K. Mandes scite author profile

After pancreatic islet transplantation, insufficient blood supply is responsible for the loss of islet viability. The aim of our study was: 1) to determine the influence of vascular endothelial growth factor (VEGF) on the survival of encapsulated rat islets transplanted into healthy and diabetic mice and 2) to evaluate the metabolic efficiency of the VEGF-supplemented grafts. Twenty-four hours after culture, 50 rat islets immobilized into collagen in the presence of VEGF (100 ng/ml) and encapsulated (AN69 membrane, HOSPAL) were grafted in the peritoneal cavity of healthy or streptozotocin-induced diabetic mice (n = 6). Seven, 14, and 28 days after implantation, the encapsulation device and tissue surrounding the device were removed and the following parameters were analyzed: the number and the diameter of buds, the distance between devices and buds, the amount of cellular adhesion on the capsule surface, and the level of insulin secreted by encapsulated islet. For reversal of diabetes, 1000 rat islets encapsulated in the presence of VEGF were implanted in the peritoneal cavity of diabetic mice and fasting glycemia was analyzed. After 7 days of islet implantation in the absence of VEGF, the bud diameter was 16.1 ± 6.9 µm in diabetic mice and 34.4 ± 3.9 µm in healthy mice. However, the number of buds increased by a factor 2.5 in the presence of VEGF in both types of mice. Furthermore, when islets were transplanted in the presence of VEGF, the distance between the device and the buds was significantly decreased in both types of mice (p < 0.001) after 7, 14, and 28 days of islet implantation. Capsule analysis showed a decrease in cellular adhesion when the islets were encapsulated in the presence of VEGF. Insulin secretion of the islets was higher in the presence of VEGF compared with islets alone at all steps of the study. When 1000 rat islets were transplanted in the presence of VEGF, the glycemia level decreased to 6.2 ± 0.8 mmol/L after 3 days and remained stable until at least 28 days. In contrast, in the absence of VEGF, the initial decrease in the glucose level was rapidly followed by a relapse in hyperglycemia. In summary, VEGF increased the viability of engrafted encapsulated islets, increasing the duration of a normalized glycemia in diabetic mice following transplantation. Local adjunction of VEGF may therefore improve the clinical outcome of islet transplantation.

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Induction of Angiogenesis in Omentum with Vascular Endothelial Growth Factor: Influence on the Viability of Encapsulated Rat Pancreatic Islets during Transplantation

Sigrist

Méchine‐Neuville²,

Mandes³

et al. 2003

J Vasc Res

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Transplantation of pancreatic islets is proposed as a treatment for type 1 diabetes, but insufficient blood supply can cause the loss of viable grafted islets. In the present study, we investigated the influence of vascular endothelial growth factor (VEGF) on the angiogenesis of omentum during encapsulated islet allotransplantation and consequently on islet survival. Fifty rat islets, cultured for 24 h, were encapsulated in the presence or absence of human VEGF and implanted in the peritoneal cavity of rats (n = 6). After 7, 14 and 28 days of implantation, encapsulation devices with surrounding omentum were removed. Histological analysis of this tissue was performed. Cellular adhesion at the membrane surface was characterized by a phagocytosis test. The morphological aspect of the islets was analyzed and their functionality was evaluated by measuring insulin secretion. At each step of the study, there was a two-fold increase in the number of vessels in the presence of VEGF. In addition, VEGF increased the vessel diameter and the surface area of the angiogenic pedicle. Moreover, the presence of VEGF significantly decreased the distance between the devices and vessels (16.2 ± 5.6 vs. 51.6 ± 10.1 µm, p < 0.001). Membrane surface analysis showed a decrease in macrophage adhesion in the presence of VEGF. Furthermore, islet structure and functionality was preserved in the presence of VEGF. Stimulation of angiogenesis of omentum induced by VEGF is associated with preservation of islet viability. Local delivery of VEGF proved to be a relevant approach to ameliorate the outcome of islet transplantation.

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40th EASD Annual Meeting of the European Association for the Study of Diabetes

Veitenhansl¹,

Stegner²,

Hierl³

et al. 2004

Diabetologia

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Surface treatment of polycarbonate films aimed at biomedical application

Kessler

Legeay²,

Coudreuse³

et al. 2003

Journal of Biomaterials Science, Polymer Edition

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Aiming to encapsulate pancreatic islets, a biocompatible polycarbonate membrane (Whatman) was treated with plasma argon in order to improve its surface properties. The argon plasma treatment decreased the hydrophobicity of the membrane by fixing polyvinylpyrrolidone (PVP) at the surface. The water angle contact decreased from 47 degrees to 20 degrees after this treatment, while the structure and pore diameter were preserved. The treatment also increased significantly the water permeability from 62 +/- 8 ml/min to 200 +/- 29 ml/min (P < 0.001). ToF-SIMS analyses revealed that the argon plasma treatment of the membrane allowed the installation of an uniform PVP layer at the surface. The concentration equilibrum in glucose was reached after 8 h diffusion for the treated membrane, while it was only 32.4 +/- 8.6% (P < 0.01) for the untreated membrane. The biocompatibility of the polycarbonate membrane was assessed after one month of implantation in rats and proved to be unaffected by the surface treatment. In conclusion, the present study provided sufficient information to establish a relationship between the physicochemical modifications of the PVP-plasma-treated polycarbonate membrane and the improvement in its permeability.

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Overexpression of Vascular Endothelial Growth Factor In Vitro Using Deferoxamine: A New Drug to Increase Islet Vascularization During Transplantation

Langlois¹,

Bietiger²,

Mandes³

et al. 2008

Transplantation Proceedings

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K. Mandes

Influence of VEGF on the Viability of Encapsulated Pancreatic Rat Islets after Transplantation in Diabetic Mice

Induction of Angiogenesis in Omentum with Vascular Endothelial Growth Factor: Influence on the Viability of Encapsulated Rat Pancreatic Islets during Transplantation

40th EASD Annual Meeting of the European Association for the Study of Diabetes

Surface treatment of polycarbonate films aimed at biomedical application

Overexpression of Vascular Endothelial Growth Factor In Vitro Using Deferoxamine: A New Drug to Increase Islet Vascularization During Transplantation

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