Ative). The area of islets in the pancreas of healthy non-diabetic

Ative). The area of islets in the pancreas of healthy non-diabetic

Ative). The area of Docosahexaenoyl ethanolamide islets in the pancreas of healthy non-diabetic control C57Bl/6 mice was measured as a control. Area was determined using image J software (http://rsbweb.nih.gov/ij/) and the vascular density (number of CD34-positive ECs per square millimeter of endocrine tissue) was determined.Transplantation of islets dispersed in matrigel plugsThe second series of experiments used an alternative approach to maintain normal islet size and morphology, which was to disperse the islets in matrigel plugs beneath the kidney capsule. Matrigel (Becton Dickinson marathon growth factor reduced, high concentration) was kept at 220uC until use. 250 ml aliquots were defrosted at 4uC overnight POR8 site before transplantation. Each aliquot was made up to 350 ml using PBS and 1 U heparin, before adding 150 freshly isolated islets whilst being careful to avoid any bubble formation. Matrigel has a liquid gelatinous state at 4uC, but solidifies at 37uC. Therefore, islet-matrigel preparations were kept on ice until immediately before transplantation. The matrigel solution was used to fill dead 15481974 space in the Hamilton syringe and PE50 polyethylene tubing. 150 islets in the matrigel solution were aspirated into the tubing and then implanted beneath the kidney capsule, ensuring that the islet-matrigel solution was spread over the majority of the upper surface of the kidney.Statistical analysisStatistical analysis used Student’s t test or ANOVA, as appropriate. Two-way repeated measurement ANOVA was used with Bonferroni’s post hoc test to analyze repeated measurements in the same animal at different time points. A Kaplan eier survival curve was used to identify differences in the time to cure between groups. A p value of p,0.05 was considered significant. All data are expressed as means 6 SEM.Results Morphology and vascularisation of pelleted and dispersed islet graftsAt 1 month post transplantation graft-bearing kidneys were harvested and visualised under a dissecting microscope. In the grafts of mice transplanted with pelleted islets, individual islets could not be distinguished from each other within the single mass of compacted islets. Whereas, individual islets were clearly discernible in the dispersed islet grafts and occupied a larger area beneath the kidney capsule compared to pelleted islets. Figure 1 shows the morphology of graft material retrieved at 1 month post transplantation, demonstrating that the technical procedure of manually spreading islets beneath the kidney capsule was able to maintain the typical size and morphology of endogenousGraft functionThe body weight and blood glucose concentrations of recipient mice were monitored every 3? days for a 1 month monitoring period. Cure was defined as non-fasting blood glucose concentrations #11.1 mmol/l for at least two consecutive readings, without reverting to hyperglycaemia on any subsequent day. At 1 month in some cured animals the graft-bearing kidney was removed to determine 12926553 whether graft removal would result in reversion to hyperglycaemia. Mice were killed 3? days later and the graftbearing kidney removed for histological analysis.Maintenance of Islet MorphologyFigure 1. Morphology of pelleted and manually dispersed islet grafts. A, B Representative sections of pelleted islet (a) and manually dispersed islet grafts (b) at one month post transplantation beneath the kidney capsule, immunostained with insulin antibodies. A. Pelleted islet graft, where islets have typically aggregated to form a single.Ative). The area of islets in the pancreas of healthy non-diabetic control C57Bl/6 mice was measured as a control. Area was determined using image J software (http://rsbweb.nih.gov/ij/) and the vascular density (number of CD34-positive ECs per square millimeter of endocrine tissue) was determined.Transplantation of islets dispersed in matrigel plugsThe second series of experiments used an alternative approach to maintain normal islet size and morphology, which was to disperse the islets in matrigel plugs beneath the kidney capsule. Matrigel (Becton Dickinson marathon growth factor reduced, high concentration) was kept at 220uC until use. 250 ml aliquots were defrosted at 4uC overnight before transplantation. Each aliquot was made up to 350 ml using PBS and 1 U heparin, before adding 150 freshly isolated islets whilst being careful to avoid any bubble formation. Matrigel has a liquid gelatinous state at 4uC, but solidifies at 37uC. Therefore, islet-matrigel preparations were kept on ice until immediately before transplantation. The matrigel solution was used to fill dead 15481974 space in the Hamilton syringe and PE50 polyethylene tubing. 150 islets in the matrigel solution were aspirated into the tubing and then implanted beneath the kidney capsule, ensuring that the islet-matrigel solution was spread over the majority of the upper surface of the kidney.Statistical analysisStatistical analysis used Student’s t test or ANOVA, as appropriate. Two-way repeated measurement ANOVA was used with Bonferroni’s post hoc test to analyze repeated measurements in the same animal at different time points. A Kaplan eier survival curve was used to identify differences in the time to cure between groups. A p value of p,0.05 was considered significant. All data are expressed as means 6 SEM.Results Morphology and vascularisation of pelleted and dispersed islet graftsAt 1 month post transplantation graft-bearing kidneys were harvested and visualised under a dissecting microscope. In the grafts of mice transplanted with pelleted islets, individual islets could not be distinguished from each other within the single mass of compacted islets. Whereas, individual islets were clearly discernible in the dispersed islet grafts and occupied a larger area beneath the kidney capsule compared to pelleted islets. Figure 1 shows the morphology of graft material retrieved at 1 month post transplantation, demonstrating that the technical procedure of manually spreading islets beneath the kidney capsule was able to maintain the typical size and morphology of endogenousGraft functionThe body weight and blood glucose concentrations of recipient mice were monitored every 3? days for a 1 month monitoring period. Cure was defined as non-fasting blood glucose concentrations #11.1 mmol/l for at least two consecutive readings, without reverting to hyperglycaemia on any subsequent day. At 1 month in some cured animals the graft-bearing kidney was removed to determine 12926553 whether graft removal would result in reversion to hyperglycaemia. Mice were killed 3? days later and the graftbearing kidney removed for histological analysis.Maintenance of Islet MorphologyFigure 1. Morphology of pelleted and manually dispersed islet grafts. A, B Representative sections of pelleted islet (a) and manually dispersed islet grafts (b) at one month post transplantation beneath the kidney capsule, immunostained with insulin antibodies. A. Pelleted islet graft, where islets have typically aggregated to form a single.

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