Simplified technique of orthotopic liver transplantation in pigs

Swine Partial Liver Transplantation Model for Practicing Living Donor Liver Transplantation Based on a New Liver Segmentation Method

BACKGROUND

Living donor liver transplantation (LDLT) is one of the most technically demanding and complicated procedures. However, unlike deceased donor liver transplantation, there is no suitable animal model for practicing LDLT. Herein, we propose a new liver segmentation method and a feasible pig LDLT model for practicing for LDLT in humans.

METHODS

Four Landrace pigs weighing 25, 25, 27, and 28 kg were used as donors and recipients to establish a partial liver transplantation model. Partial liver transplantation was performed using a right liver and a left liver, respectively, based on a new segmentation system compatible with that of humans.

RESULTS

We established a new segmentation system for porcine liver transplantation and a partial liver transplantation model. For right liver transplantation, 91 and 142 min were required to operate on the donor and recipient, respectively; for left liver transplantation, 57 and 104 min were required to operate on the donor and recipient, respectively. All pigs that underwent partial liver transplantation remained alive until the operation was completed.

CONCLUSIONS

It is expected that this new pig model based on the new segmentation system will be suitable as an educational tool for LDLT training and will replace the existing animal models for partial liver transplantation.

Experimental Clinical Model of Liver Transplantation in Large White Pigs Without Venovenous Bypass: Pre-, Intra-, and Maintenance Care

BACKGROUND

Liver transplantation in an animal model is challenging due to hemodynamics and intraoperative anesthetic care. Several models are described in the literature employing different techniques such as venovenous bypass or aortic cross-clamping to maintain hemodynamic stability, although few groups keep the animal alive in the postoperative period. This study aims to evaluate a liver transplantation clinical model in pigs without venovenous bypass or aortic cross-clamping.

METHODS

Male pigs weighing 20 to 35 kg underwent liver transplantation surgery without using venovenous bypass or aorta cross-clamping. Protocols were approved by the Animal Care and Use Committee of the University of São Paulo, Brazil.

RESULTS

Ten LTs were performed. Cold ischemia and warm ischemia were 119 ± 33.28 minutes and 26 ± 9.6 minutes, respectively. Hemodynamic changes were significantly higher after the postrevasculazation phase: heart rate (P < .001), medium arterial pressure (P < .001), and cardiac output (P = .03). Hypotension was treated with intravenous fluids and, in some cases, with vasoactive drugs especially during the post-reperfusion period. No animals died during the procedure and almost survival until the first postoperative day. Serum aspartate aminotransferase and lactate increased their values in the post-reperfusion phase.

CONCLUSIONS

Practice-based on laboratory animals improves surgical skills and the development of experimental models aimed at new advances in this field. Perfecting our technique on the swine model, we could move forward to create a small-for-size model, test new therapeutic strategies, and define the boundaries for safely performing an enlarged liver resection or a partial liver graft transplant.

Development of an improved pig model of piggyback liver transplantation with temporary portacaval shunting

AIM: To improve the piggy-back orthotopic liver transplantation (PBOLT) technique in pigs and to enhance the survival rate of pigs after liver transplantation.

METHODS: Pigs were divided into control group and experimental group. The inferior caval vein was separated from the liver of recipients by curettage and aspiration using Peng's multifunctional operative dissector in the control group. Temporary portacaval shunting was added in the experimental group to reduce congestion in the portal system during anhepatic phase.

RESULTS: The PBOLT procedures were performed in eight pairs of pigs in both the control group and experimental group, with a success rate of 87.5% and 100%, respectively. There were significant differences in cold ischemia time (142.8 min ± 7.4 min vs 155.6 min ± 8.3 min, P = 0.006), anhepatic phase duration (25.8 min ± 1.3 min vs 36.3 min ± 1.0 min, P = 0.000), and operation time (264.1 min ± 9.5 min vs 277.3 min ± 8.6 min, P = 0.012) between the two groups though no significant difference was noted in mean bleeding volume (892.5 mL ± 113.9 mL vs 888.8 mL ± 93.7 mL, P = 0.94). The 1-, 2-, 3- and 4-day survival rates were 87.5% and 100%, 25% and 100%, 12.5% and 87.5%, and 0% and 87.5% in the control group and experimental group, respectively. On day 10 after PBOLT, 87.5% of pigs of the experimental group were still alive (P = 0.000).

CONCLUSION: PBOLT with temporary portacaval shunting can maintain hemodynamic stability and relieve congestion of the portal system in pigs during liver transplantation. Control of gastrointestinal congestion is key to the success of liver transplantation and can raise the survival rate of pigs after liver transplantation.

Step-by-step guide for a simplified model of porcine orthotopic liver transplant

BACKGROUND

Based on similar anatomy, physiology, and size to humans, pigs provide an excellent means for studying new therapies related to orthotopic liver transplant (OLT). Techniques that have been described to date, however, are unnecessarily complex and increase the likelihood of morbidity and adverse outcome.

MATERIALS AND METHODS

Male outbred weanling pigs underwent OLT according to our procedure, with a short anhepatic time (<20 min) and without veno-venous bypass or vasoactive substances during the anhepatic phase. Vascular anastomoses were performed identical to the clinical setting, and a simple stented choledochocholedochostomy was created.

RESULTS

The authors have performed this procedure 130 times using four transplant models: standard, whole-liver (n = 10), small-for-size (n = 48), donor after cardiac death (n = 44), and donor adenoviral gene transfection (n = 28). The average cold ischemic and anhepatic times were 302 ± 43 and 17 ± 3 min, respectively. Hypotension was successfully treated with intravenous fluids. In all cases, the recipient survived the operation and was extubated. Survival to the end follow-up varied according to the model and was 56% (73/130) for all cases. At autopsy or euthanasia, no vascular thrombosis or outflow obstruction was found. Survival was 100% for pigs transplanted with standard, whole-liver grafts (n = 10). In this group, AST and bilirubin rose during the first 24 h after graft reperfusion, while the Quick prothrombin time (QPT) fell. By the fifth postoperative day, these parameters had returned to baseline.

CONCLUSIONS

This model is straightforward and reproducible and offers surgeons and researchers the opportunity to perform OLT studies under clinically relevant conditions.

Multifactorial biological modulation of warm ischemia reperfusion injury in liver transplantation from non-heart-beating donors eliminates primary nonfunction and reduces bile salt toxicity

OBJECTIVE

To design a multifactorial biological modulation approach targeting ischemia reperfusion injury to augment viability of porcine liver grafts from non-heart-beating donors (NHBD).

BACKGROUND DATA

Liver Transplantation (LTx) from NHBD is associated with an increased risk of primary nonfunction (PNF) and biliary complications. In porcine NHBD-LTx, we previously reported a 50% risk of PNF and toxic bile formation in grafts exposed to > or =30' warm ischemia (WI).

METHODS

Porcine livers exposed to 45' WI were cold stored, transplanted and either modulated (n = 6) or not (controls, n = 9). In the modulation group, donor livers were flushed with warm Ringers (avoiding cold-induced vasoconstriction), streptokinase (eliminating stagnating thrombi), and epoprostenol (vasodilator, platelet aggregation inhibitor) prior to cold storage. In recipients, glycine (Kupffer cell stabilizer), alpha1-acid-glycoprotein (anti-inflammatory protein), MAPKinase-inhibitor (pro-inflammatory cytokine generation inhibitor), alpha-tocopherol and glutathione (anti-oxidants), and apotransferrin (iron chelator) were administrated intravenously. PNF, survival, lactate, transaminase, TNF-alpha, redox-active iron, and biliary bile salt-to-phospholipid ratio were monitored.

RESULTS

No PNF was observed in modulated versus 55% in control pigs (P = 0.025). Survival was 83% in modulated versus 22% in control pigs (P = 0.02). At 180' postreperfusion, lactate was lower in modulated (5.4 +/- 1.9 mmol/L) versus control pigs (9.4 +/- 2.2 mmol/L; P = 0.011). At 60' postreperfusion, there was a trend for lower AST in modulated versus control pigs at 60' (939 +/- 578 vs. 1683 +/- 873 IU/L; P = 0.089). Postreperfusion, TNF-alpha remained stable in modulated pigs (49 +/- 27 pg/mL at 15' and 85 +/- 26 pg/mL at 180'; P = 0.399) but increased in control pigs (107 +/- 36 pg/mL at 15' and 499 +/- 216 pg/mL at 180'; P = 0.023). At 180' postreperfusion, redox-active iron was higher in control pigs versus modulated pigs (0.21+/-0.18 vs. 0.042+/-0.062 mum; P = 0.038). Biliary bile salt-to-phospholipid ratio post-LTx was lower in modulated versus control pigs (1128 +/- 447 vs. 4836 +/- 4619; P = 0.05).

CONCLUSIONS

A multifactorial biological modulation eliminates PNF, improves liver function and increases survival. Biochemically, TNF-alpha and redox-active iron are suppressed and biliary bile salt toxicity is reduced. Translating this strategy clinically may lead to wider and safer use of NHBD.

Hemodynamic alterations during orthotopic liver experimental transplantation in pigs

PURPOSE

To describe the hemodynamic alterations during orthotopic liver transplantation in pigs.

METHODS

In the period from April 2004 to December 2005, forty-four female Landrace pigs, weighting between 32 and 38 Kg underwent orthotopic liver transplantation. The animals were divided into two groups, donor and recipient pairs, which received whole liver grafts. The surgical procedure was divided into four parts: harvested, back-table, hepatectomy of the recipient and implantation. We analyzed heart rate, blood gas, mean systemic arterial pressure (MAP-mmHg), central venous pressure, pH, Na-, K+, Cl-, Ca+ and urinary output.

RESULTS

The mean anhepatic time was 69 min, cold ischemia was 252.2 min and back-table was 56.6 min. Blood pressure and heart rate dropped significantly during anhepatic phase and after revascularization. Blood gas and electrolytes alterations were observed during anhepatic and reperfusion phases. Although alterations were noted during these phases, the hemodynamic status was recovered and stabilized in the end of the surgery.

CONCLUSIONS

Simplified technique of liver transplant was achieved and description of hemodynamic alterations was possible in pigs.

The tolerance time limits of biliary tracts of liver grafts subjected to warm ischemia and cold preservation: an experimental study in swine

OBJECTIVE

The objective of this study was to investigate the tolerance time limits of liver grafts and biliary tracts with warm ischemia to cold preservation providing experimental data to the prevent primary graft nonfunction and biliary necrosis after orthotopic liver transplantation (OLT).

METHODS

OLTs were performed in Bama miniature swine. Morphological and functional changes in the liver graft and biliary tracts were investigated after 10 minutes of warm ischemia and various durations of cold preservation.

RESULTS

When grafts were subjected to 10 minutes of warm ischemia followed by less than 16 hours of cold preservation, all animals survived 1 week; no animal died of biliary necrosis. However, when the cold preservation time exceeded 16 hours, the incidence of biliary necrosis increased significantly (P < .05) with deaths due to bile leaks. As cold preservation persisted, primary graft nonfunction and intraoperative or early postoperative deaths occurred, and all surviving animals developed biliary necrosis. When compared with the group undergoing less than 16 hours of cold preservation, the morphological scores and apoptosis index of epithelial cells of graft bile ducts were significantly increased among the group subjected to more than 16 hours of cold preservation after reperfusion (P < .05), whereas the activity of Na+-K+-ATPase and Ca2+-ATPase of graft bile ducts were reduced significantly (P < .05). Liver function tests showed the concentrations of alanine aminotransferase (ALT), aspartate aminotransferase (AST), gamma glutamyl transpeptidase, and alkaline phosphatase (ALP) decreased more slowly among the group undergoing more than 16 hours of cold preservation after operation.

CONCLUSIONS

We concluded that given 10 minutes of warm ischemia, cold preservation should be less than 16 hours to avoid early biliary necrosis; the corresponding tolerance time limit of the liver to cold preservation was less than 20 hours.

The role of bile salt toxicity in the pathogenesis of bile duct injury after non-heart-beating porcine liver transplantation

BACKGROUND

Intrahepatic bile duct strictures are a serious complication after non-heart-beating (NHB) liver transplantation. Bile salt toxicity has been identified as an important factor in the pathogenesis of bile duct injury and cholangiopathies. The role of bile salt toxicity in the development of biliary strictures after NHB liver transplantation is unclear.

METHODS

In a porcine model of NHB liver transplantation, we studied the effect of different periods of warm ischemia in the donor on bile composition and subsequent bile duct injury after transplantation. After induction of cardiac arrest in the donor, liver procurement was delayed for 0 min (group A), 15 min (group B), or more or equal to 30 min (group C). Livers were subsequently transplanted after 4 hr of cold preservation. In the recipients, bile flow was measured, and bile samples were collected daily to determine the bile salt-to-phospholipid ratio. Severity of bile duct injury was semiquantified by using a histologic grading scale.

RESULTS

Posttransplantation survival was directly related to the duration of warm ischemia in the donor. The bile salt-to-phospholipid ratio in bile produced early after transplantation was significantly higher in group C, compared with group A and B. Histopathologic condition showed the highest degree of bile duct injury in group C.

CONCLUSION

Prolonged warm ischemia in NHB donors is associated with the formation of toxic bile after transplantation, with a high biliary bile salt-to-phospholipid ratio. These data suggest that bile salt toxicity contributes to the pathogenesis of bile duct injury after NHB liver transplantation.

Novel magnetic rings for rapid vascular reconstruction in canine liver transplantation model

OBJECTIVE

Magnetic rings were used for rapid vascular reconstruction in a canine liver transplantation model.

MATERIALS AND METHODS

Thirty-two adult mongrel dogs weighing 13 to 16 kg were randomly selected as donors or recipients of transplantations. The recipients were randomly divided into two groups: group A (n = 10) had magnetic rings used for vascular reconstruction without venovenous bypass; group B (n = 6) had vascular reconstruction performed by continuous suturing with splenojugular venovenous bypass.

RESULTS

In group A, the entire operative period was 3.24 +/- 0.49 hours, the durations of clamping the portal vein and the infrahepatic vena cava of the recipient were 5.89 +/- 2.27 minutes and 3.89 +/- 0.73 minutes, respectively. In group B, the entire operative period was 4.12 +/- 0.51 hours with the duration of clamping portal vein and infrahepatic vena cava, 28.33 +/- 6.04 minutes and 12.16 +/- 3.72 minutes (P < .01 vs group A). In group A, mean arterial pressure dropped during the anhepatic phase but recovered quickly after reperfusion. The fluid infusion was about 730.56 +/- 50.56 mL in the group A and a pressor agent was unnecessary. In group B, blood pressure dropped during the anhepatic phase and slowly recovered. The fluid infusion was about 2241.67 +/- 390.78 mL and a pressor agent was used to maintain the blood pressure of the recipient. No twist or thrombus was discovered in the anastomoses group A and the endothelium at the site of anastomosis was entire. In group B, errhysis was common in the anastomotic stomas. Nine of 10 dogs in group A survived more than 3 days, the longest being 8 days, whereas four of the six dogs in group B survived less than 3 days.

CONCLUSION

The results showed that the anhepatic time was significantly shortened (about 5.89 +/- 2.27 minutes) in group A compared with group B and venovenous bypass was unnecessary. Magnetic rings could be used for rapid vascular reconstruction in canine liver transplantation model. The long-term results of this procedure should be clarified before it is applied in clinical practice in the future.

Orthotopic Abdominal Multivisceral Transplantation Without Venovenous Bypass in Pigs

BACKGROUND

Because venovenous bypass (VVB) can cause specific complications, a simplified orthotopic abdominal multivisceral transplantation (MVTX) technique without VVB in pigs has been evaluated in terms of morbidity and mortality.

MATERIALS AND METHODS

Outbred large-white pigs weighing 25 to 40 kg of random sex underwent MVTX operation. After in situ cold perfusion through the aorta and superior mesenteric vein, the multivisceral allograft was procured from the donor and tailored at the back table. The multivisceral allograft, including liver, pancreas, stomach, duodenum, and proximal 2 m of jejunum, was en bloc transplanted into recipient after resection of entire foregut and midgut; VVB was not used. We analyzed the hemodynamic change, arterial blood gas data, and fluid requirements intraoperatively.

RESULTS

Among 25 MVTXs, 19 (76%) animals survived after the operation. Without using an immunosuppressant, postoperative survival time was 2 to 146 hours. Ten recipient pigs died within 24 hours. Seven animals were lost between postoperative days 2 and 5. Two pigs survived for more than 5 days. The recipient pigs were mostly in a state of hypovolemic shock and metabolic acidosis during the reperfusion phase.

CONCLUSIONS

Despite a high morbidity and mortality, the simplified technique without VVB is feasible to successfully achieve MVTX in the pig.

Evaluation of IGL-1 preservation solution using an orthotopic liver transplantation model

AIM: To compare, in a pig liver transplantation model, the protective effect of UW with that of IGL-1, a high-sodium preservation solution containing polyethylene glycol (PEG) as an oncotic supply.

METHODS: All livers were harvested and grafted orthotopically according to standard techniques. The livers were washed out and preserved for 7 h in IGL-1 (n = 6) or in UW solution (n = 7) at 4°C. In a sham group (n = 4), the livers underwent a 60-min warm ischemia at 37°C. The hepatocellular injury was assessed in organ preservation solution washed out from the graft at the end of ischemic storage (before revascularization), and in serum 2 h after reperfusion and daily for up to 6 d.

RESULTS: Livers preserved in IGL-1 solution released markedly less AST than that preserved in the UW solution before and after revascularization (P < 0.05). Besides, the activity of creatine kinase-BB, a marker of sinusoidal lining cells injury, was higher in the UW group than in the IGL-1 group (P < 0.05). Histological results showed less necrotic regions in livers preserved in IGL-1 solution; however, no difference was observed for inflammation.

CONCLUSION: IGL-1 liquid effectively protects parenchymal and non-parenchymal cells against prese-rvation-reperfusion injuries.

Cold preservation of pig liver grafts with warm ischemia and pentoxifylline-UW solution

BACKGROUND

We undertook this study to investigate the safe time limits of cold preservation in UW solution of liver grafts subjected to warm ischemia (WI) for 20 min and the changes of the limits when pentoxifylline is added to UW solution.

METHODS

The safe time limit was studied in a simple porcine orthotopic liver transplantation (LTx) model. In donors, livers were subjected to 20 min of WI and subsequent 12-h (group 1, n = 5), 16-h (group 2, n = 5), and 20-h (group 3, n = 3) cold preservation in UW solution, respectively. After the safe time limits were clear, another group (group 4, n = 5) was built to test whether or not the limits can be changed when pentoxifylline is added to UW solution in an unsafe time limit group.

RESULTS

All five animals in group 1 survived up to 7 days of the survey endpoint. In group 2, only one animal survived up to the same survey endpoint and all animals in group 3 died within 12 h. The 1-week survival rate of group 1 was significantly higher than the other two groups. Group 1 had a lower level of alanine aminotransferase (ALT) or aspartase aminotransferase (AST) after LTx, less pathological damage, higher concentration of adenosine triphosphate (ATP) and higher microcirculation blood flux in the grafted liver tissue at 1 h after reperfusion than the other two groups. The results primarily showed that 12-h cold preservation was safe, 16 h was unsafe, and 20 h was highly unsafe. But when pentoxifylline was added to UW solution in cold preservation (16-h group, group 4), in contrast to group 2, the incidence of liver tissue necrosis and primary graft nonfunction was significantly lower in group 4 than in group 2. The 1-week survival rate of the pigs was 100% in the former and 20% in latter group. Levels of ALT and AST in recipients' artery blood, malondialdehyde and TNF-alpha concentration in grafted liver tissue, resistance of portal vein and hepatic artery after preservation in group 4 were significantly reduced, whereas microcirculation blood flux of the grafted liver, superoxide dismutase concentration and ATP concentration in grafted liver tissue were significantly elevated.

CONCLUSIONS

The safe time limit of cold preservation in UW solution of liver grafts subjected to WI for 20 min was about 12 h and the limits can be prolonged to 16 h when pentoxifylline is added to UW solution. Many mechanisms were involved.

Tolerance limits of liver grafts with 30 minutes of warm ischemia to cold preservation in swine

AIM

The aim of this study was to investigate the safe time limits of cold preservation in University of Wisconsin (UW) solution of liver grafts subjected to warm ischemia (WI) for 30 minutes from non-heart-beating donors (NHBDs).

METHODS

The safe time limits were studied in a simple porcine orthotopic liver transplantation (LTx) model. In donors, livers were subjected to 30 minutes of WI and subsequent 6-hour (Group 1, n = 5), 10-hour (Group 2, n = 5), and 14-hour (Group 3, n = 3) cold preservation in UW solution.

RESULTS

All 5 animals in Group 1 survived up to 7 days, the survey endpoint. In Group 2, only 2 animals survived to the same survey endpoint. All animals in Group 3 died within 12 hours. The 1-week survival rate of Group 1 was significantly higher than those of the other 2 groups. Group 1 showed a lower level of alanine aminotransferase (ALT) or aspartate aminotransferase (AST) after LTx, less pathological damage, higher concentration of adenosine triphosphate (ATP), and higher microcirculation blood flux in the grafted liver tissue at 1 hour after reperfusion than the other 2 groups.

CONCLUSIONS

It is concluded that about 6 hours is the safe time limit of cold preservation in UW solution for liver grafts from NHBDs subjected to WI for 30 minutes.

Hypothermic machine perfusion of liver grafts for transplantation: technical development in human discard and miniature swine models

INTRODUCTION

Cold storage (CS) is the standard preservation technique for liver transplantation (LTx). Hypothermic machine perfusion (HMP) is an alternative preservation technique that provides a continuous supply of substrates and removes waste products. HMP improves early graft function in kidney transplantation, especially for marginal organs: To our knowledge there have been no reports HMP in human LTx. The aim of this study was to develop a reproducible technique for liver HMP prior to initiating a clinical trial.

METHODS

For the discard protocol, between May 2001 and March 2002, 10 nontransplantable human livers were obtained. We designed a model of atraumatic, centrifugal HMP of the portal vein (PV) and hepatic artery (HA) via donor vascular conduit. Livers were perfused at 3 degrees C to 5 degrees C with Vasosol solution for 5 to 10 hours using a modified Medtronic Portable Bypass System. Perfusion variables (temp, flow, pressure) where recorded every 30 minutes. During the study, we also validated our techniques in an animal model. For the animal protocol; six swine were used as liver donors and randomized to 12 hours of CS in UW (n = 3) or 12 hours of HMP using Vasosol solution (n = 3). LTx was performed in six swine. Animals survived until postoperative day 5.

RESULTS

For the discard protocol, mean HMP time was 6.7 +/- 1.8 hours. Target flow was 0.7 mL/g liver/min. PV and HA pressure ranged from 3 to 5 and 12 to 18 mm Hg, respectively. All grafts were maintained at 3 degrees C to 5 degrees C during HMP. For the animal protocol, all recipients had good liver function and survived to postoperative day 5. AST and TBili were similar between CS and HMP.

CONCLUSIONS

Our method of liver HMP appears to be a safe and reliable method to preserve livers. A clinical trial is now underway to evaluate this technique in human LTx.

Early biological and immune response to semi-identical liver or kidney allograft in miniature swine

In inbred miniature swine, semi-identical liver allograft recipients survive up to 3 months without immunosuppression, whereas similarly mismatched kidney allografts are uniformly rejected within 2 weeks. The early biological and immunological events were assessed in this unique model. SLA(d/d) pigs (MGH, Harvard Medical School, Boston, MA, USA) received liver or kidney allograft from heterozygous SLA(c/d) miniature swine. Survival, graft function, histology, intragraft cytokines, peripheral lymphocyte and platelet count, plasma cortisol level and cellular/humoral anti-donor immune response were assessed. Kidney allografts were uniformly rejected within 2 weeks, whereas liver allografts survived for up to 87 days. After both liver and kidney transplantation, the peripheral lymphocyte count decreased during the first week concomitantly to a significant elevation of plasma cortisol level. Early decrease of peripheral platelet count was observed after liver but not renal transplantation. Up-regulation of transforming growth factor beta1 (TGF-beta1) and interferon-gamma (IFN-gamma) was observed during the first postoperative week in semi-identical liver allografts and IFN-gamma as well as IL-10 in kidney allografts. In liver recipients, labelled autologous lymphocytes accumulated in the liver graft and native spleen, whereas after renal allograft, lymphocytes accumulated in the native spleen and liver but never in the kidney allograft. Specific cellular anti-donor unresponsiveness was observed from the first post-transplant day in both liver and kidney recipients, while the humoral anti-donor response remained intact. In semi-identical liver allograft, recipient rejection is milder and slower than in similarly matched kidney allograft. The intragraft up-regulation of TGF-beta1 in semi-identical liver allograft might be one mediator to explain the modulation of rejection after liver transplant. The rapid, nonspecific accumulation of recipient lymphocytes in the liver allograft but not in kidney allograft might also play a role in the different survival time in this model.

Livers from Non???Heart-Beating Donors Tolerate Short Periods of Warm Ischemia

BACKGROUND

In contrast with kidneys, transplantation of livers originating from non-heart-beating donors remains rare, mainly because warm ischemia causes a higher rate of potentially lethal primary graft nonfunction. Little is known on the tolerance of liver grafts to warm ischemia. No techniques are available to assess the viability of ischemic livers before implantation. Therefore, experimental models are needed to address these questions before non-heart-beating liver transplantation can be more widely applied. This study aims to develop a reproducible large animal model of liver transplantation using non-heart-beating donors and, in this model, to define the tolerance of the liver to warm ischemia.

METHODS

Pigs weighing 25to 30 kg are used. In donors, cardiac arrest is caused by ventricular fibrillation. After increasing lengths of warm ischemia (0, 15, 30, 45, and 60 min), the liver is flushed in situ with 4 degrees C histidine tryptophan ketoglutarate preservation solution and procured. The liver is transplanted after a 4-hour cold storage period.

RESULTS

Control livers (no warm ischemia) and livers exposed to 15 minutes of warm ischemia function normally after transplantation, whereas all livers submitted to 60 minutes of warm ischemia display primary nonfunction and cause recipient death. Graft function and survival are occasionally observed after 30 and 45 minutes of warm ischemia.

CONCLUSIONS

A reproducible model of non-heart-beating liver transplantation is described. We found that the liver tolerates 15 minutes of warm ischemia. This preclinical model is a valid tool to develop techniques to predict the quality of ischemic livers before implantation and to design interventional strategies to improve the tolerance of the liver to warm ischemia.

Thymectomy impairs but does not uniformly abrogate long-term acceptance of semi-identical liver allograft in inbred miniature Swine temporarily treated with FK506

BACKGROUND

Long-term acceptance of semi-identical orthotopic liver transplants (OLTs) in inbred swine is induced by a 12-day course of FK506. To study whether acceptance is attributable to central or peripheral immune mechanisms, the effect of complete thymectomy was determined.

METHODS

Total thymectomy was performed in 15 swine 3 to 4 weeks before OLT. Twelve of these animals received a 12-day course of FK506 after OLT, and three animals did not receive immunosuppression. Five additional nonthymectomized pigs received OLT and a FK506 regimen. Graft survival, liver function, histology, and cellular and humoral responses were assessed.

RESULTS

Nonthymectomized, FK506-treated animals uniformly showed long-term acceptance of OLT and developed stable donor unresponsiveness. Of the 12 thymectomized, FK506-treated pigs, seven died of non-immunologic causes within 3 postoperative months, and five maintained their OLT for more than 6 months (range 180-450 days). Among these survivors, two developed a complete anti-donor response (mixed lymphocyte reaction [MLR], cell-mediated lymphocytotoxicity [CML], and immunoglobulin [IgG] antibodies) and eventually rejected their OLT at postoperative day 180. The three remaining pigs kept their liver allografts up to 450 days and developed a donor-specific unresponsiveness (a transient anti-donor MLR was observed during the follow-up but never an anti-donor CML or IgG antibodies). All three thymectomized, untreated animals rejected their allografts acutely and displayed a complete anti-donor response (MLR, CML, and IgG antibodies).

CONCLUSIONS

Complete thymectomy before OLT impaired but did not uniformly abrogate long-term acceptance of semi-identical OLT, suggesting that peripheral immune mechanisms may be sufficient to induce long-term acceptance of liver allografts in some recipients.

Improved survival of orthotopic liver allograft in swine by addition of trophic factors to University of Wisconsin solution

Serum-free preservation media such as University of Wisconsin (UW) may cause tissue damage through trophic factor (TF) deprivation. This study evaluated whether the addition of TFs to UW solution improves liver graft quality after extended cold preservation time in pigs. UW solution was supplemented with epidermal growth factor, insulin-like growth factor-1, nerve growth factor-beta, bactenecin, and substance P to create TF-supplemented (TFS) UW. Orthotopic liver transplantation was performed after 18 hr of static cold storage at 4 degrees C in UW (n=7) or TFS-UW (n=7) solution. Recipients of grafts preserved with TFS-UW demonstrated significantly better 5-day survival (57%) than those preserved with UW alone (14%) (P<0.05). Adenosine triphosphate content in grafts preserved in TFS-UW was significantly higher than in grafts preserved in UW (17.4+/-5.0 vs. 4.8+/-1.2 nmol/mg protein, respectively) (P<0.05). This study showed that the addition of TFs to UW solution allowed a significant extension of cold ischemic time in pigs.

Preconditioning of donors with interleukin-10 reduces hepatic ischemia-reperfusion injury after liver transplantation in pigs

BACKGROUND

Graft ischemia-reperfusion injury (IRI) resulting from postreperfusion inflammatory reaction remains a major cause of complications after liver transplantation. In this article, the authors investigated the effect of anti-inflammatory cytokine interleukin (IL)-10 on IRI, in a preclinical model of liver transplantation in pigs.

METHODS

Donor pigs received IL-10 or saline at the start of liver graft harvesting. After 5 hr of cold ischemia, liver grafts were transplanted into untreated recipient pigs. IRI severity was measured in recipients by transaminase release and by cellular infiltration and necrosis on liver biopsy specimens.

RESULTS

Donor IL-10 administration attenuated IRI, as indicated by significant reduction of mean peak of transaminase in recipients of grafts from IL-10-treated donors. In contrast, no significant differences in cell infiltration or amount of necrosis were observed on liver biopsy specimens between groups.

CONCLUSIONS

Donor preconditioning with IL-10 may constitute an interesting pharmacologic approach to reduce IRI severity after liver transplantation.