Iodixanol-Controlled Density Gradient During Islet Purification Improves Recovery Rate in Human Islet Isolation

Noguchi, Hirofumi; Ikemoto, Tetsuya; Naziruddin, Bashoo; Jackson, Andrew; Shimoda, Masayuki; Fujita, Yasutaka; Chujo, Daisuke; Takita, Morihito; Kobayashi, Naoya; Onaca, Nicholas; Levy, Marlon F.; Matsumoto, Shinichi

doi:10.1097/tp.0b013e3181a5515c

Cited by 66 publications

(74 citation statements)

References 26 publications

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“…The islet yield after purification and the post-purification recovery rate was significantly higher when the controlled density gradient purification method was used than when using the standard continuous gradient purification by Ficoll solutions. The percentage of islets recovered from the controlled-density solution was approximately 80% [35] . Another group also showed the effectiveness of controlled-density gradients using a continuous gradient for the density determination step [36] .…”

Section: Islet Purificationmentioning

confidence: 95%

“…The percentage of islets recovered from a standard Ficoll purification has been reported to range from 55%-65% [33,34] . We recently showed the effectiveness of controlled-density gradients using iodixanol [35] . According to the outcome of the density determination step, the density of the purification solutions was controlled (low density, 1.075 g/cm 3 ; high density, 1.085-1.110 g/cm 3 ) by changing the volumetric ratio of iodixanol and the purification solutions.…”

Section: Islet Purificationmentioning

confidence: 99%

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Recent progress in pancreatic islet transplantation

Kubo

Noguchi²

2011

WJT

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Section: Islet Purificationmentioning

confidence: 95%

Section: Islet Purificationmentioning

confidence: 99%

Recent progress in pancreatic islet transplantation

Kubo

Noguchi²

2011

WJT

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“…However, the drawbacks of the Edmonton protocol include necessity of multiple donor organs, unstable islet isolation results, necessity of immunosuppressive drugs, difficulty of maintaining long-term insulin independence and severe shortage of donor organs . Currently, we introduced new pancreas preservation (Matsumoto et al, 2002a(Matsumoto et al, , 2002b(Matsumoto et al, , 2010b and islet isolation strategies (Noguchi et al, 2009a;Shimoda et al, 2010) and immunosuppressive therapy to improve the efficacy of islet isolation . Now, we have a very stable islet isolation method, in addition, a single donor pancreas is enough to achieve insulin independence .…”

Section: Future Direction Of Bio-artificial Isletsmentioning

confidence: 99%

Tissue Engineering for Tissue and Organ Regeneration

Eberli¹

2011

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“…Digested pancreas contains many exocrine and connective tissues that may cause portal vein hypertension and thrombosis; thus, removing these cellular components is necessary. Purification is performed using a COBE 2991 cell processor with Ficoll or iodixanol gradient solution [15] . Obtaining many good islets from the donor pancreas is necessary to cure severe diabetes, but it is impossible to obtain all islets contained in the pancreas by current isolation techniques.…”

Section: Islet Isolation and Transplantationmentioning

confidence: 99%

Encapsulated islets transplantation: Past, present and future

Sakata

Sumi²,

Yoshimatsu³

et al. 2012

WJGP

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Islet transplantation could become an ideal treatment for severe diabetes to prevent hypoglycemia shock and irreversible diabetic complications, once some of the major and unresolved obstacles are overcome, including limited donor supplies and side effects caused by permanent immunosuppressant use. Approximately 30 years ago, some groups succeeded in improving the blood glucose of diabetic animals by transplanting encapsulated islets with semi-permeable membranes consisting of polymer. A semi-permeable membrane protects both the inner islets from mechanical stress and the recipient's immune system (both cellular and humoral immunities), while allowing bidirectional diffusion of nutrients, oxygen, glucose, hormones and wastes, i.e., immune-isolation. This device, which enables immune-isolation, is called encapsulated islets or bio-artificial pancreas. Encapsulation with a semipermeable membrane can provide some advantages: (1) this device protects transplanted cells from the recipient's immunity even if the xenogeneic islets (from large animals such as pig) or insulin-producing cells are derived from cells that have the potential for differentiation (some kinds of stem cells). In other words, the encapsulation technique can resolve the problem of limited donor supplies; and (2) encapsulation can reduce or prevent chronic administration of immunosuppressants and, therefore, important side effects otherwise induced by immunosuppressants. And now, many novel encapsulated islet systems have been developed and are being prepared for testing in a clinical setting.

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Iodixanol-Controlled Density Gradient During Islet Purification Improves Recovery Rate in Human Islet Isolation

Abstract: Our data suggest that using an iodixanol-controlled density gradient improves the islet recovery rate in human islet isolation. On the basis of these data, we now use this purification method for clinical islet transplantation.

Cited by 66 publications

References 26 publications

Recent progress in pancreatic islet transplantation

Recent progress in pancreatic islet transplantation

Tissue Engineering for Tissue and Organ Regeneration

Encapsulated islets transplantation: Past, present and future

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