Pancreas.Extracellular Matrix Scaffold Technology for Bioartificial Pancreas Engineering: State of the Art and Future ChallengesMicroencapsulation of pancreatic islets for use in a bioartificial pancreas.Use of the mitochondria toxicity assay for quantifying the viable cell density of microencapsulated jurkat cells.Applications of Cell Microencapsulation.Retrieval of Microencapsulated Islet Grafts for Post-transplant Evaluation.Winner of the student award in the undergraduate category, 10th World Biomaterials Congress, May 17–22, 2016, Montreal QC, Canada: Evaluation of the tissue response to alginate encapsulated islets in an omentum pouch modelApplications of particulate oxygen-generating substances (POGS) in the bioartificial pancreas.The rat pancreatic body tail as a source of a novel extracellular matrix scaffold for endocrine pancreas bioengineering.
P2860
Q26864580-6E35E641-3D75-4927-8982-43B04E4D394BQ26866499-716D778D-4248-4E61-B36A-F03F47050A6CQ28072510-C2CC2998-33CB-48AB-AD61-F5C174DE4003Q30430008-B0AC9E2A-197F-4F85-9D6C-13767B290513Q33786769-87B4F6C0-5A2F-41B5-B69A-7A764FC1D08CQ34713899-4BC3D1F3-F1E5-4359-A836-75583E4AA77FQ35491869-33FCD799-D02A-4ABB-98B8-36E1C8D3ADE8Q35597527-5B85AEC1-7D80-4C1F-8581-C7395D7F2962Q35622019-764A2260-BF16-4C32-AF1C-147099274F0FQ35892487-76043B56-91A3-472A-8D0E-218C1A60DA73Q36163384-79A19491-E034-4974-A83C-087FBD4083F4Q36569423-3D0FED4E-C1ED-45B7-9573-0600037A1A2CQ36714159-7F7556FA-3A53-42CD-9AAF-895BBD58EBF2Q36908952-7C77CED8-18BB-47C5-88A5-DBA4572A8491Q36974665-FEAF5287-5C47-4A58-B734-BEFFE6CBA403Q37260978-5DED0BEB-A743-4630-882A-C938D9B0855FQ37340560-6147E85A-EEA6-4A48-98F2-93053B433F6AQ37398783-C9A6D59B-2E8D-446D-BE5F-DDADBDE0B967Q37694997-12CCF8BB-EE73-42A8-A1C3-67033E10A53EQ37971089-3474E2AB-13E2-4515-B706-CFDC05AEE2D4Q38020181-3D58D18E-ADAB-4168-93B6-CFCC59A37CD4Q38053176-E663A0DE-F417-4B5A-AC56-0F00308A7D27Q38056519-8C081AE8-8E5B-4D2B-BCBA-A7BB2B826568Q38084737-7530C3AB-F466-49CF-A160-07ECEDB7403EQ38850433-1775BB28-80D6-4DB3-A8E4-9BE1461E730CQ39342404-3E97B1C7-B827-42C1-8A79-6FD958F53F38Q42074225-BAE20E4D-EEB6-4CAE-8D35-848622D1A357Q42120003-91902C75-6CBA-41CA-8610-94521F14CA84Q42563318-85CF8841-36AB-4C68-96E2-475B5AFE7905Q42638427-475E9260-F482-4047-AD4B-0D3514C68FF1Q44754776-73220E34-3644-4544-8051-2EC1145726FBQ45044906-F1176039-C40B-49D3-AF97-AEDE1E5B9447Q45044922-1F2A3B94-7810-46C6-BFE5-8E555BF8E9B6Q47758007-B78A311F-EB0C-4C89-8F24-029E1035B674Q48625656-977C0D97-9B5E-4423-8A58-D1D2339A408AQ55183138-05FBD26D-C4F1-4787-936E-2A98704096CC
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
name
Design of a bioartificial pancreas
@nl
Design of a bioartificial pancreas(+).
@ast
Design of a bioartificial pancreas(+).
@en
type
label
Design of a bioartificial pancreas
@nl
Design of a bioartificial pancreas(+).
@ast
Design of a bioartificial pancreas(+).
@en
prefLabel
Design of a bioartificial pancreas
@nl
Design of a bioartificial pancreas(+).
@ast
Design of a bioartificial pancreas(+).
@en
P2093
P2860
P1476
Design of a bioartificial pancreas(+).
@en
P2093
Emmanuel C Opara
Eric M Brey
Monica L Moya
Omaditya Khanna
Sayed-Hadi Mirmalek-Sani
P2860
P304
P356
10.2310/JIM.0B013E3181ED3807
P577
2010-10-01T00:00:00Z