Biocompatibility and surface structure of chemically modified immunoisolating alginate‐PLL capsules

Bünger, Carsten Michael; Gerlach, Christian; Freier, Thomas; Schmitz, K.-P.; Pilz, Martin; Werner, Carsten; Jonas, Ludwig; Schareck, W.; Hopt, UT; Vos, de Paul

doi:10.1002/jbm.a.10094

Cited by 62 publications

(49 citation statements)

References 34 publications

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“…The prevention of overgrowth was accomplished by inclusion of dexamethasone in the capsules. This is a rather different and unconventional approach since most groups, including ours [5,9,11,14,22], have focussed up to now on chemical modification of the capsules to improve the biocompatibility. However, recent new insight into the tissue responses have shown that the responses against capsules are not only initiated by the capsules chemical composition but are also caused by non-specific reactions as the consequence of surgical trauma associated with implantation of the grafts [15].…”

Section: Discussionmentioning

confidence: 99%

Deletion of the tissue response against alginate-pll capsules by temporary release of co-encapsulated steroids

et al. 2005

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Section: Discussionmentioning

confidence: 99%

Deletion of the tissue response against alginate-pll capsules by temporary release of co-encapsulated steroids

et al. 2005

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“…Another important issue that has recently been described is the surface roughness of capsules. Bu¨nger et al [90] showed that alginate-PLL capsules provoke a strong tissue response in rats when capsules were implanted with a strong surface roughness as visualized by atomic force microscopy. This was plausibly caused by an inadequate interaction of the PLL molecules with the alginate at the surface of the capsules.…”

Section: Article In Pressmentioning

confidence: 98%

Alginate-based microcapsules for immunoisolation of pancreatic islets

Vos¹,

Faas²,

et al. 2006

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“…The literature reveals, however, that success has so far been limited and non-reproducible. It is thought that the inability of encapsulated islet grafts to reproducibly achieve and maintain long-term euglycaemia is related not only to insufficient immunoprotection, but also to a variety of technical and metabolic issues, including: the encapsulation process, composition/purity of the microcapsule [12], capsule size and surface structure [13,14], poor biocompatibility [15,16], and endotoxin levels of the alginate [17,18]. 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].…”

Section: Introductionmentioning

confidence: 99%

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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Biocompatibility and surface structure of chemically modified immunoisolating alginate‐PLL capsules

Cited by 62 publications

References 34 publications

Deletion of the tissue response against alginate-pll capsules by temporary release of co-encapsulated steroids

Deletion of the tissue response against alginate-pll capsules by temporary release of co-encapsulated steroids

Alginate-based microcapsules for immunoisolation of pancreatic islets

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

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