Pulsatile pump perfusion of pancreata before human islet cell isolation

Machine pulsatile perfusion for whole pancreas preservation might improve yield, viability, and function of human islets recovered after prolonged cold ischemia times. Four human pancreata were procured from cadaver donors (1 non-heart-beating donor) and stored in cold University of Wisconsin (UW) solution for a mean 13 hours prior to placement on a machine pulsatile perfusion device. The four pancreata were perfused for 4 hours with UW solution before undergoing islet isolation. Islets were quantified, viability was assessed, and insulin secretion was measured. Results were compared with nonpumped islet isolations stratified for cold ischemia time (CIT) <8 hours or cold ischemia time >8 hours. The islet yield for the four pumped pancreata was 3435 (+/-1951) islet equivalents/gram pancreas tissue (IEQ/g), compared with a mean yield of 5134 (+/-2700) IEQ/g and 2640 (+/-1000) IEQ/g from pancreas with <8 hours and >8 hours CIT, respectively. The mean viability after machine pulsatile perfusion was 86% (vs 74% and 74% for the <8 hour and >8 hour CIT groups). The mean viable yield (total yield x viability) was 2937 IEQ/g for machine perfusion, compared with 3799 IEQ/g and 1937 IEQ/g from pancreata with <8 hours and >8 hours CIT, respectively. The insulin secretion index of islets after machine perfusion was 6.4, compared with indices of 1.9 and 1.8 for the <8 hour and >8 hour CIT groups. This preliminary data indicates that low-flow machine pulsatile perfusion of pancreata with prolonged cold ischemia time can result in excellent yield, viability, and function.     

Influence of pancreas preservation on human islet isolation outcomes: impact of the two-layer method

BACKGROUND: Human pancreas preservation for islet transplantation holds additional challenges and considerations compared with whole pancreas transplantation. The purpose of this study was to clarify the limitations of the University of Wisconsin (UW) solution and the potentials of the two-layer method (TLM) for pancreas preservation before human islet isolation. METHODS: We retrospectively evaluated human islet isolation records between January 2001 and February 2003. One hundred forty-two human pancreata were procured from cadaveric donors and preserved by means of the UW solution (n=112) or TLM (n=30). Human islet isolations were performed using a standard protocol and assessed by islet recovery and in vitro function of islets. RESULTS: Eight to ten hours of cold ischemia in the UW solution is a critical point for successful islet isolations. It is difficult to recover a sufficient number of viable islets for transplantation from human pancreata with more than 10 hours of cold storage in the UW solution. The overall islet recovery in the TLM group was significantly higher than in the UW group. With 10 to 16 hours of cold storage, the success rates of islet isolations remained at 62% in the TLM group but decreased to 22% in the UW group. Transplanted islets in the TLM group worked well in the recipients. CONCLUSIONS: There are time limitations for using the UW solution for pancreas preservation before human islet isolation. The TLM is a potential method to prolong the optimal cold storage time for successful islet isolations.     

A comparison of cold storage solutions for pancreas preservation prior to islet isolation

BACKGROUND: Several solutions are used to preserve the pancreas prior to islet isolation. This study sought to assess whether the type of solution had an impact on the isolation outcome. METHODS: We reviewed data from 125 islet isolation procedures performed from January 2002 to January 2005. Pancreata were preserved in University of Wisconsin (UW) (n = 101), Celsior (CS) (n = 19), or IGL-1 (n = 5) solutions. Islet isolation results and transplantation rates were compared between groups. RESULTS: UW, CS, and IGL-1 groups were similar according to donor's age, weight, and body mass index. Weight of undigested pancreas was 20 +/- 13.1, 21.4 +/- 15.7, and 17.4 +/- 8.7 g for UW, CS, and IGL-1, respectively (P > .2). Final total number of IEQ was 267,000 +/- 132,000, 277,000 +/- 155,000, and 311,000 +/- 163,000, respectively (P > .4). Success rate (defined as >250,000 IEQ) was 55.5%, 52.9%, and 60% for UW, Celsior, and IGL-1 (P > .9); the transplantation rate was 42.2% for UW, 36.8% for Celsior, and 80% for IGL-1 preservation (P > .2). CONCLUSIONS: In this preliminary study, UW, Celsior, and IGL-1 solutions demonstrated similar islet isolation results. The new IGL-1 solution appears promising.     

Two-layer method in short-term pancreas preservation for successful islet isolation

BACKGROUND: We sought to determine whether the two-layer method (TLM) offers advantages over UW storage solution for locally procured pancreata with cold ischemia time of <8 hours for successful islet isolation. METHODS: From October 2003 through February 2005, 22 human pancreata were procured locally from cadaveric donors and preserved using UW solution (n = 11) or TLM (n = 11). RESULTS: Donor characteristics were similar in the two groups, with no statistical difference. Cold ischemia time was 4.5 +/- 0.6 (2.5 to 8) hours in the UW and 5.1 +/- 0.5 (3 to 8) hours in TLM group (P > .05). Organs preserved with TLM were exposed to PFC for 4 +/- 0.5 (2 to 7.5) hours. After TLM preservation, 8 of 11 (72%) pancreata yielded >300,000 IEQ pancreatic islets, which met all criteria for clinical transplantation; after UW cold storage, only 3 of 11 isolations were equally successful (27%) (P < .05). Mean IEQ was higher in the TLM than in the UW group: 349,000 +/- 37,000 vs 277,800 +/- 34,000; IEQ/g was also higher at 5100 +/- 760 vs 3000 +/- 570, respectively (P < .05). Islet quality, characterized by purity, viability, and insulin SI, did not differ statistically in the two groups: 67 +/- 4 vs 74 +/- 4%, 87 +/- 2 vs 83 +/- 4%, and 4 +/- 0.7 vs 4.8 +/- 1, respectively (P > .05). CONCLUSIONS: The Two Layer Method for locally procured human pancreata with cold ischemia time lower than 8 hours offers significant advantage over UW cold storage increasing the pancreatic islet isolation yield and the isolation success rate.     

Testing combinations of protease inhibitor and preservation solution to improve islet quality and yield

Pancreas preservation using an oxygenated two-layer method (TLM) has been reported to improve islet yields, as has supplementation of Liberase with Pefabloc. We hypothesized that using both TLM and Pefabloc could enhance islet yield as compared with preservation in University of Wisconsin (UW) or Histidine-Tryptophan Ketoglutarate (HTK) solution. METHODS: Ninety-eight pancreata with no significant differences of age, body mass index, or cold ischemia time preserved randomly with UW (n = 40), TLM (n = 48), or HTK (n = 10) were processed with (n = 36) or without (n = 66) Pefabloc. RESULTS: The total islet equivalent (IEQ) from TLM-preserved pancreata processed with Pefabloc (n = 12) showed lower yields versus those processed without Pefabloc (n = 36): 216,120 +/- 27,906 vs. 301,427 +/- 21,447 IEQ (P < .05). Islets from 1 of 12 (8.33%) pancreata processed with Pefabloc in TLM were transplanted, in contrast with 15/36 TLM (41.67%) pancreata processed without it. Islet yields were not significantly different among pancreata preserved in UW and processed with Pefabloc (n = 17) versus without Pefabloc (n = 23): 342,693 +/- 45,588 versus 266,609 +/- 29,006 IEQ (P = .149). The number of transplants from UW-preserved pancreata was 3/17 (17.65%) when processed with Pefabloc and 4/23 (17.39%) without. Among the HTK group, there was no significant difference in islet yields between pancreata processed with (n = 7) versus without Pefabloc (n = 3): 248,227 +/- 65,294 versus 483,555 +/- 144,070 IEQ (P = .118). CONCLUSIONS: Pefabloc showed no benefit to improve islet yields. Pancreata preserved in TLM provided better transplant quality islets when processed in the absence of Pefabloc.     

Adaption of neutral protease activity for islet isolation from the long-term two-layer method-stored pig pancreas

BACKGROUND: Islet release from the pancreas is mediated by both collagenase and neutral protease (NP), a critical effector of islet integrity. To prove the hypothesis that adjustment of NP reduces islet damage after prolonged ischemia, adult pig pancreata were digested after 7-hour preservation by the two-layer method (TLM) using a 2-component enzyme blend consisting of collagenase NB-8 and NP. METHODS: After intraductal University of Wisconsin (UW) flush resected pancreata were distended with 4.4 PZ-U/g of UW-dissolved Serva collagenase either before (TLM-preloaded, n = 7) or after (TLM-postloaded, n = 10) cold storage, or for immediate processing (n = 6). NP was adjusted after preliminary experiments to respectively 1.1, 0.2, or 0.8 DMC-U/g for unstored, TLM-preloaded, or postloaded organs. RESULTS: Purified islet yield decreased from 3670 +/- 730 islet equivalents (IEQ)/g in unstored pancreata to 1800 +/- 180 and 2080 +/- 290 IEQ/g in TLM-preloaded or postloaded organs, respectively (P < .05). Although purity was always >90%, IEQ recovery was significantly decreased in TLM-preloaded pancreata. Quality control revealed consistently high viability as determined using trypan-blue exclusion (>95%) or formazan production. Compared with unstored organs (2.47 +/- 0.36; P < .05), glucose stimulation index was reduced in TLM-preloaded (1.48 +/- 0.15) and TLM-postloaded pancreata (1.81 +/- 0.20). Normoglycemia in diabetic nude mice transplanted with islets from TLM-preloaded pancreata was transient in contrast to sustained function in the other groups. CONCLUSIONS: Significant amounts of viable pig islets can be isolated after prolonged TLM preservation by reducing NP activity. Nevertheless, early enzyme administration prior to long-term storage deteriorates islet graft function.     

Pancreas preservation with University of Wisconsin and Celsior solutions: a single-center, prospective, randomized pilot study

BACKGROUND: Celsior is an extracellular-type, low-viscosity, preservation solution already used for heart, lung, liver, and kidney transplantation. We report the results of a single-center, prospective, randomized pilot study specifically designed to compare the safety profile of Celsior solution with University of Wisconsin (UW) solution in clinical pancreas transplantation. METHODS: A total of 105 consecutive procurements were randomized to graft preservation with UW (n=53) solution or Celsior (n=52) solution. The groups were comparable with regard to all donor and recipient characteristics. RESULTS: Five grafts were discarded and 100 grafts (50 UW vs. 50 Celsior) were transplanted. Mean cold and warm ischemia times were 11.0 +/- 2.1 hr and 37.2 +/- 6.0 min for UW compared with 10.8 +/- 1.8 hr and 38.1 +/- 5.9 min for Celsior (P =not significant). Delayed endocrine pancreas function was recorded in one graft preserved with UW solution. Eleven recipients (UW 12% vs. Celsior 10%, P =not significant) required a relaparotomy. The mean serum levels of glucose, amylase, and lipase remained comparable between the study arms at equivalent intervals after transplantation. One recipient died with functioning grafts in each study arm; two further grafts were lost to arterial thrombosis (Celsior) and chronic rejection (UW), respectively. Actuarial 1-year patient and graft survival rates overlapped in the two study arms (98% and 96%, respectively). CONCLUSIONS: Within the range of cold ischemia time reported in this study, UW and Celsior solutions have similar safety profiles for pancreas preservation.     

Short-term storage of the ischemically damaged human pancreas by the two-layer method prior to islet isolation

A two-layer cold storage method (TLM) allows sufficient oxygen delivery to pancreata during preservation and resuscitates the viability of ischemically damaged pancreata in the canine pancreas transplant model. In this study, we applied a short-term preservation of the TLM to human pancreata after prolonged cold ischemia prior to islet isolation, and investigated the mechanisms of resuscitation of the ischemically damaged human pancreas by the TLM. Human pancreata were procured from cadaveric donors and preserved by the TLM for 3.2 +/- 0.5 h after 11.1 +/- 0.9 h of cold storage in UW (TLM group), or by cold UW alone for 11.0 +/- 0.3 h (UW group). Islet isolations of all pancreata were performed using the Edmonton protocol. Islet recovery and in vitro functional viability of isolated islets were significantly increased in the TLM group compared with the UW group. According to the criteria of the Edmonton protocol, 10/14 cases (71%) in the TLM group were transplanted to patients with type I diabetes mellitus compared with only 5/21 cases (24%) in the UW group. In the metabolic assessment of human pancreata, levels of energetic parameters (ATP, total adenylates, and energy charge) were significantly increased, and malondialdehyde (MDA) levels were significantly decreased after the TLM preservation. There was no observable change in the incidence or degree of mitochondrial injury after the TLM preservation. Additional short-term storage by the TLM resuscitates the ischemically damaged human pancreas by regenerating the energetic status and prevents further damage by oxidative stress, ultimately leading to improvements of islet recovery and in vitro function. Use of the TLM following prolonged storage in UW provides an excellent adjunctive protocol for treating human pancreata for the rigors of the islet isolation process.     

Pancreas preservation with University of Wisconsin and Celsior solutions

BACKGROUND: Although the use of Celsior has been recently described for heart, lung, liver, and kidney transplantation, no data are available on its use for clinical pancreas preservation. METHODS: We herein describe the results of 112 pancreas transplants preserved with either University of Wisconsin (UW; (n = 56) or Celsior (n = 56) solution at two Italian transplant centers. The groups were comparable with regard to all donor and recipient characteristics. RESULTS: Mean cold and warm ischemia times were 10.1 +/- 2.2 hours and 37.2 +/- 8.2 minutes for UW compared to 10.8 +/- 2.4 hours and 38.3 +/- 6.7 minutes for Celsior (P = NS). Delayed endocrine pancreas function was recorded in two UW-preserved grafts (3.6%). Actuarial 1-year patient survival was 94.6% for UW as compared with 100% for Celsior (P = NS). Equivalent graft survival figures were 91.0% for UW as compared with 96.4% for Celsior (P = NS). CONCLUSIONS: Within the range of cold ischemia times reported in this study, UW and Celsior solutions have similar safety profiles for pancreas transplantation.     

Analysis on donor and isolation-related factors of successful isolation of human islet of Langerhans from human cadaveric donors

We analyzed the preexisting donor factors and isolation variables that affected isolation of human islets of Langerhans. Sixty-nine pancreata from cadaveric donors were analyzed for donor factors of age, gender, body mass index, cause of death as well as graft factors of cold ischemia time, pancreas status, distensibility during intraductal collagenase distension and time of collagenase expansion and digestion. Islet isolations that recovered >100,000 IEQ (n = 53) were compared to those generating less than 100,000 IEQ (n = 16) to analyze the factors affecting islet yield during donor harvest and isolation procedures. The mean islet recovery was 216.0 x 10(3) (IEQ) or 2840 (IEQ) per gram of pancreas. Mean purity was 54%. The success rate of islet isolation was 76%. Mean age was 31 years, and mean cold ischemia time was 6.9 hours. In univariate analysis, the status of the pancreas was the only significant factor for successful isolation, and gender, time of collagenase expansion and digestion were marginal factors. In stepwise multivariate logistic regression analysis of donor and isolation-related factors, donor gender, pancreas status and digestion time were significant factors. During the same period we performed three cases of clinical islet allotransplantation and one autotransplantation. This study confirmed that the same donor factors and variables in the isolation process can affect the ability to obtain successful human islet isolation. Enough experience and pertinent review of donor and isolation factors can make islet isolation consistent, supporting clinical islet transplantation without unnecessary cost.     

The effect of Celsior solution on 12-hour cardiac preservation in comparison with University of Wisconsin solution

BACKGROUND: Celsior is a new extracellular-type preservation solution which has been developed to act not only as a storage medium but also as a perfusion fluid during initial donor heart arrest, poststorage graft reimplantation and early reperfusion. We designed this experimental study to evaluate the effect of the Celsior solution in comparison with the University of Wisconsin solution from the viewpoint of energy depletion. METHODS: Adult mongrel dogs weighing 9 to 13 kg were divided into two groups. In the UW group (n=7), a 4 degrees C University of Wisconsin solution was used for coronary vascular washout and storage following cardiac arrest using a glucose-insulin-potassium solution. In the Celsior group (n=7), the Celsior solution was used to obtain cardiac arrest, coronary vascular washout and storage. High energy phosphate levels and myocardial pH were measured using (31)P-nuclear magnetic resonance spectroscopy immediately after preservation and at 3, 6 and 12 hours after preservation. After 12-hour cold storage, left ventricular free wall tissues were harvested for histological examination. RESULTS: High energy phosphate levels and myocardial pH were significantly better preserved in the Celsior group than in the UW group. In the histological findings, glycogen granules were preserved well in the Celsior group. CONCLUSIONS: We conclude from our study that the Celsior solution is comparable to the University of Wisconsin solution for use in 12-hour heart preservation in canine models.     

Human islet transplantation from pancreases with prolonged cold ischemia using additional preservation by the two-layer (UW solution/perfluorochemical) cold-storage method

BACKGROUND: A two-layer (University of Wisconsin solution/perfluorochemical [UW/PFC]) cold-storage method delivers sufficient oxygen to the pancreas during preservation and restores the ischemically damaged pancreas. In this study, we determined whether the additional preservation by the two-layer method could improve islet recovery from human pancreases with prolonged cold storage in UW. METHODS: Human pancreases were procured from cadaveric organ donors and preserved by the two-layer method (UW/PFC) for 2.9+/-0.7 hours (mean+/-SEM) at 4 degrees C after 11.8+/-1.5 hours of cold storage in UW (UW/PFC group, n=7), or by cold UW alone for 11.3+/-0.3 hours (UW group, n=14). The selected pancreases met the criteria of having at least 10 hours of cold storage in UW. All were processed by using a standard protocol of Liberase perfusion with Pefabloc by way of the duct, gentle mechanical dissociation, and Ficoll gradient purification. Transplanted islets were selected with the criteria of the Edmonton protocol (>5,000 islet equivalents [IE]/kg recipient body weight). RESULTS: The islet recovery was significantly increased in the UW/PFC group compared with the UW group (349.2+/-44.1 x 10 and 214.0+/-31.0 x 10 IE, respectively; <0.05). This resulted in islet yields of 4.6+/-1.0 x 10 IE/g of pancreas in the UW/PFC group compared with 2.0+/-0.3 x 10 IE/g of pancreas in the UW group ( <0.05). Five of 7 cases (71%) in the UW/PFC group and 5 of 14 cases (36%) in the UW group were transplanted. The islet grafts in the UW/PFC group improved the ability of glycemic control and decreased exogenous insulin administration in all recipients. CONCLUSIONS: Improvements in methods to preserve and recover ischemically damaged human pancreases before islet isolation and transplant could be extremely beneficial to the field of clinical islet transplantation. This preliminary study shows that additional short preservation by the two-layer (UW/PFC) cold-storage method can significantly improve islet recovery and increase opportunities of islet transplantation from human pancreases after prolonged cold ischemia.     

Comparison of modified Celsior solution and M-kyoto solution for pancreas preservation in human islet isolation

Since the successful demonstration of the Edmonton protocol, islet transplantation has advanced significantly on several fronts, including improved pancreas preservation systems. In this study, we evaluated two different types of organ preservation solutions for human islet isolation. Modified Celsior (Celsior solution with hydroxyethyl starch and nafamostat mesilate; HNC) solution and modified Kyoto (MK) solution were compared for pancreas preservation prior to islet isolation. Islet yield after purification was significantly higher in the MK group than in the HNC group (MK = 6186 ± 985 IE/g; HNC = 3091 ± 344 IE/g). The HNC group had a longer phase I period (digestion time), a higher volume of undigested tissue, and a higher percentage of embedded islets, suggesting that the solution may inhibit collagenase. However, there was no significant difference in ATP content in the pancreata or in the attainability of posttransplant normoglycemia in diabetic nude mice between the two groups, suggesting that the quality of islets was similar among the two groups. In conclusion, MK solution is better for pancreas preservation before islet isolation than HNC solution due to the higher percentage of islets that can be isolated from the donor pancreas. MK solution should be the solution of choice among the commercially available solutions for pancreatic islet isolation leading to transplantation.     

A comparative study of Celsior and University of Wisconsin solutions based on 12-hr preservation followed by transplantation in canine models

BACKGROUND: Celsior is a recently developed extracellular-type preservation solution that is effective in organ preservation. This experimental study was designed to compare the effects of Celsior and University of Wisconsin (UW) solutions in myocardial protection, using 12-hour preservation followed by orthotopic transplantation. METHODS: Fourteen pairs of adult mongrel dogs were divided into 2 groups. In the UW group (n = 7), UW solution at 4 degrees C was used for coronary vascular washout and storage following cardiac arrest with glucose-insulin-potassium (GIK) solution. In the Celsior group (n = 7), Celsior solution was used to produce cardiac arrest, for coronary vascular washout, and for storage. After 12-hour cold preservation, orthotopic transplantation was performed under cardiopulmonary bypass (CPB). The rate of recovery (%) of cardiac function of donor hearts was compared 1 and 2 hours after weaning from CPB, and then the transplanted hearts were harvested for histological study. RESULTS: Hemodynamic parameters including cardiac output, left ventricular pressure (LVP), and the maximum rates of positive and negative increase of LVP after transplantation were significantly (p < 0.05) higher in the Celsior group than in the UW group 2 hours after weaning from CPB. The transmission electron microscopic study found that degeneration of the mitochondria in the Celsior group was less extensive than in the UW group. CONCLUSION: Celsior solution enhanced the cardiac function of hearts preserved for 12 hours prior to transplantation compared to UW solution. Our results indicate that Celsior solution is equivalent or superior to UW solution for cardiac preservation.     

Modified Two-Layer Preservation Method (M-Kyoto/PFC) Improves Islet Yields in Islet Isolation

Islet allotransplantation can achieve insulin independence in patients with type I diabetes. Recent reports show that the two-layer method (TLM), which employs oxygenated perfluorochemical (PFC) and UW solution, is superior to simple cold storage in UW for pancreas preservation in islet transplantation. However, UW solution has several disadvantages, including the inhibition of Liberase activity. In this study, we investigated the features of a new solution, designated M-Kyoto solution. M-Kyoto solution contains trehalose and ulinastatin as distinct components. Trehalose has a cytoprotective effect against stress, and ulinastatin inhibits trypsin. In porcine islet isolation, islet yield was significantly higher in the M-Kyoto/PFC group compared with the UW/PFC group. There was no significant difference in ATP content in the pancreas between the two groups, suggesting that different islet yields are not due to their differences as energy sources. Compared with UW solution, M-Kyoto solution significantly inhibited trypsin activity in the digestion step; moreover, M-Kyoto solution inhibited collagenase digestion less than UW solution. In conclusion, the advantages of M-Kyoto solution are trypsin inhibition and less collagenase inhibition. Based on these data, we now use M-Kyoto solution for clinical islet transplantation from nonheart-beating donor pancreata.     

Comparison of histidine-tryptophan ketoglutarate and University of Wisconsin solutions as primary preservation in renal allografts undergoing pulsatile perfusion

INTRODUCTION: University of Wisconsin (UW) solution is the standard preservation solution for organ transplantation. Histidine-tryptophan ketogluatarate (HTK) solution has been used increasingly for kidney, pancreas, and liver transplantation. This study compared HTK and UW used during kidney procurement with subsequent pulsatile perfusion. METHODS: Between January and October 2003, 91 deceased renal and simultaneous kidney pancreas transplants were performed (UW, n = 41, and HTK, n = 50). There were no differences with regard to donor and recipient demographics or cold ischemia. RESULTS: Delayed graft function occurred in 3 (7%) of UW and 4 (8%) of HTK-preserved kidneys (P = NS). There were no significant differences between patient or graft survival. There was an anticipated difference between total preservative volumes used (HTK: 4.1 +/- 1.0 vs UW: 3.0 +/- 0.5; P < .005). CONCLUSION: UW and HTK appear to have similar efficacy in kidney preservation with pulsatile perfusion. HTK preservation solution can be used safely in conjunction with pulsatile preservation for cold storage of renal allografts.     

Machine perfusion preservation of the pig liver using a new preservation solution, polysol

INTRODUCTION: The current gold standard for donor liver preservation is cold storage in a preservation solution (4 degrees C), such as Celsior or the University of Wisconsin solution (UW). Recent studies have suggested the benefits of machine perfusion (MP) over cold storage. To improve the results of MP, an enriched preservation solution (named Polysol) was developed, which in a rat liver preservation model proved to be superior to the UW-gluconate solution. The aim of this study was to assess Polysol in a pig liver preservation model. MATERIALS AND METHODS: Female pigs (35 to 40 kg) were used as liver donors. After heparinization, the liver was washed out using Ringer's lactate, followed by the preservation solution (4 degrees C). The liver was preserved for 24 hours by either cold storage using Celsior (n=5) or MP using Polysol (n=5). For analysis of liver damage and function, livers were reperfused for 60 minutes using oxygenated Krebs-Henseleit buffer. RESULTS: CS-Celsior caused significantly more damage compared with MP-Polysol (t=60, AST: 622+/-215 versus 222+/-55; ALT: 17+/-6 versus 5+/-1). Intravascular resistance during reperfusion was significantly higher after CS-Celsior compared with MP-Polysol (t=0, 0.20+/-0.01 and 0.11+/-0.02 mm Hg/mL/min, respectively). No differences were seen regarding ammonia clearance and urea production. In both groups, no bile was produced during reperfusion. CONCLUSIONS: In an ex vivo pig liver preservation model significantly less damage was observed after machine perfusion preservation using Polysol, in comparison to cold storage using Celsior.     

Successful pancreas preservation by a perfluorocarbon-based one-layer method for subsequent pig islet isolation

BACKGROUND: The oxygenation of human pancreas by the two-layer method (TLM) during cold storage was recently established for clinical islet transplantation. Simplification of TLM would facilitate the application of perfluorocarbon (PFC) as a regularly used preservation solution for subsequent islet transplantation. The present study examined whether PFC can be used in a one-layer method (OLM) for long-term pancreas preservation before isolation of adult pig islets. METHODS: Resected pancreases were intraductally flushed with cold University of Wisconsin solution and immediately processed (n=6) or subjected to 7-hour storage by OLM (n=8) or TLM (n=10). Subsequently, pancreases were intraductally distended with collagenase NB-8 supplemented with neutral protease. Isolation and purification were performed as previously described. RESULTS: Compared with unstored pancreases (3,670+/-740 islet equivalents [IEQ]) purified islet yield in TLM-stored organs (2,080+/-290 IEQ, P<0.05) was significantly decreased in contrast with OLM-preserved pancreases (3,110+/-520 IEQ, NS). No differences were observed between groups regarding purity (>90%), trypan-blue exclusion (>95%), adenosine triphosphate content, and mitochondrial viability of islets. Stimulation index during static glucose incubation (20 vs. 2.8 mm) was decreased after storage by TLM (1.81+/-0.20, P<0.05) but not by OLM (2.27+/-0.57) if compared with unstored pancreases (2.47+/-0.36). However, transplantation into diabetic nude mice resulted in sustained normoglycemia of recipients of either group until nephrectomy of graft-bearing kidneys was performed. CONCLUSIONS: This study demonstrates that PFC alone can be used in a one-layer procedure for successful pig-pancreas preservation. This simplification can facilitate the broad application of PFC as pancreas preservation solution without reducing its benefits demonstrated by TLM.     

Resuscitation of the ischemically damaged human pancreas by the two-layer method prior to islet isolation

A two-layer cold storage method (TLM) allows sufficient oxygen delivery to pancreata during preservation and resuscitates the viability of ischemically damaged pancreata. This study determined the effect of additional preservation of ischemically damaged human pancreata by the TLM before islet isolation. Human pancreata were procured from cadaveric organ donors and preserved by the TLM for 3.2 +/- 0.5 hours (mean +/- SEM) at 4 degrees C after 11.1 +/- 0.9 hours of cold storage in University of Wisconsin solution (UW) (TLM group), or by cold UW alone for 11.0 +/- 0.3 hours (UW group). Islet isolations of all pancreata were performed using the Edmonton protocol. Islet recovery and in vitro function of isolated islets were significantly increased in the TLM group compared with the UW group. In the metabolic assessment of human pancreata, ATP levels were significantly increased after the TLM preservation. This study showed that additional short-term preservation by the TLM resuscitates the viability of ischemically damaged human pancreata before islet isolation, leading to improvements in islet recovery and in vitro function of isolated islets.