Parameters favouring successful adult pig islet isolations for xenotransplantation in pig-to-primate models

Dufrane D, D'hoore W, Goebbels R‐M, Saliez A, Guiot Y, Gianello P. Parameters favouring successful adult pig islet isolations for xenotransplantation in pig‐to‐primate models.
Xenotransplantation 2006; 13: 204–214. © Blackwell Munksgaard, 2006 Abstract: Background: In the near future, adult porcine islets of Langerhans appear as an unlimited source of insulin‐producing cells which could play a major role for treating diabetes mellitus. There is, however, an obvious lack of pre‐clinical results and data in the pig‐to‐primate model. One of the main hurdles of this model is certainly related to the difficulty of reproducing regularly successful porcine islet isolation. This experimental work was designed to provide guidelines applicable in pig pancreas procurement and islet isolation for successful islet xenotransplantation into primates. Methods: Pancreases were harvested from adult Belgium Landrace pigs (n = 79) in a single centre. The impact on islet yield of (1) pancreas procurement (blood exsanguination and warm ischaemia time (WIT)), (2) cold storage solutions (classic UW and modified UW (without hydroxyethyl starch and inverse K⁺/Na⁺ concentration)), (3) a dynamic or static method of pancreas digestion, and (4) the endotoxin content and enzymatic activity from five different batches of Liberase PI was studied. In addition, pancreatic biopsies (n = 18), performed before isolation, were retrospectively analyzed to study the impact of histomorphometry on porcine islet yield. Finally, two diabetic cynomolgus monkeys were transplanted without immunosuppression with 15 000 pig islet equivalents/kg body weight of recipient to assess in vivo the function of freshly isolated islets. Univariate and multivariate analyses were performed. Results: By multiple linear regression, the most significant variables that significantly improved islet yield were, firstly, the presence of <30 EU (endotoxin units) of endotoxin in Liberase batches, followed by a WIT under 10 min and the use of blood exsanguination before pancreas harvesting (P<0.005). In contrast, isolation method (dynamic vs. static) and the solution used for storage (short‐term) (UW vs. modified UW) did not significantly influence islet yield. The correlation of retrospective histomorphometry analysis of native pancreas and extemporaneous biopsy before isolation clearly determined a positive relationship between isolated islet number and the number of islets/cm² (r = 0.708, P<0.01) or with the percentage of large islets (r = 0.680, P<0.01) found in pancreas biopsies. Pig pancreases containing more than 82 islets/cm² and more than 42% of large islets (>100 μm) thus enabled more than 120 000 islet equivalents to be obtained in 90% of the cases, which is an ideal amount of islets to transplant into a primate of 4 to 5 kg. In vivo, a reduction of blood glucose (<200 mg/dl), associated with porcine C‐peptide production, was observed in two primates after transplantation with adult pig islets. At day 7 post‐transplantation, however, loss of islet function was associated with graft destruction and immune reaction. Conclusions: Morphological screening of the pig pancreas before isolation, optimal blood exsanguination, WIT <10 min, and an endotoxin content <30 EU/mg in Liberase PI batches determine successful pig islet isolation for xenotransplantation in primates.     

The allocation of pancreas allografts on donor age and duration of intensive care unit stay: the experience of the North Italy Transplant program

Starting in 2011, the North Italy Transplant program (NITp) has based on the allocation of pancreas allografts on donor age and duration of intensive care unit (ICU) stay, but not on donor weight or BMI. We analyzed the detailed allocation protocols of all NITp pancreas donors (2011–2012; n = 433). Outcome measures included donor characteristics and pancreas loss reasons during the allocation process. Twenty‐three percent of the 433 pancreases offered for allocation were transplanted. Younger age, shorter ICU stay, traumatic brain death, and higher eGFR were predictors of pancreas transplant, either as vascularized organ or as islets. Among pancreas allografts offered to vascularized organ programs, 35% were indeed transplanted, and younger donor age was the only predictor of transplant. The most common reasons for pancreas withdrawal from the allocation process were donor‐related factors. Among pancreas offered to islet programs, 48% were processed, but only 14.2% were indeed transplanted, with unsuccessful isolation being the most common reason for pancreas loss. Younger donor age and higher BMI were predictors of islet allograft transplant. The current allocation strategy has allowed an equal distribution of pancreas allografts between programs for either vascularized organ or islet transplant. The high rate of discarded organs remained an unresolved issue.     

Beneficial effect of recombinant rC1rC2 collagenases on human islet function: Efficacy of low‐dose enzymes on pancreas digestion and yield

A high number of human islets can be isolated by using modern purified tissue dissociation enzymes; however, this requires the use of >20 Wunsch units (WU)/g of pancreas for digestion. Attempts to reduce this dose have resulted in pancreas underdigestion and poor islet recovery but improved islet function. In this study, we achieved a high number of functional islets using a low dose of recombinant collagenase enzyme mixture (RCEM‐1200 WU rC2 and 10 million collagen‐degrading activity [CDA] U of rC1 containing about 209 mg of collagenase to digest a 100‐g pancreas). The collagenase dose used in these isolations is about 42% of the natural collagenase enzyme mixture (NCEM) dose commonly used to digest a 100‐g pancreas. Low‐dose RCEM was efficient in digesting entire pancreases to obtain higher yield (5535 ± 830 and 2582 ± 925 islet equivalent/g, P < .05) and less undigested tissue (16.7 ± 5% and 37.8 ± 3%, P < .05) compared with low‐dose NCEM (12WU/g). Additionally, low‐dose RCEM islets retained better morphology (confirmed with scanning electron microscopy) and higher in vitro basal insulin release (2391 ± 1342 and 1778 ± 978 μU/mL; P < .05) compared with standard‐dose NCEM. Nude mouse bioassay demonstrated better islet function for low‐dose RCEM (area under the curve [AUC] 24 968) compared with low‐dose (AUC–38 225) or standard‐dose NCEM (AUC–38 685), P < .05. This is the first report indicating that islet function can be improved by using low‐dose rC1rC2 (RCEM).     

Significant progress in porcine islet mass isolation utilizing liberase HI for enzymatic low-temperature pancreas digestion.

BACKGROUND: Frequent success in human islet isolation is prevented by the large variability of scarce organ donors; this favors the future utilization of pigs as donors for clinical islet xenotransplantation. Porcine-specific difficulties of islet isolation are attributed to the intrinsic fragility of islets during pancreas digestion. METHODS: To preserve islet integrity during efficient pancreas dissociation, porcine pancreata (n=48) were distended after cold storage with cold University of Wisconsin solution containing Liberase HI and digested at 24-28 degrees C using digestion-filtration. Pancreata distended with University of Wisconsin solution containing well-proven crude collagenase and digested at 32-34 degrees C served as controls (n=46). Monolayer Ficolldiatrizoate gradient purification was performed in a Cobe 2991. RESULTS: Purified yield of islet equivalents per pancreas (mean+/-SEM) was almost doubled by Liberase HI compared with crude collagenase (526,480+/-46,560 vs. 270,270+/-19,420; P < 0.0001) and also significantly increased comparing islet equivalents per gram of pancreas (4,210+/-320 vs. 2,640+/-245; P=0.0004). Islet integrity was better preserved during Liberase HI digestion compared with crude collagenase digestion as indicated by isolation index (2.1+/-0.1 vs. 1.4+/-0.1; P<0.0001). Purity, viability, and in vitro function of islets did not differ between experimental groups. Preserved in vivo function of islets isolated by Liberase HI was demonstrated after subcapsular transplantation into 16 diabetic nude rats. CONCLUSIONS: If the problems related to xenograft rejection and xenosis could be solved, low-temperature digestion of porcine pancreata using Liberase HI could serve as an essential prerequisite for successful 1:1 xenotransplantation of pig islets into type 1 diabetic human recipients.     

Pretreatment of Donor Pigs With a Diet Rich in Soybean Oil Increases the Yield of Isolated Islets

Introduction

The pig is considered the donor species of choice for islet xenotransplantation. However, isolation of porcine islets is difficult, particularly from young pigs. Early life exposure to a high-fat diet (HFD) reportedly encourages islet β-cell expansion in neonatal rodents and improves islet viability in culture from pretreated weanling pigs. In this study, we examined the influence of young donor pretreatment with a soybean oil–enriched HFD on porcine islet mass and yield after islet isolation.

Materials and Methods

Postweaning and between days 70 and 250, pigs were fed either a standard diet (control group; n = 5) or an HFD (experimental group; n = 6). Biochemical blood parameters and acute C-peptide response to intravenous glucose were monitored before pancreas procurement. The study was blinded to objectively evaluate the influence of treated diet. After procurement, pancreas biopsy samples were taken from control and pretreated donor pigs to assess islet number by using a dithizone scoring method and histologic islet area fraction determination. Control and HFD donor pig islets were isolated by using our standard isolation protocol to determine islet yield. Islet isolation characteristics and islet quality were assessed in both groups, and the results were compared.

Results

There were no significant differences in the donor characteristics (age, body weight, glucose disposal rate, acute C-peptide response to intravenous glucose, cholesterol, and aspartate aminotransferase) except fasting blood glucose level between the control and treatment groups (84 ± 6 vs 99 ± 12 mg/dL; P = .0317). The stimulated insulin and C-peptide levels between groups were similar. However, the dithizone score was slightly higher in the treatment group compared with the control group (95.4 ± 38.5 vs 62.6 ± 23.9; P = .1208). Digestion time, digested pancreas weight, pellet volume, and the fragility index were similar in both groups. However, the average islet count (islet equivalent number/g pancreas) at the digest level was significantly higher in the HFD group than in the control group (1578 ± 994 vs 738 ± 202; P = .0344). The functional viability of 2- and 7 day-cultured islets, as assessed by using oxygen consumption rate corrected for DNA, was similar in both groups.

Conclusions

Pretreatment of pigs with HFD enriched with soybean oil could potentially be used to improve the islet mass in donor pigs. Further studies are needed to confirm and optimize the use of HFD for the purpose of increasing islet yield from young donor pigs.     

Influence of strain and age differences on the yields of porcine islet isolation: extremely high islet yields from SPF CMS miniature pigs

BACKGROUND: Porcine pancreas is a potential source of material for islet xenotransplantation. However, the difficulty in isolating islets, because of their fragility and the variability of isolation outcome in donor age and breed, represents a major obstacle to porcine islet xenotransplantation. In this study, we compared the islet isolation yield of specific pathogen-free (SPF) Chicago Medical School (CMS) miniature pigs with that of another miniature pig breed and market pigs from a local slaughterhouse. METHODS: Nine adult CMS miniature (ACM) pigs (>12 months), six young CMS miniature (YCM) pigs (6-7 months), four adult Prestige World Genetics (PWG) miniature (APM) pigs (>12 months), and 13 adult market (AM) pigs from a local slaughterhouse were used for islet isolation. RESULTS: The islet yield per gram of pancreas from ACM pigs (9589 +/- 2823 IEQ/g) was significantly higher than that from APM pigs (1752 +/- 874 IEQ/g, P < 0.05), AM pigs (1931 +/- 947 IEQ/g, P < 0.05), or YCM pigs (3460 +/- 1985 IEQ/g, P < 0.05). Isolated islets from ACM pigs were significantly larger than those from AM pigs or YCM pigs. The in vitro and in vivo function of isolated islets showed no difference among experimental groups. The pancreases of ACM pigs contained higher mean islet volume density percentages and larger size of islets than those of AM or APM pigs. CONCLUSIONS: We isolated extremely high yields of well-functioning islets from ACM pigs bred under SPF conditions. SPF CMS miniature pigs should be one of the best porcine islet donors for clinical porcine islet xenotransplantation.     

Delayed revascularization of islets after transplantation by IL‐6 blockade in pig to non‐human primate islet xenotransplantation model

Background

Pancreatic islet transplantation is currently proven as a promising treatment for type 1 diabetes patients with labile glycemic control and severe hypoglycemia unawareness. Upon islet transplantation, revascularization is essential for proper functioning of the transplanted islets. As IL‐6 is important for endothelial cell survival and systemic inflammation related to xenograft, the effect of IL‐6 receptor antagonist, tocilizumab, on revascularization of the transplanted islets was examined in pig to non‐human primate islet xenotransplantation model. Also, the endothelial cell origin in a new vessel of the transplanted pig islets was determined.

Methods

Pig islets were isolated from designated pathogen‐free (DPF) SNU miniature pigs and transplanted via portal vein into five streptozotocin‐induced diabetic monkeys. One group (n = 2, basal group) was treated with anti‐thymoglobulin (ATG), anti‐CD40 antibody (2C10R4), sirolimus, and tacrolimus, and the other group was additionally given tocilizumab on top of basal immunosuppression (n = 3, Tocilizumab group). To confirm IL‐6 blocking effect, C‐reactive protein (CRP) levels and serum IL‐6 concentration were measured. Scheduled biopsy of the margin of the posterior segment right lobe inferior of the liver was performed at 3 weeks after transplantation to assess the degree of revascularization of the transplanted islets. Immunohistochemical staining using anti‐insulin, anti‐CD31 antibodies, and lectin IB4 was conducted to find the origin of endothelial cells in the islet graft.

Results

CRP significantly increased at 1~2 days after transplantation in Basal group, but not in Tocilizumab group, and higher serum IL‐6 concentration was measured in latter group, showing the biological potency of tocilizumab. In Basal group, well‐developed endothelial cells were observed on the peri‐ and intraislet area, whereas the number of CD31⁺ cells in the intraislet space was significantly reduced in Tocilizumab group. Finally, new endothelial cells in the pig islet graft were positive for CD31, but not for lectin IB4, suggesting that they are originated from the recipient monkey.

Conclusions

Our results demonstrated that tocilizumab can delay revascularization of the transplanted islet, although this effect had no significant correlation to the overall islet graft survival. In the pig to NHP islet xenotransplantation model, the endothelial cells from recipient monkey form new blood vessels in and around pig islets.     

Pre‐clinical results in pig‐to‐non‐human primate islet xenotransplantation using anti‐CD40 antibody (2C10R4)‐based immunosuppression

Background

Islet transplantation is an effective therapy for selected patients with type 1 diabetes with labile glycemic control and hypoglycemic unawareness, but donor organs are limited. Islet xenotransplantation using porcine islets will potentially solve this problem. Although successful proof of concept studies using clinically inapplicable anti‐CD154 monoclonal antibody (mAb) in pig‐to‐non‐human primate (NHP) islet xenotransplantation has been demonstrated by several groups worldwide, potentially clinically applicable anti‐CD40 (2C10R4) mAb‐based studies have not been reported.

Methods

Nine streptozotocin (STZ)‐induced diabetic rhesus monkeys were transplanted with adult porcine islets isolated from designated pathogen‐free (DPF) miniature pigs. They were treated with anti‐CD40 mAb‐based immunosuppressive regimen and were divided into 3 groups: anti‐CD40 only group (n = 2), belatacept group (anti‐CD40 mAb+belatacept, n = 2), and tacrolimus group (anti‐CD40 mAb+tacrolimus, n = 5). All monkeys received anti‐thymocyte globulin (ATG), cobra venom factor (CVF), adalimumab, and sirolimus. Blood glucose levels (BGL) and serum porcine C‐peptide concentrations were measured. Humoral and cellular immune responses were assessed by ELISA and ELISPOT, respectively. Liver biopsy and subsequent immunohistochemistry were conducted.

Results

All animals restored normoglycemia immediately after porcine islet transplantation and finished the follow‐up without any severe adverse effects except for one animal (R092). Most animals maintained their body weight. Median survival, as defined by a serum porcine C‐peptide concentration of >0.15 ng/mL, was 31, 27, and 60 days for anti‐CD40 only, belatacept, and tacrolimus groups, respectively. Anti‐αGal IgG levels in serum and the number of interferon‐γ secreting T cells in peripheral blood mononuclear cells did not increase in most animals.

Conclusion

These results showed that anti‐CD40 mAb combined with tacrolimus was effective in prolonging porcine islet graft survival, but anti‐CD40 mAb was not as effective as anti‐CD154 mAb in terms of preventing early islet loss.     

Improved recovery of human islets from young donor pancreases utilizing increased protease dose to collagenase for digesting peri‐islet extracellular matrix

Human islet isolation from young donor pancreases (YDP) utilizing the current purified standard dose of collagenase‐protease enzyme mixtures often results in the release of a high percentage of mantled islets. Mantled islets are those surrounded by exocrine tissue and are difficult to purify by density gradient centrifugation, leading to poor islet recovery. Based on difference in extracellular matrix, and total collagen content between YDP and old donor pancreas (ODP, > 35 Y) led us to compare results from islet isolation using increased collagenase combination (ICC) or increased protease combination (IPC), to the standard enzyme combination (SEC) in a “trisected” pancreas model to overcome the donor‐to‐donor variability. These results showed a reduced percentage of mantled islets (17% ± 7.5%) and higher postpurification islet recovery (83.8% ± 5.6%) with IPC. Furthermore, these results were confirmed in 13 consecutive whole pancreas islet isolations utilizing IPC from VitaCyte, Roche, or SERVA collagenase‐protease enzyme mixtures. Results obtained from in vitro and in vivo islet functional assessment indicated that islets isolated using IPC retained normal islet morphology, insulin secretion, and the ability to reverse diabetes after transplantation in diabetic nude mice. This is the first report utilizing trisected pancreas to assess the effectiveness of different enzyme combinations to improve islet recovery from young donor pancreases.     

BMX‐001, a novel redox‐active metalloporphyrin,improves islet function and engraftment in a murine transplant model

Islet transplantation has become a well‐established therapy for select patients with type 1 diabetes. Viability and engraftment can be compromised by the generation of oxidative stress encountered during isolation and culture. We evaluated whether the administration of BMX‐001 (MnTnBuOE‐2‐PyP⁵⁺ [Mn(III) meso‐tetrakis‐(N‐ b ‐butoxyethylpyridinium‐2‐yl)porphyrin]) and its earlier derivative, BMX‐010 (MnTE‐2‐PyP [Mn(III) meso‐tetrakis‐(N‐methylpyridinium‐2‐yl)porphyrin]) could improve islet function and engraftment outcomes. Long‐term culture of human islets with BMX‐001, but not BMX‐010, exhibited preserved in vitro viability. Murine islets isolated and cultured for 24 hours with 34 μmol/L BMX‐001 exhibited improved insulin secretion (n = 3 isolations, P < .05) in response to glucose relative to control islets. In addition, 34 μmol/L BMX‐001–supplemented murine islets exhibited significantly reduced apoptosis as indicated by terminal deoxynucleotidyl transferase dUTP nick end labeling, compared with nontreated control islets (P < .05). Murine syngeneic islets transplanted under the kidney capsule at a marginal dose of 150 islets revealed 58% of 34 μmol/L BMX‐001–treated islet recipients became euglycemic (n = 11 of 19) compared with 19% of nontreated control islet recipients (n = 3 of 19, P < .05). Of murine recipients receiving a marginal dose of human islets cultured with 34 μmol/L BMX‐001, 92% (n = 12 of 13) achieved euglycemia compared with 57% of control recipients (n = 8 of 14, P = .11). These results demonstrate that the administration of BMX‐001 enhances in vitro viability and augments murine marginal islet mass engraftment.     

Actions of the Japanese Pancreas and Islet Transplantation Association regarding transplanted human islets isolated using Liberase HI

Purpose

The potential for introducing transmissible spongiform encephalopathy (TSE) into islet cells was indicated by recognizing that Liberase HI is isolated from Clostridium histolyticum grown in media containing brain–heart infusion broth. A national team within the Japanese Pancreas and Islet Transplantation Association implemented an islet transplantation program in Japan using Liberase HI. The program comprised 65 islet isolations from non–heart-beating donors and 34 transplants into 18 patients. Herein, we have summarized how the Association followed these recipients over the long term.

Procedures

We established an ad hoc committee to follow recipients transplanted with islets isolated using Liberase HI after becoming informed of the associated dangers of using this enzyme. We also stopped islet transplantations using Liberase. The committee addressed the major concerns of the risk of the collagenase being contaminated with TSE and of the recipient follow-up. All recipients were examined by diffusion MRI and EEG and then scheduled for evaluation and follow-up by specialists in Creutzfeldt-Jakob disease (CJD). Bioassays of bovine spongiform encephalopathy prions in the enzyme proceeded using knock-in mice expressing bovine prion protein. These assays could detect contaminating prions at a dilution of 1 × 10⁴. After inactivating its collagenase activity, Liberase HI was injected into the abdominal cavities of knock-in mice. Four months later, prion infectivity in Liberase HI was evaluated by immunohistochemical staining and Western blotting of spleen homogenates using anti-prion protein antibodies.

Main findings

Western blotting and immunohistochemical staining did not detect prions in Liberase HI. Diffusion MRI and EEG evaluations performed by CJD specialists confirmed that none of the transplanted recipients had CJD.

Conclusions

Three years of follow-up revealed that none of the Japanese recipients of islet transplants developed CJD. Prion bioassays showed that the Liberase HI used to isolate islets for transplantation was free of infectious TSE prions.     

Assessment of Human Islet Isolation With Four Different Collagenases

Background

The isolation of islets from the human pancreas critically depends on the efficiency of the digestive enzymes. Liberase HI had been used as a standard preparation until the issues concerning bovine spongiform encephalopathy. Thus, we must now use other collagenases for clinical islet transplantation, four of which we have evaluated herein.

Methods

The digestion of each of 17 pancreata from brain-dead donors was performed using the following collagenases: Liberase HI (HI; Roche, n = 9); Liberase MTF C/T (MTF; Roche, n = 4); Collagenase NB1 Premium Grade (NB1; Serva, n = 7); or Clzyme Collagenase HA (CI, VitaCyte, n = 4). Islet isolations were based on the Edmonton protocol for HI, whereas our modified islet isolation method was used for the three new enzymes (MTF, NB1, and CI).

Results

There were no significant differences in donor age, body mass index, pancreas size, and cold ischemic time among the four groups. The phase I time in the NB1 group was significantly shorter than in the CI group (P = .0014). The prepurification IEQ/g in the HI group was significantly lower than the others (P = .0003 vs MTF, .0007 vs NB1, and .0009 vs CI, respectively). The postpurification IEQ/g in the MTF group was significantly higher than in the HI group (P = .006). The viability in the NB1 group was significantly greater than the HI group (P = .003).

Conclusion

Three new enzymes (MTF, NB1, and CI) may enable us to obtain higher islet yields than with HI.     

Chapter 2: Source pigs

Abstract: An islet xenotransplantation product includes live cells from a non‐human source, in this study, a pig source. A live product cannot be subjected to conventional disinfection, and therefore the source pig must be depleted of infectious agents that can transmit to the recipient and cause disease. Among other requirements, regulatory guidances specify that donor animals fulfill the designated pathogen‐free (DPF) status. Donor pigs fulfilling DPF status are generally bred and maintained in biosecure facilities, where they are shielded from the outside by filtered air, disinfected water, and irradiated food that is certified free of any mammalian protein. All materials are autoclaved upon entry, and personnel enter by shower‐in/shower‐out, and are wearing special clothes. The operation of such facilities is in compliance with Current Good Manufacturing Practices. To ensure DPF status, pigs are brought into such facilities via Cesarean section, and the source pigs are kept as a closed herd. The DPF status cannot be realized for endogenous viruses, such as porcine endogenous retrovirus. Therefore, regulatory authorities require patient monitoring after xenotransplantation. Considering the infectious pathogen status and necessary regulatory compliance, it is recommended that organ procurement be conducted at the animal facility and that cell manufacturing facilities be located nearby. To enable assessment of as‐yet unknown pathogens long after xenotransplantation, regulatory guidances mandate archiving donor materials for at least 50 yr. As this is essentially a public health issue, governmental institutions are urged to be responsible for the archive.

Table of Contents

• ? Introduction
• ? Designated pathogen‐free status
• ? Biosecure barrier facility
• ? Organ retrieval and islet manufacturing
• ? Alternatives

     

Islet transplantation as safe and efficacious method to restore glycemic control and to avoid severe hypoglycemia after donor organ failure in pancreas transplantation

The aim of this study was to assess safety and efficacy of islet transplantation after initial pancreas transplantation with subsequent organ failure. Patients undergoing islet transplantation at our institution after pancreas organ failure were compared to a control group of patients with pancreas graft failure, but without islet transplantation and to a group receiving pancreas retransplantation. Ten patients underwent islet transplantation after initial pancreas transplantation failed and were followed for a median of 51 months. The primary end point of HbA1c <7.0% and freedom of severe hypoglycemia was met by nine of 10 patients after follow‐up after islet transplantation and in all three patients in the pancreas retransplantation group, but by none of the patients in the group without retransplantation (n = 7). Insulin requirement was reduced by 50% after islet transplantation. Kidney function (eGFR) declined with a rate of ‐1.0 mL ± 1.2 mL/min/1.73 m² per year during follow‐up after islet transplantation, which tended to be slower than in the group without retransplantation (P = .07). Islet transplantation after deceased donor pancreas transplant failure is a method that can safely improve glycemic control and reduce the incidence of severe hypoglycemia and thus establish similar glycemic control as after initial pancreas transplantation, despite the need of additional exogenous insulin.     

Portal Venous Oxygen Persufflation of the Donation after Cardiac Death pancreas in a rat model is superior to static cold storage and hypothermic machine perfusion

Success of clinical pancreatic islet transplantation depends on the mass of viable islets transplanted and the proportion of transplanted islets that survive early ischaemia reperfusion injury. Novel pancreas preservation techniques to improve islet preservation and viability can increase the utilization of donation after cardiac death donor pancreases for islet transplantation. Rat pancreases were retrieved after 30 min of warm ischaemia and preserved by static cold storage, hypothermic machine perfusion or retrograde portal venous oxygen persufflation for 6 h. They underwent collagenase digestion and density gradient separation to isolate islets. The yield, viability, morphology were compared. In vitro function of isolated islets was compared using glucose stimulated insulin secretion test. Portal venous oxygen persufflation improved the islet yield, viability and morphology as compared to static cold storage. The percentage of pancreases with good in vitro function (stimulation index > 1.0) was also higher after oxygen persufflation as compared to static cold storage. Retrograde portal venous oxygen persufflation of donation after cardiac death donor rat pancreases has the potential to improve islet yield.     

Porcine islet isolation outcome is not affected by the amount and distribution of collagen in the pancreas

Hilling DE, Rijkelijkhuizen JKRA, Töns HAM, Terpstra OT, Bouwman E. Porcine islet isolation outcome is not affected by the amount and distribution of collagen in the pancreas.
Xenotransplantation 2010; 17: 250–255. © 2010 John Wiley & Sons A/S. Abstract: Variable islet yields in porcine islet isolation may be caused by the collagen substrate within the pancreas. The aim of the present study was to determine the total amount and distribution of collagen within porcine pancreata and their relationship to islet isolation outcome. A total of 64 juvenile and 76 adult porcine pancreata of eight purebred breeds were histologically examined. The amount of collagen was quantitatively assessed in tissue samples stained with Sirius Red. Collagen distribution was semi‐quantitatively determined by assessing the presence of collagen in the endocrine–exocrine interface and within the islet, in tissue samples stained with Sirius Red and anti‐insulin. Islet isolation was performed in 58 pancreata of the adult group. Total collagen content and islet encapsulation ranged widely in both adult and juvenile pigs. However, the majority of islets in adult and juvenile pigs had no or only a limited collagen capsule. The difference in collagen content between adult and juvenile pigs could not be explained by age. Furthermore, no differences between adult and juvenile pigs were found in islet encapsulation or the amount of intra‐islet collagen. In adult pigs, no significant relationships were found between obtained islet yield and total collagen content, islet encapsulation or amount of collagen within the islet. Considering the limitations in experimental design (staining method) and study material, isolation outcome does not seem to be affected by the total collagen content or collagen distribution. The influence of other matrix elements and collagen subtypes should be investigated.     

Influence of donor age on bovine pancreatic islet isolation

BACKGROUND: Pancreatic islets from pigs are largely used for experimental studies. However, pancreas harvesting requires modification of conventional slaughtering to reduce ischemia time. It has been shown that bovine pancreatic islets can be more easily obtained and they show satisfactory in vitro and in vivo function. To improve the isolation procedure we compared the effect of bovine donor age on islet isolation. METHODS: Islets were isolated by collagenase digestion and sequential sieving from calves (6 months of age) and from adult bovine (> 16 months of age). After isolation the number of islet equivalents was calculated and histological and immunohistochemical studies performed. The purity and viability of islet for each preparation was also estimated. In vitro function of islets was evaluated by static insulin secretion assay, and alginate encapsulated islets were transplanted in streptozotocin-induced diabetic rats for in vivo functional evaluation. RESULTS: A significantly higher number of islets were obtained from calf pancreas, compared with adult bovine pancreas. Hystological examination showed intact morphologic features of islets. The purity of islet preparations was higher from calf pancreas than from adult pancreas. Cell viability, and insulin production in presence of high glucose concentration, were not affected by donor age. All animals receiving microencapsulated islets from calves showed normoglycemia for prolonged periods (17-40 days). CONCLUSIONS: These results indicate that pancreatic islet isolation is more efficient from juvenile bovine than from adult. Calf pancreas is a good and convenient source of tissue for massive islet isolation for experimental studies.     

Histomorphological characteristics of the porcine pancreas as a basis for the isolation of islets of Langerhans

Abstract: Isolation of porcine islets of Langerhans for future clinical xenotransplantation in type I diabetic patients is limited by the difficulty to isolate sufficiently functioning islets and by their particular fragility. Seven domestic pig races and the wild boar were investigated histologically to obtain detailed information on islet profiles, numbers, sizes, and volume density of the endocrine tissue. Theoretically calculated islet numbers were correlated with those obtained after islet isolation. Results: 1) Porcine islets are round, oval, dumbbell-like and triangular, and, as expected, occur in all intermediate profiles. Round and oval islets predominate. These profiles are also detected in crude islet preparations, which indicates that they can withstand the enzymatic digestion process. 2) The total number of islets varies greatly in all eight pig races, with, e.g., the wild boar showing twice as many islets (approx. 500/cm² tissue section) as the minipig (approx. 250/ cm²). 3) The tail of the pancreas, which is usually used for islet isolation, accounts for about 50% of the pancreas mass. 4) The majority of islets, 64.3% (range 59.8–68.9%), of the seven domestic races are 50–100 μm in diameter. With its 86% the wild boar is a remarkable exception. German landrace pigs show the greatest number (2%) of large islets (250 to >300 μm. 5) With 3.4%, German landrace pigs reveal the greatest islet volume density of all pig races (range 2.6–4.2%). 6) Only 25% of all islets are surrounded by a collagen “capsule” that covers >75% of the islet surface. Roughly 33% of all islets are “capsulated” by collagen type I, III, and IV fibers to an extent of <25%. 7) In young pure bred pigs (7–12 month old) only 3.0–10.6% of all theoretically available islets can be isolated during the enzymatic digestion. However, much better islet yields (30.1%) can be obtained from adult hybrid pigs (3 years old) much better islet yields (30.1%) can be obtained than from young hybrid pigs (7.6%). It may be concluded from our results that histological parameters-besides those already known (pH of the isolation medium, trypsin inhibition by Pefabloc-may have a greater influence on porcine pancreatic islet isolation than was assumed so far.     

Islet of Langerhans isolation from pediatric and juvenile donor pancreases

Islet grafts isolated from young donors allow superior functional outcomes but are often associated with poor islet isolation yields. The objective of this study was to comparatively analyze the outcomes of islet isolation between young and older donors. We retrospectively analyzed 564 pancreas isolations performed at our institution. Isolation outcomes were compared between donors aged ≤20 years (n = 42, YD) and >20 years (n = 522, OD). Isolation procedure was identical in both groups. Prepurification percentage of embedded islets was higher in YD (44.3 ± 22.7% vs. 24.9 ± 20.9%, P < 0.001). This led to a lower recovery rate in YD (48% vs. 76%, P = 0.002) and hence lower postpurification IEQ/g pancreas in YD (2 412 ± 1 789 IEQ/g vs. 3 194 ± 1 892 IEQ/g, P = 0.01). Final yield was 180 982 ± 128 073 IEQ in YD and 244 167 ± 134 137 IEQ in OD, (P = 0.006). In vitro function was markedly, albeit nonsignificantly, higher in YD (SI: 4.5 ± 5.1 vs. 3.0 ± 5.7, P = 0.350). Proportion of transplanted preparations was similar in both groups, 38% (16/42) in YD vs. 43% (224/522) in OD, P = 0.628. In spite of isolation and purification difficulties, pancreases from young donors allowed similar islet transplantation rates as older donors. Efforts should be directed at improving islet extraction in these donors to realize their full potential for islet transplantation.     

Experimental islet isolation in porcine pancreas with new enzyme Liberase PI

The aim of this study was to investigate the results of 20 consecutive porcine islet isolations using a new enzyme Liberase PI. Twenty pancreata were procured for islet isolation, which was performed using modified Ricordi's method with Liberase PI. Quantitation of islet viability staining, insulin stimulation assay, intracellular insulin content/DNA, and in vivo transplantability into diabetic nude mice were examined for quality control. The results were compared between a high-yield group (>2500 IEQ/g pancreas) and a low-yield group (<2500 IEQ/g pancreas). Sufficient amount of purified islets (3000 IEQ/g pancreas) were obtained using the new brand enzyme Liberase PI. These islets showed good quality in structure and functions, which were demonstrated by in vitro and in vivo standard assays. Isolation index (IEQ/number) of the low-yield group was lower than that of high-yield group (0.75 vs 0.86), which means more fragmentation of islets in the low-yield group. There were no differences in function between the two groups. In conclusion, we obtained sufficient numbers of viable, functional islets from porcine pancreas using a new brand enzyme Liberase PI and low-temperature isolation technique. However, overdigestion of islets during the isolation remains to be overcome. Advance in porcine islet isolation technique will in the future make the porcine islet xenotransplantation a reality for the cure of diabetes mellitus.