Celsior Versus University of Wisconsin Preserving Solutions for Liver Transplantation: Postreperfusion Syndrome and Outcome of a 5-Year Prospective Randomized Controlled Study

Background

Celsior solution (CS) is a high-sodium, low-potassium, low-viscosity extracellular solution that has been used for liver graft preservation in recent years, although experience with it is still limited. We performed an open-label randomized active-controlled trial comparing CS with the University of Wisconsin solution (UW) for liver transplantation (LT), with a follow-up period of 5?years.

Methods

Adult transplant recipients (n?=?102) were prospectively randomized to receive either CS (n?=?51) or UW (n?=?51). The two groups were comparable with respect to donor and recipient characteristics. The primary outcome measure was the incidence of postreperfusion syndrome (PRS). Secondary outcome measures included primary nonfunction (PNF) or primary dysfunction (PDF), liver retransplantation, and graft and patient survival. Other secondary outcome measures were days in the intensive care unit (ICU) and the rates of acute rejection, chronic rejection, infectious complications, postoperative reoperations, and vascular and biliary complications.

Results

In all, 14 posttransplant variables revealed no significant differences between the groups. There were no cases of PNF or PDF. The incidence of PRS was 5.9% in the CS group and 21.6% in the UW group (P?=?0.041). After reperfusion, CS revealed greater control of serum potassium (P?=?0.015), magnesium levels (P?=?0.005), and plasma glucose (P?=?0.042) than UW. Respective patient survivals at 3, 12, and 60?months were 95.7, 87.2, and 82.0% for the CS group and 95.7, 83.3, and 66.6% for the UW group (P?=?0.123).

Conclusions

While retaining the same degree of safety and effectiveness as UW for LT, CS may yield postliver graft reperfusion benefits, as shown in this study by a significant reduction in the incidence of PRS and greater metabolic control.     

Comparison of HTK- and UW-solution for liver preservation tested in an orthotopic liver transplantation model in the pig

The aim of this experimental study was to compare the preservation potency of University of Wisconsin (UW) and HTK (Bretschneider) solutions in an orthotopic liver transplantation (OLT) model in pigs. Livers were harvested using an in situ perfusion technique, where organs were flushed with the solution being tested, stored on ice — cold storage (CS) — for 2 or 24 h and then transplanted. Parameters monitored were liver enzymes in serum, hepatic water content, high energy phosphates, nuclear magnetic resonance (NMR) relaxation time T2, light microscopy and bile production. CS for 24 h is an extreme in pig liver preservation and is not compatible with animal survival. Biopsies showed drastic morphological changes and grafts did not produce bile in either group. (Bile production 2 h CS: HTK, 5.6 ± 1.8 ml/h; UW, 4.7 ± 2.3 ml/h) Enzyme release after reperfusion (ASGOT, ?LDH) was higher in long-term preservation. Hepatic tissue water content significantly decreased during CS in UW preserved livers. Edema alter reperfusion (?H₂0: HTK 24 h = + 5.6%, UW 24 h= + 4.8%) and regeneration capacity after reperfusion (UW 2 h = 63%, HTK 2 h = 55%, UW 24 h = 30%, HTK 24 h = 30%) were not significantly different. However, we did not observe major differences in preservation potency between the solutions tested. Differences were correlated, rather, with length 9 time of CS, than with the solution used. Therefore, HTK solution seemed to be a low potassium containing alternative to UW solution.     

Liver Transplantation Using University of Wisconsin or Celsior Preserving Solutions in the Portal Vein and Euro-Collins in the Aorta

Introduction

Orthotopic liver transplantation (OLT) is today the gold standard treatment of the end-stage liver disease. Different solutions are used for graft preservation. Our objective was to compare the results of cadaveric donor OLT, preserved with the University of Wisconsin (UW) or Celsior solutions in the portal vein and Euro-Collins in the aorta.

Methods

We evaluated retrospectively 72 OLT recipients, including 36 with UW solution (group UW) and 36 with Celsior (group CS). Donors were perfused in situ with 1000 mL UW or Celsior in the portal vein of and 3000 mL of Euro-Collins in the aortia and on the back table managed with 500 mL UW or Celsior in the portal vein, 250 mL in the hepatic artery, and 250 mL in the biliary duct. We evaluated the following variables: donor characteristics, recipient features, intraoperative details, reperfusion injury, and steatosis via a biopsy after reperfusion. We noted grafts with primary nonfunction (PNF), initial poor function (IPF), rejection episodes, biliary duct complications, hepatic artery complications, re-OLT, and recipient death in the first year after OLT.

Results

The average age was 33.6 years in the UW group versus 41 years in the CS group (P = .048). There was a longer duration of surgery in the UW group (P = .001). The other recipient characteristics, ischemia-reperfusion injury, steatosis, PNF, IPF, rejection, re-OLT, and recipient survival were not different. Stenosis of the biliary duct occured in 3 (8.3%) cases in the UW group and 8 (22.2%) in the CS (P = .19) with hepatic artery thrombosis in 4 (11.1%) CS versus none in the UW group (P = .11).

Conclusion

Cadaveric donor OLT showed similar results with organs preserved with UW or Celsior in the portal vein and Euro-Collins in the aorta.     

Comparison of solutions for preservation of the rabbit liver as tested by isolated perfusion

The University of Wisconsin (UW) solution consists of a relatively complex mixture of agents. In this study we compared simpler preservation solutions, namely, histidine-tryptophan-ketoglutarate glutarate (HTK) and phosphatebuffered sucrose (PBS) with different compositions of UW solution in the isolated perfused rabbit liver model. Livers were stored cold for 24 and 48 h. After 24 h of preservation, the amount of bile produced in UW-preserved livers was significantly greater (P<0.05) than that in HTK-preserved livers. Also, there was less LDH released into the perfusate in UW-preserved livers. There was more edema and lower K+/Na+ rations in HTK-preserved livers than in UW-preserved livers (all data P<0.05). After 48 h of preservation, the differences between livers preserved in UW or HTK solution were less noticeable than at 24 h and bile production was similar. LDH and AST release were greater in HTK-preserved livers than in UW livers, but these differences were not statistically significant. Preservation in PBS for 48 h was worse than in either UW or HTK solution. Substitution of polyethylene glycol (PEG) for hydroxyethyl starch (HES) in 48-h UW-preserved livers was not effective. We conclude that solutions simpler in composition than UW solution may be effective in kidney transplantation but do not appear suitable for successuful liver preservation.     

Randomized Clinical Assay for Hepatic Grafts Preservation With University of Wisconsin or Histidine-Tryptophan-Ketoglutarate Solutions in Liver Transplantion

University of Wisconsin (UW) solution has been the standard for preservation of liver transplantation grafts since 1989. However, some studies demonstrated that histidine-tryptophan-ketoglutarate (HTK) solution is also effective. The purpose of this study was to compare the efficacy of both solutions in liver transplantation. From January 2003 to August 2004 the livers of deceased donors were randomized into HTK and UW groups. The 102 studied patients included 65 (63.7%) in the UW group and 37 (36.3%) in the HTK group. Sex, race, hemodynamic state, use of adrenergic drugs, and presence of steatosis in the donor were similarly distributed in the two groups (P > .05). The mean age of the donors was 38.1 years (SD ±14.4) in the UW group and 44.6 years (SD ±14.2) in the HTK cohort (P = .036). Sex, race, age, etiology of the cirrhosis, retransplant, acute liver failure, portal thrombosis, and Child-Pugh and MELD scores in the recipients were similarly distributed in the two recipient samples (P > .05). Among 89 patients who completed 4 months of follow-up, the HTK group included eight cases (25.8%) of biliary complications versus five cases (8.6%) in the UW group (P = .033; OR = 2.0 95% CI = 1.2-3.5). The incidence of graft dysfunction was 2.8% in the HTK group and 9.4% in the UW group (P = .15). In conclusion, UW and HTK solutions were equally effective for the preservation of the hepatic graft. The routine use of HTK solution can reduce the costs of liver transplantation.     

Comparative evaluation of Celsior solution versus Viaspan in a pig liver transplantation model.

BACKGROUND: In a pig liver transplantation model, we compared the effects of Celsior solution (CS), an extracellular preservation solution, with Viaspan (University of Wisconsin solution, UW) on graft function and animal survival. METHODS: Pig livers were flushed with either CS or UW solution and cold-stored for 12 hr (group 1) or for 8 to 10 hr (group 2). Grafts were transplanted orthotopically. Intrahepatic reduced and oxidized glutathione and adenine nucleotides were evaluated 1 hr after reperfusion. Liver function of transplanted animals was monitored for up to 6 days by serum transaminases, total bilirubin, purine nucleoside phosphorylase, and prothrombin levels. RESULTS: In group 1, all animals died within 24 hr after reperfusion regardless of the preservation solution used. In group 2, no significant difference was seen in survival between the CS (72%) and the UW (67%) groups 6 days after transplantation, and there were no statistically significant differences in the biochemical data. There were no differences in histological evaluation of the livers at the time of death or killing of the animals between the CS and UW groups. CONCLUSION: Within the limits of this pilot study, CS is equivalent to UW in terms of graft function and animal survival.     

Improved Preservation of Warm Ischemic Livers by Hypothermic Machine Perfusion with Supplemented University of Wisconsin Solution

Hypothermic machine perfusion (HMP) has the potential to improve recovery and preservation of Donation after Cardiac Death (DCD) livers, including uncontrolled DCD livers. However, current perfusion solutions lack the needed substrates to improve energy recovery and minimize hepatic injury, if warm ischemic time (WIT) is extended. This proof-of-concept study tested the hypothesis that the University of Wisconsin (UW) solution supplemented with anaplerotic substrates, calcium chloride, thromboxane A₂ inhibitor, and antioxidants could improve HMP preservation and minimize reperfusion injury of warm ischemic livers. Preflushed rat livers subjected to 60 min WIT were preserved for 5 h with standard UW or supplemented UW (SUW) solution. Post preservation hepatic functions and viability were assessed during isolated perfusion with Krebs–Henseleit solution. Livers preserved with SUW showed significantly (p <. 001) improved recovery of tissue ATP levels (μ mol/g liver), 2.06 ± 0.10 (mean ± SE), as compared to the UW group, 0.70 ± 0.10, and the level was 80% of that of fresh control livers (2.60 ± 0.13). At the end of 1 h of rewarming, lactate dehydrogenase (U/L) in the perfusate was significantly (p <. 05) lower in the SUW group (429 ± 58) as compared to ischemia–reperfusion (IR) (781 ± 12) and the UW group (1151 ± 83). Bile production (μ g/min/g liver) was significantly (p <. 05) higher in the SUW group (280 ± 13) as compared to the IR (224 ± 24) and the UW group (114 ± 14). The tissue edema formation assessed by tissue wet–dry ratio was significantly (p <. 05) higher in UW group. Histology showed well-preserved hepatic structure in the SUW group. In conclusion, this study suggests that HMP with SUW solution has the potential to restore and preserve livers with extended WIT.     

The impact of liver preservation in HTK and UW solution on microcirculation after liver transplantation

Severe microcirculatory disturbances due to endothelial cell damage and leukocyte adherence during reperfusion of transplanted livers are considered to contribute to early graft failure. Since the degree of reperfusion injury after liver transplantation depends on the length of preservation time and the solution used for preservation, the aim of our study was to assess three solutions with respect to microvascular perfusion and leukocyte adhesion. Therefore, rat livers were stored up to 24 h in Euro-Collins (EC), University of Wisconsin (UW), or histidin-tryphtophan-ketoglutarate (HTK) solutions prior to orthotopic transplantation. The livers were studied in situ 60 min postoperatively using intravital fluorescence video microscopy. Using simple syringe flushing (10 ml), sinusoidal perfusion decreased below 50% in EC preserved livers after 8 h preservation, in HTK preserved livers after 16 h preservation, and remained higher than 70% in livers preserved in UW up to 24 h. Permanent adhesion of leukocytes was increased more rapidly in organs after 1, 8, 16, and 24 h preservation in HTK (16%, 15%, 34%, and 49.7% ± 4.7%) compared to those preserved in UW (15%, 18%, 17%; and 32.7% ± 3.3%; P < 0.05). Using a 10-fold volumn of the organ weight of HTK solution during the harvesting procedure, with an 8 min equilibration period, sinusoidal perfusion (39.6 ± 4.7%) and leukocyte adhesion (42.7 ± 3.1%) were not improved after 24 h. In contrast, equilibration with a volumn of approximately 40-times the liver weight improved sinusoidal perfusion (70.8% ± 2.7%; P < 0.01) and leukocyte adhesion (24.9% ± 3.1%; P < 0.01) significantly. Thus, using HTK solution, simple flushing prior to long-term cold storage resulted in microcirculatory disturbances when compared to UW solution. Larger volumns of HTK solution with an additional equilibration period of 8 min, however, reduced leukocyte adhesion and improved sinusoidal perfusion to a similar degree as UW solution.     

High-Na + low-K + UW cold storage solution reduces reperfusion injuries of the rat liver graft

The isolated perfused rat liver model was used to assess graft viability after 24 h of cold preservation. Two solutions were compared for liver preservation: Belzer's original UW solution (high-K ⁺ UW) and a solution containing the same components but with inverted concentrations of sodium and potassium (high-Na ⁺ UW). During the 120 min of normothermic reperfusion, livers preserved in the high-Na ⁺ UW solution released lower levels of creatine kinase-BB isoenzyme, transaminases (ALT and AST), and potassium than those preserved in the high-K ⁺ UW solution. Bile flow and biliary excretion of indocyanine green increased when livers were preserved in the high-Na ⁺ UW solution. We found no statistical differences for oxygen consumption and tissue ATP concentration. The results of this study support the concept that a high-Na ⁺ UW solution is a more effective means of preserving rat livers, at least after 24 h of cold-storage and 120 min of reperfusion in the isolated perfused model, than the original high-K ⁺ UW solution. Liver preservation in the high-Na ⁺ UW solution reduces damage to sinusoidal endothelial and hepatocellular cells. The use of an extracellular-like Belzer cold storage solution eliminates potassium-related problems in cold preservation and subsequent normothermic reperfusion while keeping all the qualities of the original UW solution. Received: 26 August 1997 Received after revision: 12 November 1997 Accepted: 28 November 1997     

Histidine–tryptophan–ketoglutarate solution for organ preservation in human liver transplantation—a prospective multi-centre observation study

Based on experimental work and clinical small studies, histidine–tryptophan–ketoglutarate (HTK) solution was found to be suitable not only for heart and kidney preservation but also for liver preservation. We decided, therefore, to use this preservation solution for clinical liver preservation in a prospective multi-centre trial. Enrolment to the study was from 1996 to 1999 in four European centres, and the results of 214 patients with HTK-preserved organs were analysed. Analysis showed a primary dysfunction (PDF) rate of 8.8%, with a primary non-function (PNF) rate of 2.3% and initial poor function (IPF) in 6.5%. Patient survival rate at 1 year was 83% and 1-year graft survival rate was 80%. In a univariate and a multivariate analysis PDF, early surgical complications and tendentiously severe infections (septicaemia, pneumonia, cholangitis) were identified as independent risk factors for graft and patient survival. Preservation with HTK can be regarded as an established alternative to preservation with University of Wisconsin (UW) solution when preservation times are short. Definitive assessment of the efficacy of preservation solutions requires further prospective randomised clinical trials that compare HTK and UW.     

Comparison of Celsior and University of Wisconsin solutions in cold preservation of liver from octogenarian donors

BACKGROUND: Celsior (CS) has recently been proposed as a cold storage solution for thoracic and abdominal organs. We compared University of Wisconsin (UW) and CS solutions for the preservation of livers from old donors, with regard to initial function as well as short- and long-term graft and patient survival. METHODS: A multicenter retrospective study from 1998 to 2002 includes 30 livers from octogenarian donors preserved in CS (n = 15) or UW (n = 15) solution prior to transplantation. Donor and recipient clinical and laboratory parameters as well as liver biopsy results were evaluated in all cases. RESULTS: The distribution of the main donor variables as well as recipient characteristics were comparable between groups. Mean cold ischemia time was 421 minutes in the CS group and 474 minutes in the UW group. Mild steatosis was present in 8 cases in the CS group and 7 cases in the UW group. No primary graft dysfunction or arterial or biliary complications were noted. There was 1 acute rejection episode in the CS group and 4 in the UW group. Late postoperative deaths were observed only in the UW group (ie, 7 of 15). Actuarial graft survival was 100% in the CS group vs 86.7% in the UW group (P = NS) at 3 months, and 100% in the CS group vs 52.5% in the UW group (P =.007) at 12 months. Patient survival was 100% in the CS group vs 93.3% in the UW group (P = NS) at 3 months, and 100% in the CS group vs 59.3% in the UW group (P =.01) at 12 months. CONCLUSIONS: Both CS and UW solutions effectively protect livers obtained from donors >80 years of age during the early postoperative course but the CS group had better long-term results.     

大鼠肝脏保存中不同器官保存液对肝细胞凋亡的影响

目的 研究３种目前国内常用的器官保存液对供肝细胞凋亡的影响。方法 分别用ＵＷ液、ＨＣ－Ａ液和ＷＭＯ－１号液灌洗并保存大鼠肝脏,于保存后０、１２、２４ｈ用原位末端标记法检测供肝细胞凋亡情况,并将保存２４ｈ的肝及行大鼠原位全肝移植,观察受者的３ｄ存活率。结果 ３种保存液保存的肝脏均在保存１２ｈ时出现细胞凋亡,ＨＣ－Ａ液级瑟ＷＭＯ－１号液组的凋亡指数（ＡＩ）高于ＵＷ液组（Ｐ〈０．００１）,而ＨＣ－Ａ液组     

Improved preservation of warm ischemic livers by hypothermic machine perfusion with supplemented University of Wisconsin solution.

Hypothermic machine perfusion (HMP) has the potential to improve recovery and preservation of Donation after Cardiac Death (DCD) livers, including uncontrolled DCD livers. However, current perfusion solutions lack the needed substrates to improve energy recovery and minimize hepatic injury, if warm ischemic time (WIT) is extended. This proof-of-concept study tested the hypothesis that the University of Wisconsin (UW) solution supplemented with anaplerotic substrates, calcium chloride, thromboxane A2 inhibitor, and antioxidants could improve HMP preservation and minimize reperfusion injury of warm ischemic livers. Preflushed rat livers subjected to 60 min WIT were preserved for 5 h with standard UW or supplemented UW (SUW) solution. Post preservation hepatic functions and viability were assessed during isolated perfusion with Krebs-Henseleit solution. Livers preserved with SUW showed significantly (p < .001) improved recovery of tissue ATP levels (micromol/g liver), 2.06 +/- 0.10 (mean +/- SE), as compared to the UW group, 0.70 +/- 0.10, and the level was 80% of that of fresh control livers (2.60 +/- 0.13). At the end of 1 h of rewarming, lactate dehydrogenase (U/L) in the perfusate was significantly (p < .05) lower in the SUW group (429 +/- 58) as compared to ischemia-reperfusion (IR) (781 +/- 12) and the UW group (1151 +/- 83). Bile production (microg/min/g liver) was significantly (p < .05) higher in the SUW group (280 +/- 13) as compared to the IR (224 +/- 24) and the UW group (114 +/- 14). The tissue edema formation assessed by tissue wet-dry ratio was significantly (p < .05) higher in UW group. Histology showed well-preserved hepatic structure in the SUW group. In conclusion, this study suggests that HMP with SUW solution has the potential to restore and preserve livers with extended WIT.     

Successful nonfreezing, subzero preservation of rat liver with 2,3-butanediol and type I antifreeze protein

BACKGROUND: Organ cryopreservation is hindered by ice inflicted damage. Nonfreezing preservation of livers at subzero temperatures might offer advantages over current preservation. METHODS: Sprague-Dawley rats were divided into three groups. UW livers (n = 6) were stored in University of Wisconsin (UW) solution at +4 degrees C. UWB livers (n = 6) were perfused ex vivo with UW + 10% 2,3-butanediol at < or =7 degrees C and stored at -4 degrees C. AFP livers (n = 4) were preserved identical to UWB livers, except for addition of 1 mg/ml of type I antifreeze protein. After 24 h livers were perfused with Krebs-Henseleit buffer (37 degrees C) for 60 min. Bile production, O(2) consumption (O(2)C), taurocholate extraction, and lactate dehydrogenase (LDH) release during perfusion and liver adenine nucleotide content and energy charge at the end of perfusion were measured. Cell membrane integrity was determined by trypan blue infusion. RESULTS: Ice formation was prevented in all livers stored at -4 degrees C. Bile production, O(2)C, and taurocholate extraction were similar among three groups. Livers stored at -4 degrees C contained significantly more adenine nucleotides than livers stored at +4 degrees C but the energy charge was similar. LDH release was significantly greater (P < 0.05) in the AFP group vs UWB and UW (63 vs 28 and 21 mU/min/g liver, respectively). Hepatocyte and sinusoidal cell trypan blue uptake was similar in all three groups. CONCLUSIONS: Butanediol with or without AFP was effective in preventing ice formation up to 24 h in rat livers stored at -4 degrees C. Although as effective as current +4 degrees C protocols, subzero preservation for longer periods needs to be achieved prior to clinical application.     

HX—3液和UW液保存大鼠肝脏效果的比较

采用大鼠肝脏非循环离体灌注模型比较自制的ＨＸ－３液和ＵＷ液对大鼠肝脏的保存效果。实验结果显示，经ＨＸ－３液原位灌洗并保存４８小时的肝脏肝组织含水量正常，而同等条件下换用ＵＷ液，肝组织的含水量虽无明显变化，但都低于正常值；随着保存时间的延长，两组肝窦内皮细胞死亡率逐渐上升，但在２４小时以内两组肝窥内皮细胞死亡率的差异不显著．     

Celsior液与UW液对无心跳大鼠供肝保存效果的比较

目的 比较Celsior(CS)液与UW液对大鼠无心跳供者(NHBD)供肝的保存效果.方法 选取健康雄性SD大鼠作为肝移植的供、受者.通过阻断大鼠主动脉和膈上下腔静脉10 min的方法,制备和获取NHBD供肝,并采用不同的器官保存液灌注和冷保存供肝.随机将受者分为4组.CS8 h组:受者采用经CS液灌注和冷保存8 h的供肝移植;UW8 h组:受者采用经UW液灌注和冷保存8 h的供肝移植;CS16 h组:受者采用经CS液灌注和冷保存16 h的供肝移植;UW16 h组:受者采用经UW液灌注和冷保存16 h的供肝移植.受者门静脉开放前、开放后1、3及6 h,取各组受者的静脉血检测血清丙氨酸转氨酶(ALT)、天冬氨酸转氨酶(AST)、内皮素1(ET-1)、白细胞介素1(IL-1)及肿瘤坏死因子α(TNF-α)水平;观察和比较各组受者的胆汁生成量、移植肝组织病理学改变及术后7 d内的存活率.结果 NHBD供肝经UW液灌注后呈"花斑"状,肝叶边缘灌注不良,经CS液灌注后肝叶边缘灌注良好.CS8 h组和UW8 h组受者的胆汁生成量分别为(0.21±0.01)ml和(0.10±0.02)ml(P<0.05).门静脉开放后1、3及6 h,CS8 h组受者的血清ALT及AST水平明显低于UW8 h组(P<0.05),门静脉开放后1、3h,CS8 h组受者的血清ET-1、IL-1及TNF-α水平均明显低于UW8 h组(P<0.05);CS8 h组受者移植肝肝窦扩张、门静脉充血及炎症细胞浸润等病理学改变明显轻于UW8 h组,CS8 h组和UW8 h组受者术后7 d的存活率分别为58.3%和25.0%(P<0.05).CS16 h组和UW16 h组受者各时点的胆汁分泌量、血清ALT、AST、ET-1、IL-1及TNF-α水平的比较,差异均无统计学意义(P>0.05),两组受者均在术后3 d内死亡,两组受者移植肝组织病理学改变无明显差异.结论 CS液对大鼠NHBD供肝的保存效果优于UW液,这可能与UW液较CS液粘稠及CS液能够减少枯否细胞的激活有关;NHBD供肝的冷保存时间不宜超过16 h.     

A comparison of histidine-lactobionate and UW solution in 48-hour dog liver preservation.

Many modifications of the UW solution have been reported to yield successful results in rat liver preservation and transplantation. One solution used histidine, in combination with lactobionate (HL-I), and gave superior preservation of the rat liver when compared with the UW solution. In this study we have compared the HL-I solution with 90 mM histidine, HL-II solution with 30 mM histidine, and the UW solution in dog liver preservation and transplantation. Dog livers were preserved for 48 hr in one of the three solutions and transplanted. The peak AST and ALT values were highest in livers preserved in HL-I, intermediate in UW solution, and lowest in HL-II. However, there were no significant differences among survival rates (average 5-7 days per group), posttransplant serum concentration of liver enzymes (AST, ALT, LDH, and alk-phos), clotting factors (PT and PTT), bilirubin, and fibrinogen concentration for each group. Dogs were sacrificed or died within 5-7 days due to rejection in nonimmunosuppressed dogs. Also, rat livers were preserved in the HL-II solution or in a solution in which histidine was replaced by isoleucine (IL-I). Isoleucine is an amino acid with a molecular mass similar to that of histidine, but is not as good a hydrogen ion buffer as histidine at the pH used for liver preservation (7.4). The buffer capacity of the IL-I solution was similar to the UW solution, but about one-half as much as the HL-II solution. Rats receiving a liver preserved for 30 hr in HL-II or IL-I were 100% viable. Rats receiving a liver preserved for 40-44 hr in HL-II or IL-I showed less survival (33% and 25%, respectively). This shows that histidine can be effectively replaced by isoleucine in a preservation solution and gives equivalent preservation results. Thus, the mechanism of improvement of liver preservation with histidine is not due to its action as a hydrogen ion buffer. These studies show that, although the HL solutions are superior for preservation of the rat liver, they are not superior to the UW solution for preservation of the dog liver. However, as others have shown in the rat liver transplant model, a simplified UW solution (HL-II) appears effective in dog liver preservation. The dog liver transplant model remains a more appropriate model for testing new preservation solutions prior to initiation of clinical trials.     

Delivery of the bioactive gas hydrogen sulfide during cold preservation of rat liver: effects on hepatic function in an ex vivo model

The insults sustained by transplanted livers (hepatectomy, hypothermic preservation, and normothermic reperfusion) could compromise hepatic function. Hydrogen sulfide (H₂S) is a physiologic gaseous signaling molecule, like nitric oxide (NO) and carbon monoxide (CO). We examined the effect of diallyl disulfide as a H₂S donor during hypothermic preservation and reperfusion on intrahepatic resistance (IVR), lactate dehydrogenase (LDH) release, bile production, oxygen consumption, bromosulfophthalein (BSP) depuration and histology in an isolated perfused rat liver model (IPRL), after 48 h of hypothermic storage (4°C) in University of Wisconsin solution (UW, Viaspan). Livers were retrieved from male Wistar rats. Three experimental groups were analyzed: Control group (CON): IPRL was performed after surgery; UW: IPRL was performed in livers preserved (48 h—4°C) in UW; and UWS: IPRL was performed in livers preserved (48 h—4°C) in UW in the presence of 3.4 mM diallyl disulfide. Hypothermic preservation injuries were manifested at reperfusion by a slight increment in IHR and LDH release compared with the control group. Also, bile production for the control group (1.32 µL/min/g of liver) seemed to be diminished after preservation by 73% in UW and 69% in UW H₂S group at the end of normothermic reperfusion. Liver samples analyzed by hematoxylin/eosin clearly showed the deleterious effect of cold storage process, partially reversed (dilated sinusoids and vacuolization attenuation) by the addition of a H₂S delivery compound to the preservation solution. Hepatic clearance (HC) of BSP was affected by cold storage of livers, but there were no noticeable differences between livers preserved with or without diallyl disulfide. Meanwhile, livers preserved in the presence of H₂S donor showed an enhanced capacity for BSP uptake (k_ACON = 0.29 min^?1; k_AUW = 0.29 min^?1; k_AUWS = 0.36 min^?1). In summary, our animal model suggests that hepatic hypothermic preservation for transplantation affects liver function and hepatic depuration of BSP, and implies that the inclusion of an H₂S donor during hypothermic preservation could improve standard methods of preparing livers for transplant.     

A new dextran 40-based solution for liver preservation.

UW solution is at present the most efficient solution for preservation of livers for transplantation. We have developed an alternative solution based on dextran instead of hydroxyethyl starch and without raffinose, allopurinol, magnesium sulfate, insulin, penicillin, or dexamethasone, which all are used in UW solution. In addition, 62.5 mM potassium in UW solution is replaced with sodium. We tested this new solution for liver preservation using the isolated perfused rabbit liver. We found that livers preserved in the UW solution for 24 or 48 hr lost 11.6 +/- 2.6% and 16.8 +/- 2.0% of the prepreservation weight, respectively, as a sign of organ shrinkage (P less than 0.001). In contrast, no change in liver weight was observed after preservation in the new dextran-based solution. Similarly, no change in total tissue water of the rat liver slices was seen after preservation in the new solution. Furthermore, livers preserved for 24 hr in the UW solution or the new solution produced the same amount of bile as unpreserved livers. However, after preservation in the UW solution for 48 hr, bile production was reduced by 65% (P less than 0.05). In contrast, livers preserved for 48 hr in the new solution showed no reduction in bile production. We conclude that our new solution significantly improves long-term liver preservation, and with this modified solution, 48-hr preservation may be safe.     

Electrical impedance of the liver during experimental long-term liver preservation

Measurements of electrical impedance were performed to assess ischemic damage in the rabbit liver during long-term preservation with University of Wisconsin (UW) or histidine-tryptophan-ketoglutarate (HTK) solution. The impedance was measured at a frequency of 200 Hz after in situ perfusion and after cold storage for 24 and 48 hours in UW or HTK solution (six livers per group). Z(200 Hz) was significantly higher (P < .01) after 48 compared with 24 hours of cold storage with both protection solutions without significant differences between the livers preserved with both solutions. Electrical impedance was observed to be a sensitive indicator of liver damage during long-term protection, showing similar preservation quality for both preservation solutions.