Complete Protection of Islets Against Allorejection and Autoimmunity by a Simple Barium-Alginate Membrane

Duvivier‐Kali, Valérie F.; Omer, Abdulkadir; Parent, Richard; O’Neil, John J.; Weir, Gordon C.

doi:10.2337/diabetes.50.8.1698

Cited by 263 publications

(207 citation statements)

References 31 publications

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“…Nonetheless, an open pore alginate capsule is not so much an immune barrier as a support matrix to enhance islet viability, which is a critical essential step before a perm-selective membrane is placed on the islet. The ability of these capsules to so successfully restore glucose responsiveness may largely be a result of the high purity and low endotoxin content of the alginate [6,32]. Therefore, microencapsulating islets with an alginate of excellent biocompatibility can provide an environment that supports long-term islet graft survival and function, ultimately reducing beta cell loss and dysfunction in the immediate post-transplant period.…”

Section: Discussionmentioning

confidence: 99%

“…Since islets placed under the kidney capsule tend to fuse together forming large clumps, these grafts may be exposed to more hypoxic conditions resulting in necrosis and/or apoptosis [31]. Furthermore, encapsulation of islets, while not providing a perfect immune barrier, certainly may prolong graft survival [6,32]. While the exclusion of poly-L-lysine from our alginate capsule increases the porosity of the capsule [33], the capsule retains the ability to prevent contact of host cells such as macrophages with the islets, ultimately extending graft survival [34].…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, while the addition of poly-L-lysine has been used to reduce capsule porosity [19], its addition has resulted in an increased fibrotic response [15]. Recently, it has been shown that a simple alginate capsule devoid of poly-L-lysine retains the ability to prolong graft survival and protect the graft [6].…”

Section: Introductionmentioning

confidence: 99%

“…Unfortunately, long-term islet culture often results in a significant loss of islet mass and viability. Biocompatible matrixes such as sodium alginate have been used as a means of reducing the detrimental effects of long-term culture [4,5,6].…”

Section: Introductionmentioning

confidence: 99%

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Improved survival of microencapsulated islets during in vitro culture and enhanced metabolic function following transplantation

Korbutt

Mallett

et al. 2004

Diabetologia

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Aims/hypothesis. The aim of this study was to determine whether a simple alginate capsule can prolong islet survival and function during long-term tissue culture. We also wanted to observe the ability of these encapsulated islets to restore glucose responsiveness to diabetic recipients, along with the quantity of islets required to do so. Methods. We compared the recovery and metabolic function of encapsulated canine islets with that of non-encapsulated canine islets following 1, 2 or 3 weeks of tissue culture. These culture preparations were also transplanted into diabetic nude mice and compared for their ability to reverse diabetes. Furthermore, short-term cultured encapsulated and nonencapsulated islets were transplanted in varying numbers to determine the minimum dose required to normalise blood glucose and prolong recipient survival.Results. Islet recovery following 1, 2 and 3 weeks of tissue culture was significantly higher when islets were encapsulated. When these islets were recovered at 1, 2 and 3 weeks and transplanted into diabetic nude mice, survival at 100 days was 100% for all encapsulated groups, versus 66%, 33% and 33% respectively for the non-encapsulated islets. Additionally, substantially fewer short-term cultured islets were required to normalise blood glucose when the islets were encapsulated. Recipients of encapsulated islets also had significantly longer survival times than recipients of non-encapsulated preparations. Conclusions/interpretation. This study demonstrates that encapsulation of islets with purified alginate improves islet survival and function in vitro and in vivo.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Improved survival of microencapsulated islets during in vitro culture and enhanced metabolic function following transplantation

Korbutt

Mallett

et al. 2004

Diabetologia

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“…The immobilization of cells in particles is widely discussed in tissue engineering; the possibility to encapsulate non-human cells reduces the host's immune system response, facilitating transplantation as an alternative to the limited donor tissues available [1]. The technique of cell encapsulation is being used for the production of "Bio artificial Pancreas" [2], immunobarrier for islet cells transplantation [2][3][4], and the encapsulation of stem cells [5,6]. Encapsulation of living cells was also suggested for the production of chemicals such as alcohol, organic acids, steroids, antibiotics, vaccines [7].…”

Section: Introductionmentioning

confidence: 99%

Microparticles for cell encapsulation and colonic delivery produced by membrane emulsification

Morelli

Holdich

Dragosavac

2017

Journal of Membrane Science

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Citation: MORELLI, S., HOLDICH, R. and DRAGOSAVAC, M., 2017. Microparticles for cell encapsulation and colonic delivery produced by membrane emulsification. Journal of Membrane Science, 524, Additional Information:• This paper was accepted for publication in the journal Journal of This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting galley proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. conditions. The liquid drops were loaded with increasing amount of yeast (3.14 x 10 7 to 3.14 x 10 8 cells/ mL). The stability and uniformity of the emulsions was independent of the cell concentration. PTFE coated hydrophobic membrane produced smaller W/O drops compared to FAS coated membranes. The liquid polymeric droplets were solidified in solid particles using thermal gelation and/or ionic crosslinking, obtaining yeast encapsulated particles sized ~100 µm.The pH sensitive polymer, Eudragit S100, was used as a coating to create gastro resistant particles suitable for intestinal-colonic targeted release. Viability of the released yeast cells was demonstrated using fluorescence probes and checking cell glucose metabolism with time. AbbreviationsW/O emulsion, water in oil

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Engineering Immune Responses to Allografts

Frei

Stabler

2014

Bio‐inspired Materials for Biomedical Engineering

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Complete Protection of Islets Against Allorejection and Autoimmunity by a Simple Barium-Alginate Membrane

Cited by 263 publications

References 31 publications

Improved survival of microencapsulated islets during in vitro culture and enhanced metabolic function following transplantation

Improved survival of microencapsulated islets during in vitro culture and enhanced metabolic function following transplantation

Microparticles for cell encapsulation and colonic delivery produced by membrane emulsification

Engineering Immune Responses to Allografts

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