Comparison of Pig Hepatocyte Isolation Using Intraoperative Perfusion without Warm Ischemia and Isolation of Cells from Abattoir Organs after Warm Ischemia

Abstract: Enzymatic hepatocyte isolation using warm ischemic pig livers from an abattoir was compared with isolation using in situ perfused organs. Using organs from animals of 30 kg body mass (BM), the intraoperative perfusion showed superior results. The use of livers from abattoir pigs of 40–50 kg BM after warm ischemia resulted in a lower yield of hepatocytes and in high rates of injured cells. The mean yield in the intraoperative perfusion group was 68 ± 11% (wet weight), the maximum yield in the abattoir organ group was 58%. The mean viability in the intraoperative perfusion group was 65 ± 14% (trypan blue) compared with a maximum viability of 39% in the abattoir liver group. Additional purification by density gradient centrifugation improved the viability of the abattoir liver group to a mean of 95% (trypan blue). The use of pig livers from large abattoir animals required additional purification steps to improve viability since the cell yield is considerably lower than with intraoperative organ perfusion. In general, hepatocyte isolation from abattoir organs is not recommended.     

Secretory capacity and ultrastructure of rat pancreatic islets after preservation of pancreas in different conditions.

Experiments were performed with rat pancreas to investigate optimum conditions for obtaining and preserving the pancreas for subsequent isolation of islets that were viable by both functional and morphological criteria. After only 30 min of warm ischaemia, the yield and viability of islets that could be isolated were poor. However, if the pancreas was removed and placed immediately in a cold bicarbonate-buffered medium, which was supplemented with HEPES to maintain the pH and Trasylol to inhibit proteolytic activity, then viable islets could be isolated consistently after over 8 hr of storage. These results demonstrate that even short periods of warm ischaemia will render the pancreas unsuitable for islet isolation. Once the pancreas is placed in a suitable cold medium, however, considerable delay may be permissible without adversely affecting the viability of the islets which can be obtained. The same conditions might prove to be applicable when human pancreas is obtained for the purpose of transplantation into diabetic subjects.     

Isolation of primary human hepatocytes after partial hepatectomy: criteria for identification of the most promising liver specimen

Abstract:  Demands for primary human hepatocytes are continuously increasing, while supply is insufficient due to limited cell sources. To improve cell availability, the present study investigates the influence of donor liver characteristics on the outcome of hepatocyte isolation from surgically removed liver tissue ( n  = 50). Hepatocytes were isolated from liver specimens using a standardized two-step collagenase perfusion technique. The patient's sex, previous chemotherapy, or histopathology have shown no influence. Donor age significantly affected the isolation outcome, but was not found suitable for predicting cell yields. Preoperative blood parameters did not correlate with cell yield, although cell function was affected: total protein, albumin synthesis, and cell viability were significantly decreased for serum gamma-glutamyl-transferase (GGT) levels >60 U/L. Specimens from patients with benign diseases gave significantly higher cell yields than tissue removed due to secondary and primary tumors, respectively. The indication for surgery is a valuable basis for identifying the most yielding specimens. Hepatocytes from donors with high GGT levels appear to show reduced functional properties.     

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

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

A New Preservation Solution (SCOT 15) Improves the Islet Isolation Process From Pancreata of Non–Heart-Beating Donors: A Murine Model

Introduction

Due to the organ shortage, there is increased use of organs harvested from non-heart-beating donors (NHBD). These organs have been subjected to a period of warm ischemia that is most deleterious to functional recovery. We have designed a new preservation solution, “Solution de Conservation des Organes et des Tissus” (SCOT 15; Macopharma, Tourcoing, France) which contains an extracellular ionic composition including PEG 20 kD (15 g/L) as a colloid.

Methods

Our objective was to compare SCOT 15 with University of Wisconsin (UW) solution or islet culture medium CMRL 1066 + 1% of Bovine Serum Albumin (BSA), as the working and preservation solution for islet isolation from pancreata subjected to warm ischemia using a murine model.

Results

Warm ischemia decreased the islet yield and cellular viability regardless of the preservation solution. Either when the pancreas was or was not subjected to warm ischemia, the best islet yield was obtained with SCOT 15 (P < .05 vs UW or CMRL 1066). The same results were observed for islet viability as assessed using the 3,(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) test; namely, better viability with SCOT 15 as compared with UW or CMRL 1066 (P < .01).

Conclusion

In a murine model SCOT 15 was a better preservation solution for islet isolation than UW solution or culture medium (CMRL 1066).     

Improvement of pancreatic islet isolation outcomes using glutamine perfusion during isolation procedure

During procurement, isolation, and transplantation, islets are exposed to high levels of oxidative stress triggering a variety of signaling pathways that can ultimately lead to cell death. Glutamine is an important cellular fuel and an essential precursor for the antioxidant glutathione. The aim of this study was to examine the role of intraductal glutamine administration in facilitating recovery of isolated rat islets from pancreases subjected to a clinically relevant period of warm ischemia. Islets were isolated in Sprague-Dawley (SD) rats (n = 18 per group). Pancreata in groups 1 and 2 were procured immediately while groups 3 and 4 were subjected to 30-min warm ischemia. Groups 2 and 4 were treated intraductally with 5 mM glutamine prior to pancreatectomy. Exposure to 30-min warm ischemia significantly reduced islet yield [groups 1 & 2 (nonischemia): 503 +/- 29 islets/rat vs. groups 3 & 4 (ischemia): 247 +/- 26 islets/rat; p < 0.05]. Intraductal glutamine treatment significantly improved islet yield when pancreata were subjected to 30-min warm ischemia [144 +/- 16 islets/rat without glutamine (group 3) vs. 343 +/- 36 islets/rat with glutamine (group 4), p < 0.05]. Glutamine also significantly improved islet viability (values were 50 +/- 4% in group 4 vs. 27 +/- 3% in group 3, p < 0.05). Similarly, glutathione (reduced) levels were significantly elevated in both glutamine-treated groups; however, this increase was greatest in tissues exposed to ischemia (2.76 +/- 0.04 nmol/mg protein in group 4 vs. 1.66 +/- 0.04 nmol/mg protein in group 3, p < 0.05). Intraductal glutamine administration considerably improves the islet yield, viability, and augments endogenous glutathione levels in pancreata procured after a clinically relevant period of ischemia. Intraductal administration of glutamine at the time of digestive enzyme delivery into the harvested pancreas may represent a simple yet effective tool to improve islet yields in clinical isolations.     

双层法氧合冷保存心跳停搏大鼠肝细胞移植研究

目的 观察双层法(TLM)氧合冷保存较UW保存能否改善心跳停搏供体(NHBD)肝细胞存活率和功能.方法 SD大鼠为供体,建立NHBD模型,NAPs大鼠为受体.根据热缺血时间(WIT)15 m/n和30 m/n分成2组;按TLM、UW分别保存3、12 h和未保存再各分5个亚组(n=5).检测NHBD肝细胞存活率和ATP水平,观察肝细胞移植(HTx)后肝细胞形态和功能.结果 TLM3、12 h组肝细胞存活率分别显著高于UW 3、12 h组[(69.7±4.1)%和(69.1±2.0)%比(55.1±2.3)%和(53.3±2.0)%;P<0.01];TLM 3、12 h组AlP水平分别显著高于UW 3、12 h组(3.25±0.79和3.06±0.67比2.25±0.53和1.63±0.40;P<0.05或P<0.01).HTx后几乎所有时间点TLM组血清白蛋白(ALB)水平都显著高于UW组(P<0.05或P<0.01).在HTx 14d后,形态学显示TLM组肝细胞保持强活力,糖原和ALB染色呈强阳性.结论 TLM氧合冷保存可显著改善和逆转NHBD肝细胞存活率和功能,减少NHBD肝细胞缺血性损伤.     

The salvage of rabbit ischaemic epigastric free flaps using the vasodilator calcitonin gene-related peptide

The rabbit epigastric free flap, subjected to 21 hours of warm (25 degrees C) ischaemia, was used as an experimental model to test the ability of two endothelium-dependent vasodilators, calcitonin gene-related peptide (CGRP) and carbamyl beta-methylcholine chloride (MCh, bethanechol chloride, the stable acetylcholine analogue) to improve flap viability. After the period of ischaemia, flaps were infused intra-arterially with either Hanks balanced salt solution (controls), CGRP or MCh for 30 minutes, and received additional intravenous boluses of these drugs at 2 and 32 minutes after revascularisation. The area of flap surviving improved significantly (p less than 0.025) from 39.9% (n = 18) for controls to 70.2% (n = 14) for CGRP treatment at 2 micrograms/kg, but was unchanged at 47.1% (n = 14) for MCh treatment at 50 micrograms/kg. Both CGRP and MCh significantly increased blood flow (p less than 0.05) resulting in 34% lower peripheral resistances compared with controls. These results suggest that CGRP has considerable clinical potential for the salvage of ischaemic flaps. CGRP must have several, as yet undefined, beneficial effects on the ischaemic tissue, since MCh invoked a vasodilatory response but failed to salvage ischaemic flaps.     

Renal function after warm ischaemia. I. Effect of initial perfusate and its temperature.

The left kidneys of anaesthetized, heparinized rats were subjected to a 60-min period of warm ischaemia in vivo and perfused in situ with either isotonic saline, human plasma protein fraction, Perfudex (Pharmacia), 20% mannitol or Sacks' solution at 37 degrees C. A second similar series were perfused at 4 degrees C. One further group had autologous arterial blood perfusion at body temperature. Immediate contralateral nephrectomy was done and function was assessed by regular plasma creatinine estimation and survival (life supporting function). Control groups consisted of unilateral nephrectomy alone, 45 or 60 min of ischaemia with immediate contralateral nephrectomy. The only significant improvement in function in the experimental groups when compared to the 60-min ischaemia control group was seen following perfusion with isotonic saline at 37 degrees C (p less than 0.05) and with autologous arterial blood perfusion (p less than 0.005). Renal function following this period of warm ischaemia was not significantly improved by any of the other perfusates tested.     

Superiority of the two-layer method before islet isolation confirmed by in vivo viability assessment

BACKGROUND: Although the outcome of islet transplantation has improved, there remains a major obstacle in isolating viable islets from prolonged preserved pancreas. We previously reported that the two-layer cold storage method (TLM) improved the yield and in vitro function. In this study, we performed in vivo accurate functional analyses of islets from TLM-preserved pancreas and investigated pancreatic duct cell viability, which may critically affect islet isolation. METHODS: Rat islets isolated from fresh pancreas (group 1), after preservation in the University of Wisconsin (UW) solution (group 2) or by the TLM (group 3), were examined by assessing islet yields, stimulation indices, cure rates after transplantation to diabetic nude mice, and trypan blue uptake of pancreatic duct cells. RESULTS: TLM significantly improved the islet yield compared with UW cold storage. The cure rates after transplantation were 100%, 0%, and 80% for groups 1, 2, and 3, respectively. This indicates that islet viability was well maintained even after 24 hr of TLM preservation. The percentages of nonviable duct cells were 4.1%+/-1.9%, 48.3%+/-8.0%, and 26.1%+/-21.4% in groups 1, 2, and 3, respectively, showing that the TLM was superior to UW as seen by this duct cell viability assessment. CONCLUSIONS: The TLM used for pancreas preservation before islet isolation results in excellent islet function in addition to improved islet yield comparable to freshly isolated islets. The underlying mechanism may be duct cell viability maintained during TLM preservation. Therefore the TLM is an excellent preservation technique for isolating sufficient numbers of highly viable islets.     

Functional, metabolic, and histological changes of vascular tissues after warm ischemia.

We examined functional, metabolic, and histological changes in the aortic tissue of rats after the period of warm ischemia ranging from 0 to 24 hours to determine the window of time in which grafts can be optimally viable for harvest. Sixty aortas from Brown Norway rats obtained after warm ischemia were used and changes in contraction, endothelial-dependent or -independent vasodilatation, cell viability, and histology were examined. Maximal contraction induced by norepinephrine and potassium chloride decreased time-dependently after exposure to warm ischemia. The warm ischemic period when 50% of the maximal contractile response of freshly isolated arteries was preserved, ranged from 6 to 8 hours. Maximal endothelium-dependent relaxation induced by acetylcholine decreased along with the time of warm ischemia. Endothelium-independent relaxation induced by sodium nitroprusside and forskolin was unaltered for up to 9 hours. Cell viability gradually decreased, and a significant negative correlation was found between warm ischemic period (T: hours) and cell viability (V: %) (V=101.9-2.35T; r(2)=0.96; p<0.0001). Cell viability was greater than 70% within 12 hours postmortem. Histologically, after 9-hour-warm ischemia irreversible changes were detected. Results suggest that the period of warm ischemia for up to 6 hours would be acceptable for preservation of tissue viability.     

Isolation of hepatocytes from livers from non-heart-beating donors for cell transplantation.

One of the limitations to hepatocyte transplantation is the restricted availability of donor liver tissue. The aim of this study was to evaluate livers from non-heart-beating donors (NHBDs) as a source of hepatocytes for cell transplantation. A total of 20 livers/segments obtained from NHBD were perfused under good manufacturing practices using a standard collagenase digestion method. The donor liver median warm ischemia time was 15 minutes (range, 11-40 minutes), and cold ischemia time was 13 hours (range, 6-30 hours) prior to cell isolation. The cell viability of the hepatocytes obtained was 52% (1-81%), with a yield of 2.2 x 10(6)(0.2-29.7 x 10(6)) cells per gram of tissue. There was a significant negative correlation between hepatocyte viability and length of both warm ischemia (r = -0.544, P = 0.013) and cold ischemia (r = -0.510, P = 0.022). Preliminary experiments were performed on the viability testing of NHBD livers based on digestion of needle biopsies with collagenase and assessment of the hepatocytes produced. Two of the NHBD cell preparations, which had been cryopreserved, were used as part of a series of cell infusions for hepatocyte transplantation. A 3.5-yr-old girl with Crigler-Najjar syndrome type I received 9.7 x 10(8) NHBD hepatocytes (viability on thawing, 65%), and a 4-month-old boy with inherited clotting factor VII deficiency received 5.0 x 10(8) hepatocytes (viability, 57%). In conclusion, hepatocytes suitable for cell transplantation can be obtained from NHBD livers. Higher viability values may be obtained if both warm and cold ischemia times of donor liver can be reduced prior to processing.     

Isolation of Viable Porcine Islets by Selective Osmotic Shock Without Enzymatic Digestion

Islet transplantation is a potential cure for type 1 diabetes, but clinical results have been disappointing. Currently, islet isolation is by enzymatic digestion of the pancreas which has significant pitfalls: warm ischemia exposure, collagenase-induced damage to the islet mass and viability, poor reproducibility, high cost, a relatively low number of islets obtained per whole pancreas, and selection of islets for collagenase resistance rather than for glucose responsiveness. In the present study we performed a series of experiments in a porcine model to demonstrate the feasibility of a new isolation method based on selective osmotic shock (SOS) using very high glucose solutions, doubling or tripling physiological osmotic strength. The SOS method can be carried out at room temperature or in the cold eliminating warm ischemia time which damages the islets. The SOS method does not depend on the texture of the pancreas so all pancreases can be processed identically and the process can be fully automated. The SOS method isolates all the islets of the pancreas regardless of size and shape allowing a greater number of islets to be harvested. The SOS method avoids exposure to toxins in collagenase solutions, is inexpensive and selects for islets with high concentrations of Glut 2 transporters, representing the best glucose responding islets. The SOS method showed a comparable recovery of islets from young pig pancreas and the islets showed improved viability. We conclude that the selective osmotic shock (SOS) method of separating islets from the pancreatic tissue is superior to the collagenase method.     

Effect of ischemic preconditioning on hepatic tolerance to cold ischemia in the rat

Abstract A short warm ischemia before reperfusion has been shown to improve the tolerance of the heart and the liver to a prolonged warm ischaemia. The present experimental study was conducted to evaluate the effect of such preconditioning on hepatic tolerance to an extended cold ischemia. In a model of isolated perfused liver, livers from Wistar rats (250–350 g) were stored for 24 h in UW (4°C) immediately after harvesting and reperfused for 3 h at 37°C. Control livers subjected to a 24-h cold ischemia were compared to livers subjected to preconditioning (defined as a 5- or 10-min clamping of the hepatic pedicle followed by a 10-min reperfusion before liver harvesting) prior to the definitive 24-h cold ischemia. While there was no difference in bile production between the preconditioned groups and the controls, transaminases and LDH release was significantly increased, vascular resistance was enhanced, and preservation injury was more extensive in both preconditioned groups as compared to controls. In contrast to the beneficial effect reported on prolonged warm ischaemia, preconditioning has a deleterious effect on hepatic tolerance to an extended cold ischemia.     

A new transportable machine for the preservation of livers to be transplanted by means of hyperbaric oxygenation perfusion

The preservation of livers to be transplanted is currently obtained by static cold storage at 4 C degrees and flushing with UW solution. New methods of preservation are being studied that take advantage of machines for continuous hypothermic perfusion of the organ. Such machines have permitted a lengthening of preservation times and the use of livers from non-beating-heart donors. In an attempt to eliminate the damage due to hypothermia, to lengthen preservation times, and to extend the availability of livers to be transplanted, also using those subjected to short periods of warm ischaemia, we have constructed a transportable machine that produces a hyperbaric atmosphere and allows continuous perfusion of the liver. Ten pig livers from beating-heart donors were perfused with Ringer solution in hyperbaric conditions with oxygen at temperatures ranging from 10 to 25 degrees C for periods of up to 24 hours and studied by means of histopathological analysis and tests of mitochondrial activity (FAU) in order to verify cell viability. The group of livers perfused up to 15 hours yielded an FAU value of 169.40 +/- 5.5 compared to the value of the non-perfused livers (controls) established as 100 and those perfused up to 24 hours had a FAU value of 139.18 +/- 10.7 compared to the controls established as 100, thus demonstrating cell viability. The viability of the organs after preservation with our procedure in the hyperbaric oxygenation perfusion machine gives us good reason to believe that, after appropriate further confirmation of the results, it will be possible to use the machine for the transplantation both of livers subjected to warm ischaemia and of livers preserved for longer periods than is currently the case.     

The development of new density gradient media for purifying human islets and islet-quality assessments

Successful islet transplantation is dependent on the quality and quantity of islets infused. Islets are purified on density gradients, but procedures currently used have limited capacity for pancreatic digests, islet yield, and viability. We aimed to improve islet purification with a modified gradient medium. Biocoll was diluted in University of Wisconsin solution to create linear density gradients of 1.065 to 1.095 g/mL. Properties of islets purified from 22 human pancreas digests with modified medium were compared with 15 preparations using standard medium. The modification increased the capacity of gradients for pancreatic digests from 20 to 60 mL, islet yield increased from 218,000 to 435,318 per isolation, and viability increased from 65.4% to 92.1%. Islet fractions contained greater than 95% of recovered insulin. Islets showed good physiologic responses to secretagogues and restored normoglycemia in streptozotocin-induced diabetic severe combined immunodeficiency disease mice. The new medium enhances yield, purity, and viability of human islet preparations for clinical islet transplantation.     

Progress in individualizing autologous islet isolation techniques for pediatric islet autotransplantation after total pancreatectomy in children for chronic pancreatitis

Total pancreatectomy with islet autotransplantation is performed to treat chronic pancreatitis in children. Successful islet isolation must address the challenges of severe pancreatic fibrosis and young donor age. We have progressively introduced modifications to optimize enzymatic and mechanical dissociation of the pancreas during islet isolation. We evaluated 2 islet isolation metrics in 138 children—digest islet equivalents per gram pancreas tissue (IEQ/g) and digest IEQ per kilogram body weight (IEQ/kg), using multiple regression to adjust for key disease and patient features. Islet yield at digest had an average 4569 (standard deviation 2949) islet equivalent (IEQ)/g and 4946 (4009) IEQ/kg, with 59.1% embedded in exocrine tissue. Cases with very low yield (<2000 IEQ/g or IEQ/kg) have decreased substantially over time, 6.8% and 9.1%, respectively, in the most recent tertile of time compared to 19.2% and 23.4% in the middle and 34.1% and 36.4% in the oldest tertile. IEQ/g and IEQ/kg adjusted for patient and disease factors improved in consistency and yield in the modern era. Minimal mechanical disruption during digestion, warm enzymatic digestion using enzyme collagenase:NP activity ratio < 10:1, coupled with extended distension and trimming time during islet isolation of younger and fibrotic pediatric pancreases, gave increased islet yield with improved patient outcomes.     

Flow Cytometric Characterization of Isolated Porcine Hepatocyte Suspensions for Liver Support

Abstract: The high yield hepatocyte isolation necessary for hybrid liver assist devices (LAD) unavoidably increases contamination by nonparenchymal cells and depresses hepatocyte viability and functions. We have developed a flow cytometric procedure that improves quality control of the isolations. Cells present in these preparations were labeled by immunofluorescent antibody staining against cytokeratin 8,18 as well as vimentin to identify hepatocytes, fibroblasts, and endothelial cells. Antibody staining against albumin and carbamoylphos-phate synthetase allowed assessment of levels of albumin and carbamoylphosphate synthetase based on the hepatocyte relative fluorescence intensity. Hepatocyte P450 enzyme activity was measured by its ability to convert 5,6-methoxycarbonylfluorescein, a nonfluorescent substrate, to an intracellular fluorescent product. Flow cytometric methods of cell type identification and cell function assessment are fast and accurate and can be applied to commercial cell production. They may also provide an avenue for the enrichment of otherwise heterogeneous hepatocyte suspensions with cells presenting the specific functions desired for an hybrid liver assist devices.     

扩大标准的供者胰腺在胰岛移植中应用的动物实验

目的 通过系列的动物实验,从供者胰腺(简称:供胰)的热缺血时间、脂肪浸润程度和灌注损伤程度三个方面初步探讨扩大标准的供胰在胰岛移植中的应用. 方法 实验动物采用雄性Wistar大鼠.根据不同的干预冈素,将供胰分为3组,热缺血组、灌注水肿组和脂肪浸润组;另选正常胰腺作为正常对照组.胰岛提取采用原位灌注、胶原酶消化和Ficoll梯度密度离心法.获取的胰岛用双硫腙染色来计算分离的胰岛数目并判断所获取的胰岛纯度;丫啶橙/溴乙啶荧光染色法检测胰岛细胞的活率;体外葡萄糖刺激下胰岛素释放试验检测胰岛功能. 结果 胰腺热缺血15 min内对胰岛的提取量和活率无明显影响,纯度略有下降;热缺血30 min内胰岛的提取量、活率及纯度均明显下降,但胰岛体外功能良好;热缺血45 min时,胰岛体外功能不良.胰腺轻度和中度脂肪浸润时,胰岛提取量及胰岛素释放指数(SI)明显高于正常对照组,而重度脂肪浸润时,胰岛提取量较正常对照组明显降低,且体外功能不良,SI显著下降.胰腺轻度和中度水肿对胰岛提取量、活率、纯度及功能均无明显影响;胰腺重度水肿(含水量＞80%)时,胰岛的提取量、活率及纯度下降,体外功能不良,SI显著低于正常对照组. 结论 供胰质量是影响胰岛提取及功能的重要因素,重度脂肪浸润、严重灌注水肿、热缺血时间超过30 min均影响胰岛提取的数量、纯度及活率,对胰岛功能也有较大影响.     

Hepatocyte transplantation: new horizons and challenges

Hepatocyte transplantation represents an alternative strategy for treating liver disease. Liver repopulation following acute liver failure could, potentially, eliminate the requirement for orthotopic liver transplantation. Similarly, the ability to repopulate the liver with disease-resistant hepatocytes offers new opportunities for correcting genetic disorders and treating patients with chronic liver disease. Recent advances concerning the fate of transplanted cells in the recipient liver, the efficacy of cell therapy in outstanding animal models of human disease, and the isolation of progenitor liver cells capable of differentiating into mature hepatocytes have renewed optimism in regard to treating people with hepatocyte transplantation. Recruitment of an increasing number of investigators to the field and the success of recent pilot studies indicate that hepatocyte transplantation will become routine clinical practice in the near future. Received: July 4, 2000 / Accepted: October 12, 2000