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.     

Effect of fructose-1,6-bisphosphate in the cold storage solution after 12 and 36 hours of rat liver preservation

Fructose-1,6-bisphosphate (FBP) has been reported to have a protective effect on liver injury following ischemic/reperfusion periods because it maintains ATP levels during cold preservation. In the present study, we evaluated the effects of addition of FBP to storage solutions for cold liver preservation during 12 or 36 hours. Adult male Wistar rats were randomly divided into three experimental groups. The hepatic perfusion and preservation were performed with these solutions: UW; UW plus 10 mmol/L FBP; and FBP 10 mmol/L (FBPS) alone. The biochemical measurements of AST and ALT were performed on samples of the cold storage solution after 12- or 36-hour preservation. UW and FBPS solutions showed similar preservation grades at 12 hours. Addition of 10 mmol/L of FBP to UW solution induced liver injury and a poor preservation grade during 12 or 36 hours. UW solution was better than FBPS after 36 hours preservation. UW solution continues to offer a superior performance for liver preservation during long times; however, FBPS may be an alternative for short cold preservation times.     

Addition of a water-soluble alpha-tocopherol analogue to University of Wisconsin solution improves endothelial viability and decreases lung reperfusion injury.

BACKGROUND: Reperfusion injury following lung preservation has been associated with free radical formation and subsequent endothelial cell damage. Trolox is a water-soluble analogue of the free radical scavenger alpha-tocopherol. We hypothesized that addition of this form of vitamin E to University of Wisconsin (UW) solution would decrease reperfusion injury and improve lung function after cold ischemic preservation. MATERIALS AND METHODS: Bovine aortic endothelial cells were cultured and stored at 4 degrees C for 12, 24, and 48 h in UW or UW + Trolox (UWT). Endothelial cell viability after storage was assessed by dimethylthiazole tetrazolium cytotoxicity assay. An isolated rat perfused lung (IPL) model was used and lungs were flushed with the respective solutions with cold storage times of 6 and 12 h. Following storage, the lungs were reperfused with fresh blood and lung function was assessed by blood gas analysis, alveolar-arterial gradient, and compliance. RESULTS: There was no difference in endothelial cell viability between UW and UWT after 12 or 24 h; however, UWT had higher endothelial cell viability than UW with 48 h of cold ischemic storage. Using the IPL model, the pO2 was higher with UWT than UW after 6 and 12 h of cold ischemia. The alveolar-arterial oxygen difference was significantly lower for UWT versus UW at 6 h. UWT provided increased compliance at 6 and 12 h of ischemia. CONCLUSIONS: The addition of a water-soluble vitamin E analogue to UW solution resulted in increased endothelial cell viability after prolonged storage and improved whole lung preservation in the postreperfusion period as evidenced by higher oxygenation and increased compliance. These results are clinically relevant as the lung is extremely sensitive to reperfusion injury and UW solution is being increasingly used in lung transplantation and remains the predominant solution in abdominal organ transplantation.     

Cold storage of rat skeletal muscle free flaps and pre-ischemic perfusion with modified UW solution

We used the rat medial gastrocnemius free flap, based on a pedicle of the femoral artery and vein, in order to test the tolerance of skeletal muscle to cold ischemia-reperfusion (IR) injury, and to determine whether tolerance can be enhanced by pre-ischemic perfusion with tissue/organ preservation solutions. Muscle flaps (n = 6 per group) were subjected to variable periods of cold storage (0, 1, 2, 3, or 4 days) and 24-h normothermic reperfusion. Muscle viability, as determined by nitroblue tetrazolium (NBT) histochemical staining of viable mitochondria and supported by histological examination, was 100%, 26%, 11%, 4%, and 1%, respectively. Using 24-h cold storage/24-h reperfusion as the experimental conditions, groups of muscle flaps (n = 5 per group) were perfused immediately before cold storage with either modified, colloid-free University of Wisconsin (UW) solution, a solution described by Kohout et al. (Br J Plast Surg 1995;48:132-144) or normal saline. Perfusion with modified UW solution or Kohout's solution increased survival to 33% (P < 0.05) and 28% (not statistically significant), respectively, compared with the 19% viability of separate groups of nonperfused or saline-perfused controls. These findings indicate that cold-stored skeletal muscle is highly susceptible to cold IR injury and that the viability can be increased by prior perfusion with a tissue preservation solution such as modified UW solution.     

Effect of hyperbarically oxygenated-perfluorochemical with University of Wisconsin solution on preservation of rat small intestine using an original pressure-resistant portable apparatus

BACKGROUND: Perfluorochemicals (PFC) are chemical substances that have a higher oxygen solubility under hyperbaric oxygen (HBO) pressure. This study investigated the effect of cold HBO-PFC/University of Wisconsin (UW) solution on preservation of rat small intestinal graft. METHODS: We manufactured an air-tight, pressure-resistant tank made of stainless steel with high thermal conductivity. Rat ileal grafts were placed in a custom-made silicon-gum bag with UW solution, which was immersed in 5 atm HBO-PFC solution in the tank (Group P-5). The tank was kept at 4 degrees C. We compared the ATP concentration and mucosal permeability in Group P-5 with grafts preserved in 1 atm oxygenated-PFC/UW solution (Group P-1) and simple cold storage in UW solution (Group C). Histologic study was also performed. RESULTS: PO(2) in UW solution after 48 h preservation were 1852 +/- 37, 499 +/- 13, and 173 +/- 3 mmHg (Group P-5, P-1 and C, respectively, mean +/- SD). At 48 h of preservation, graft ATP concentration was significantly greater in Group P-5 compared to that in Group P-1 and Group C. Mucosal hyperpermeability as well as mucosal morphologic changes were also ameliorated in Group P-5. CONCLUSION: HBO-PFC can supply a greater amount of oxygen to UW solution. Indirect measures of oxygen metabolism such as ATP content and lactate production suggested improvement in maintaining graft oxygen metabolism.     

An examination of the effects of solutions containing histidine and lactobionate for heart, pancreas, and liver preservation in the rat.

Fifty-five rat pancreas transplants, 18 rat heart transplants, and 41 rat liver transplants were performed using standard UW solution, the new HL solution (HL-I), or a modified HL solution (HL-II). Storage times of 18 hr were used in the heart preservation experiments, 24 hr in the liver preservation experiments, and 48 or 72 hr in the pancreas preservation experiments. HL-I solution was superior to both HL-II and UW solution for heart preservation (1-week graft survival rates of 100% [7/7], 0% [0/5], and 50% [3/6], respectively). HL-I and HL-II were superior to UW for 24 hr liver preservation (1-week graft survival rates of 78% [11/14], 80% [8/10], and 29% [5/17], respectively). In contrast, HL-II was superior to both HL-I and UW solutions for pancreas preservation following both 48-hr preservation and 72-hr preservation. Satisfactory graft function was achieved in 100% (7/7), 40% (6/15), and 44.4% (4/9) of pancreases transplanted after 48 hr using HL-II, HL-I, and UW solutions, respectively, and in 50% (4/8), 0% (0/8), and 0% (0/8) following 72-hr preservation. Histidine- and lactobionate-containing solutions thus represent a further improvement in organ preservation by simple cold storage.     

Luminescence-Based Assay to Screen Preservation Solutions for Optimal Ability to Maintain Viability of Rat Intestinal Grafts

Background

Segmental intestinal transplantations from living, genetically related donors provide advantages compared with those from cadaveric subjects. However, successful preservation during ischemic cold storage is critical for living donor grafts. Thus, the development of preservation solutions that maintain graft viability is essential for success. Herein we have reported application of a cell-based viability assay in multiwell plates to assess the effectiveness of various solutions to preserve intestinal grafts.

Methods

Freshly isolated intestinal chips from luciferase transgenic rats were placed in 96-well tissue culture plates for incubation at 4°C for 24 hours in various preservation solutions: ET-Kyoto (ET-K), University of Wisconsin (UW) solution, Euro-Collins (EC) solution, histidine-tryptophan-ketoglutarate (HTK) solution, lactated Ringer’s (LR) solution, or saline.

Results

As indicated by a higher level of luminescence, intestinal chips preserved in UW, HTK, or ET-K solution contained more viable cells, than those preserved in EC, LR, or saline solution. After exposure to the preservation solutions for 1 hour, the mucosal layer chips showed lower cell viability than the muscle layer chips.

Conclusion

Our data demonstrated that ET-K and UW solutions used together with intestinal chips of Luciferase transgenic rat and in vivo imaging provided optimal viability during ischemic cold storage prior to transplantation. Further development of preservation conditions to minimize the loss of viability of intestinal grafts before clinical transplantation is essential to improve outcomes.     

Comparative efficacy of renal preservation solutions to limit functional impairment after warm ischemic injury

In kidney transplantation, cold storage is the dominant modality used to prolong organ viability ex vivo, but is inevitably followed by a period of warm ischemia. Preservation fluids limit tissue damage during the ischemic period, but there is little information on the influence of preservation fluids on the physiologic consequences of warm ischemia alone, or on the comparative ability of such preservation fluids to limit warm ischemic injury. In this study, warm ischemia was induced in rat kidneys by crossclamping the left renal pedicle for 45 min with contralateral nephrectomy. The ischemic kidneys were flushed with Euro-Collins (EC), hyper osmolar citrate (HOC), University of Wisconsin (UW), or phosphate buffered sucrose (PBS)140 solution. Over a period of 2 h after reperfusion, urine and blood samples were collected and physiological parameters related to the function of the postischemic kidneys were assessed. The data show that postischemic renal function can be influenced by the choice of preservation fluid. Essentially, the continued use of EC as a renal preservation solution finds little support in these data, and, while HOC and UW solutions were better able to limit the decline in renal function after warm ischemia than EC, the solution most able to limit functional impairment after warm ischemia was PBS140. This analysis compares the efficacies of the commonly used preservation solutions and could form the basis for future solid-organ transplant studies that may ultimately allow us to propose best-practice guidelines and an optimum platform for improved preservation solutions.     

Pancreas preservation with University of Wisconsin and Celsior solutions

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

Liver transplantation from non–heart beating donors in rats: Influence of viscosity and temperature of initial flushing solutions on graft function

BACKGROUND: We evaluated the effect of warm (37 degrees C) versus cold (4 degrees C) solutions as the initial flush for liver preservation from non-heart beating donors in rats. METHODS: An initial flush was performed just before donor hepatectomy with cold or warm University of Wisconsin solution (UW), UW without hydroxyethyl starch, sodium lactobionate sucrose solution, or lactated Ringer's solution as the control group. A separate group also used as control received no initial flushing. Liver transplantation was performed, and the graft function was determined by survival and assessment of enzyme release. The viscosity of each solution and the vascular resistance of the graft were measured. RESULTS: The 7-day survival rate was 83% and 100% in the warm and cold sodium lactobionate sucrose solution groups and 60% and 50% in the warm and cold lactated Ringer's solution groups, respectively. In the no-initial-flush group, rats did not survive. The 7-day survival rate was 67% and 0% in the warm and cold UW groups, respectively. Eliminating the hydroxyethyl starch from the cold UW improved the survival to 67%. Serum alanine aminotransferase levels 1 day after transplantation in the no-initial-flush and the cold UW groups were significantly higher than those of the remaining groups. At 4 degrees C the viscosity was higher in the UW (86.2 cp) compared to hydroxyethyl starch-free UW solution (30.9 cp), lactated Ringer's solution (24.5 cp), and sodium lactobionate sucrose solution (32.7 cp). The viscosity of UW at 37 degrees C was 34.7 cp. Vascular resistance correlated well with the viscosity. Livers flushed with solutions with a low viscosity showed lower vascular resistance than those flushed with cold UW and led to better survival. CONCLUSIONS: These data suggest that the viscosity of the initial flushing solution may play an important role in determining the outcome of organ procurement from non- heart beating donors. (Liver Transpl Surg 1997 Jan;3(1):39-45)     

Sequential cold storage and normothermic perfusion of the ischemic rat liver

Extending transplant criteria to include livers obtained from donors after cardiac death (DCD) could increase the liver donor pool, but conventional simple cold storage of these ischemic organs can lead to poor graft function after transplantation. Experimental normothermic machine perfusion has previously proven to be useful for the recovery and preservation of DCD livers, but it is more complicated than conventional cold storage, and, therefore, is perhaps not practical during the entire preservation period. In clinical situations, the combined use of simple cold storage and normothermic perfusion preservation of DCD livers might be more realistic, but even a brief period of cold storage prior to normothermic preservation has been suggested to have a negative impact on graft viability. In this study we show that rat livers subjected to 45 minutes of ex vivo warm ischemia followed by 2 hours of simple cold storage can be reclaimed by 4 hours of normothermic machine perfusion. These livers could be orthotopically transplanted into syngeneic recipients with 100% survival after 4 weeks (N = 10), similar to the survival of animals that received fresh livers that were stored on ice in University of Wisconsin (UW) solution for 6 hours (N = 6). On the other hand, rats that received ischemic livers preserved on ice in UW solution for 6 hours (N = 6) all died within 12 hours after transplantation. These results suggest that normothermic perfusion can be used to reclaim DCD livers subjected to an additional period of cold ischemia during hypothermic storage.     

Protective effect of fructose-1,6-bisphosphate in the cold storage solution for liver preservation in rat hepatic transplantation

Fructose-1,6-bisphosphate (FBP) has been reported to have a protective effect on liver injury following ischemic/reperfusion periods. FBP maintains ATP levels and thereby cellular energy metabolism, which is important to the liver during cold preservation. In the present study, we evaluated the effects of FBP on the composition of storage solutions for cold liver preservation. Adult male Wistar rats were randomly divided into three experimental groups. Hepatic perfusion and preservation were performed with UW, UW plus 10 mmol/L FBP (UWM), and FBP 10 mmol/L (FBPS) alone solutions. Biochemical measurements of AST, ALT, and TBARS were performed on samples of the cold storage solution at 0, 12, 18, and 24 hours preservation. FBPS and UW solutions showed similar preservation grades during 18 hours. Addition of 10 mmol/L of FBP to UW solution induced liver injury and a poor preservation grade. FBP appears to protect the liver from injury caused by free radicals when the preservation time is less than 18 hours. Therefore, FBP may exert a protective effect for the preservation of livers during cold storage, and could represent an important component of new cold storage solutions.     

Calcium antagonists in sodium lactobionate sucrose solution for rat liver preservation.

The effects of the calcium antagonists, chlorpromazine (CPZ), nisoldipine (NIS), trifluoperazine (TFP), and nicardipine (NIC) were compared in rat livers following either 20- or 30-hr ice storage in sodium lactobionate sucrose solution (SLS). Survivals beyond 7 days after orthotopic liver transplantation following 20-hr cold storage were 1/14 in the University of Wisconsin solution, 4/14 in SLS, 4/8 in UW+CPZ, 7/8 in SLS+CPZ. Survivals beyond 7 days after OLT following 30-hr cold storage were 3/8 in SLS+CPZ, 3/8 in SLS+NIS, 2/8 in SLS+TFP, 0/8 in SLS+NIC, and 0/8 in SLS alone. Survival rates were significantly (P less than 0.05) better in both SLS+CPZ and SLS+NIS than in UW and SLS alone. The effluent lactate dehydrogenase (LDH) levels and pH changes were measured at the time of OLT. After 20 hr, LDH levels were 525 +/- 78 IU/L (mean +/- SEM) in UW, 492 +/- 44 in SLS, 322 +/- 35 in UW+CPZ, and 290 +/- 39 in SLS+CPZ. After 30 hr, LDH values were 416 +/- 40 in SLS+CPZ, 450 +/- 25 in SLS+NIS, 448 +/- 21 in SLS+TFP, 573 +/- 18 in SLS+NIC, and 614 +/- 68 in SLS. The LDH levels for SLS+CPZ and SLS+NIS were significantly lower than those of SLS and UW (P less than 0.01). The pH changes in the effluent were significantly less in both the CPZ and NIS groups (P less than 0.01). This study demonstrated improved liver preservation by the use of a simplified colloid-free lactobionate solution containing sodium as the principal cation. The addition of CPZ or NIS to the solution demonstrated the same potency for significant improvement in efficacy of this solution, while NIC was ineffective.     

Successful 72-hour cold storage of dog kidneys with UW solution

Effects of three cold-storage solutions on kidney function in dogs were examined with the isolated perfused (IPK) kidney model and the autotransplant model. EuroCollins' (EC) solution, phosphate-buffered sucrose solution, and a new solution developed at the University of Wisconsin (UW) were studied. Kidneys were cold-stored for 48 hr or 72 hr. With the IPK model, cold storage for 48 hr or 72 hr in each of the three solutions caused creatinine clearance to decrease by 80%-90%. More protein was excreted by kidneys stored for 48 hr in PBS solution than by kidneys stored in EC or UW solution; protein excretion after 72 hr of storage was similar for kidneys stored in EC or UW solution. Sodium reabsorption decreased after 48 hr or 72 hr of storage, but was higher in kidneys stored in UW solution (83% and 56%, respectively) than in EC solution (52% and 22%, respectively). With the autotransplant model, 40% of the kidneys were viable after 48-hr storage in PBS solution, but 80% viable when stored in EC solution and 100% were viable when stored in UW solution. All kidneys were viable when stored for 72 hr in UW solution; none were viable when stored for 72 hr in EC solution. These results suggest that UW solution effectively preserves kidneys for 72 hr. We previously reported successful 72-hr pancreas preservation. Recently UW solution was able to preserve canine livers for 30 hr. Thus, this single solution appears to be effective for preserving all intraabdominal organs and may simplify cold storage of organs for transplantation.     

Comparison of Preservation Solutions for Washout of Kidney Grafts: An Experimental Study

Objective

The impact of different preservation solutions for washout of kidney grafts was evaluated regarding temperature, kidney weight, remaining red blood cells (RBCs) and histological evaluation after ex vivo washout using 500 mL cold preservation solution at 4°C followed by 24 hours cold storage (CS).

Methods

Kidneys retrieved from Landrace pigs (20–30 kg) were immediately washed (warm ischemic time 0 min [WIT 0]), using 500 mL cold University of Wisconsin solution (UW), histidine-tryptophan-ketoglutarate (HTK), or Polysol (PS) followed by 24 hours, CS. Also, kidneys were retrieved after a WIT of 30 minutes followed by washout using HTK or PS.

Results

After washout, the weight of kidneys washed out with HTK had increased, whereas that of organs in the UW or PS group had decreased. After washout with UW, the core temperature of WIT 0 kidneys was lower than that with HTK. The time needed for washout using 500 mL solution was shorter using PS compared with HTK for both WIT 0 and WIT 30 groups. The amount of remaining RBCs was similar between all WIT 0 groups; whereas in the WIT 30 groups the amount was higher in kidneys washed out using HTK compared with PS. Histological evaluation showed less tissue injury among PS-washed kidneys compared with UW or HTK.

Conclusion

Overall, kidneys washed-out with PS showed better preservation of structural integrity after 24 hours, CS compared with either UW or HTK. Washout of warm ischemically damaged kidneys was more effective using PS compared with HTK.     

Kidney transplantation from elderly donors: a prospective randomized study comparing celsior and UW solutions

AIM: The aim of present study was to assess the effect of Celsior as compared with University of Wisconsin (UW) solution on immediate and long-term function of kidney transplants harvested from elderly donors. METHODS: A prospective multicenter randomized study was designed to evaluate the efficacy of Celsior versus UW solution for the clinical preservation of the kidney. Fifty renal transplants were performed from donors over 60 years old. Twenty-five kidneys were stored in Celsior and 25 in UW solution. The groups were comparable with regard to donor and recipient characteristics. Renal function outcomes were compared by evaluating delayed graft function rates, daily urinary output, as well as the evolution of mean serum creatinine at 1, 3, 5, 7, and 15 days. RESULTS: The warm ischemia time was 42.4 +/- 11 minutes among Celsior vs 46.9 +/- 17.9 minutes in the UW cohort (P = NS). The cold ischemia time was 18 +/- 4.5 hours in Celsior and 19 +/- 6.5 hours in UW (P = NS). Delayed graft function occurred in 48% of the Celsior group and in 52% of the UW group (P = NS). Mean serum creatinine levels and mean daily urinary output were also similar. One- and 5-year graft survivals of kidneys preserved with Celsior were 91.8% and 79.3% compared with 96% and 87.4% for UW without any significant statistical difference. CONCLUSIONS: Our data show that the preservation of kidneys from elderly donors in Celsior solution is equivalent to that of UW solution.     

Influence of preservation solution on human islet isolation outcome

BACKGROUND: The influence of the preservation solution used for in situ perfusion of the donor and pancreas storage on islet isolation has received little attention. METHODS: In this prospective controlled trial, we compared the outcome of human islet isolation from pancreata perfused with University of Wisconsin (UW) solution or Celsior, an alternative colloid-free extracellular solution. RESULTS: At the 1-year interim analysis, the viability and insulin secretion of islets isolated from donors perfused with UW (n=19) or Celsior (n=5) were identical. However, total islet recovery (IEQ) and isolation yield (IEQ/g) were 1.8-fold and 2.1-fold inferior in the Celsior group (P<0.05 vs. UW). Overall, 13 (68%) of islet preparations were effectively transplanted from the UW group vs. none from the Celsior group (P=0.01). The clinical study was discontinued and the causes of these differences were further explored in the pig (n=14). In contrast to UW, Celsior induced cell swelling and pancreas edema after only four hours of cold storage. These abnormalities were delayed when the donor was perfused with Solution de Conservation d'Organes et de Tissus (SCOT), an extracellular solution containing polyethylene glycol. CONCLUSIONS: Our results suggest that colloid-free preservation solutions might be suboptimal for pancreas perfusion and cold storage prior to islet isolation and transplantation. Because pancreata are now frequently recovered for islet transplantation, preliminary experimental and clinical data about islet isolation should be obtained prior to the routine implementation of new preservation solutions for abdominal perfusion during multiorgan recovery.     

Preservation of the heart with University of Wisconsin solution--hemodynamic and morphological evaluation in a canine heterotopically transplanted heart]

University of Wisconsin (UW) solution has been reported to extend the safe cold ischemic time in the preservation of the liver, kidney and pancreas. However, there have been few reports of safe cold ischemic time in heart preservation with UW solution. The purpose of this study was to find whether UW solution can extend the safe cold ischemic time in cardiac transplantation in dogs. Heterotopic cardiac transplantation was performed in mongrel dogs after cold ischemic preservation of the hearts with UW solution, ischemic time 8, 16 and 24 hours (Gr.UW8, Gr.UW16 and Gr.UW24, respectively) and with GIK solution, ischemic time 4 hours (Gr.G4) which is considered the safe cold ischemic time in clinical cardiac transplantation. The following was studied: 1) Emax of the LV, myocardial contraction, by pressure-volume curve with the volume measured conductance catheter method, 2) myocardial tissue blood flow of the LV (MTBF), with laser doppler tissue flow meter, 3) serum CPK and electron microscopical evaluation. Emax and MTBF were measured before transplantation and after reperfusion. Their results were expressed as percentage of the values before transplantation. As results, after 120 minutes from reperfusion, Emax was recovered to 94 +/- 13% in Gr.G4, 104 +/- 11% in Gr.UW8, 67 +/- 22% in Gr.UW16 and 66 +/- 16% in Gr.UW24. Emax in Gr.G4 and Gr.UW8 were significantly (p less than 0.01) higher than that in Gr.UW16 and Gr.UW24. After 120 minutes from reperfusion, MTBF was recovered to 90 +/- 19% in Gr.G4, 98 +/- 9% in Gr.UW8, 63 +/- 19% in Gr.UW16 and 61 +/- 6% in Gr.UW24.(ABSTRACT TRUNCATED AT 250 WORDS)     

供肝热缺血后对冷保存的耐受时限初步探讨

目的探讨供肝热缺血后耐受冷保存的安全时限。方法利用本组所建立的小型猪肝移植模型,设定供肝热缺血时间为20min,根据在UW液中的冷保存时间不同分为3组,分别冷保存12、16、20h,于肝移植术中及术后检测肝功能、肝脏病理、肝组织ATP含量、移植肝脏再灌注后微循环血流量及动物术后1周存活率。结果UW液冷保存12h组肝移植后小型猪1周内全部存活,而冷保存16、20h组存活率分别为20%、0%;随着冷保存时间的从12h延长到20h,ALT、AST逐渐上升,肝脏ATP含量、肝脏微循环血流量逐渐下降,形态学结果显示肝组织细胞变性、坏死及超微结构损害的程度逐渐加重。冷保存12h组与后两组上述指标存在显著性差异,生化及肝脏微循环指标的改变与病理结果及动物生存率相符合。结论在本实验条件下,热缺血时间为20min的供肝耐受冷保存的安全时限约为12h。     

Kidney preservation with the UW and Euro-Collins solutions. A preliminary report of a clinical comparison

This is a preliminary report of a European Multicenter Trial of the efficacy and safety of the UW solution in kidney preservation. The results obtained with the UW solution are compared with those obtained with Euro-Collins solution in a prospectively randomized study. To date 257 patients have been evaluated, with 128 receiving kidneys preserved in UW solutions and 129 receiving kidneys preserved in Euro-Collins solutions. Demographic characteristics of donors and recipients were identical in both groups. Median (and range) preservation times were similar (24 hr in EC and 24 hr in UW). Maximum preservation time in each group was about 48 hr. The results show that the UW solution is a safe preservation solution for kidneys, with postoperative renal functions, at least, equivalent to those seen in patients transplanted with kidneys preserved in EC solution. In this preliminary analysis of 257 kidneys, use of the UW solution resulted in a more rapid reduction in postoperative serum creatinine, higher creatinine clearance rate, and less postoperative dialysis (21% vs. 31%) when compared with kidneys preserved in EC solution. This study indicates that the UW solution is an effective preservation medium for clinical kidney transplantation. It supports the use of UW solution as a general flushout and cold storage solution for all intraabdominal organs used for transplantation.