Steatotic Donor Transplant Livers: Preservation Strategies to Mitigate against Ischaemia-Reperfusion Injury.

Liver transplantation (LT) is the only definitive treatment for end-stage liver disease, yet the UK has seen a 400% increase in liver disease-related deaths since 1970, constrained further by a critical shortage of donor organs. This shortfall has necessitated the use of extended criteria donor organs, including those with evidence of steatosis. The impact of hepatic steatosis (HS) on graft viability remains a concern, particularly for donor livers with moderate to severe steatosis which are highly sensitive to the process of ischaemia-reperfusion injury (IRI) and static cold storage (SCS) leading to poor post-transplantation outcomes. This review explores the pathophysiological predisposition of steatotic livers to IRI, the limitations of SCS, and alternative preservation strategies, including novel organ preservation solutions (OPS) and normothermic machine perfusion (NMP), to mitigate IRI and improve outcomes for steatotic donor livers. By addressing these challenges, the liver transplant community can enhance the utilisation of steatotic donor livers which is crucial in the context of the global obesity crisis and the growing need to expand the donor pool.

Modification of Preservative Fluids with Antioxidants in Terms of Their Efficacy in Liver Protection before Transplantation.

Transplantation is currently the only effective treatment for patients with end-stage liver failure. In recent years, many advanced studies have been conducted to improve the efficiency of organ preservation techniques. Modifying the composition of the preservation fluids currently used may improve graft function and increase the likelihood of transplantation success. The modified fluid is expected to extend the period of safe liver storage in the peri-transplantation period and to increase the pool of organs for transplantation with livers from marginal donors. This paper provides a literature review of the effects of antioxidants on the efficacy of liver preservation fluids. Medline (PubMed), Scopus, and Cochrane Library databases were searched using a combination of MeSH terms: "liver preservation", "transplantation", "preservation solution", "antioxidant", "cold storage", "mechanical perfusion", "oxidative stress", "ischemia-reperfusion injury". Studies published up to December 2023 were included in the analysis, with a focus on publications from the last 30 years. A total of 45 studies met the inclusion criteria. The chemical compounds analyzed showed mostly bioprotective effects on hepatocytes, including but not limited to multifactorial antioxidant and free radical protective effects. It should be noted that most of the information cited is from reports of studies conducted in animal models, most of them in rodents.

Changes in the levels of free sialic acid during ex vivo lung perfusion do not correlate with pulmonary function. Experimental model.

BACKGROUND: Ex vivo lung perfusion (EVLP) constitutes a tool with great research potential due to its advantages over in vivo and in vitro models. Despite its important contribution to lung reconditioning, this technique has the disadvantage of incurring high costs and can induce pulmonary endothelial injury through perfusion and ventilation. The pulmonary endothelium is made up of endothelial glycocalyx (EG), a coating of proteoglycans (PG) on the luminal surface. PGs are glycoproteins linked to terminal sialic acids (Sia) that can affect homeostasis with responses leading to edema formation. This study evaluated the effect of two ex vivo perfusion solutions on lung function and endothelial injury. METHODS: We divided ten landrace swine into two groups and subjected them to EVLP for 120 min: Group I (n = 5) was perfused with Steen® solution, and Group II (n = 5) was perfused with low-potassium dextran-albumin solution. Ventilatory mechanics, histology, gravimetry, and sialic acid concentrations were evaluated. RESULTS: Both groups showed changes in pulmonary vascular resistance and ventilatory mechanics (p < 0.05, Student's t-test). In addition, the lung injury severity score was better in Group I than in Group II (p < 0.05, Mann-Whitney U); and both groups exhibited a significant increase in Sia concentrations in the perfusate (p < 0.05 t-Student) and Sia immunohistochemical expression. CONCLUSIONS: Sia, as a product of EG disruption during EVLP, was found in all samples obtained in the system; however, the changes in its concentration showed no apparent correlation with lung function.

Protective effects of diclofenac on liver graft preservation.

This study aims to evaluate the effect of diclofenac addition to the preservation solution Celsior on liver graft preservation. Liver from Wistar rats were cold flushed in situ, harvested, and then stored in Celsior solution (24 h, 4 °C) supplemented or not with 50 mg/L of diclofenac sodium salt. Reperfusion was performed (120 min, 37 °C) using the isolated perfusion rat liver model. Perfusate samples were collected to evaluate transaminases' activities after cold storage and by the end of reperfusion. To evaluate liver function, bile flow, hepatic clearance of bromosulfophthalein, and vascular resistance were assessed. Diclofenac scavenging property (DPPH assay) as well as oxidative stress parameters (SOD and MPO activities and the concentration of glutathione, conjugated dienes, MDA, and carbonylated proteins) were measured. Transcription factors (PPAR-γ and NF-κB), inflammation (COX-2, IL-6, HMGB-1, and TLR-4), as well as apoptosis markers (Bcl-2 and Bax) were determined by quantitative RT-PCR. Enriching the preservation solution Celsior with diclofenac sodium salt attenuated liver injuries and improved graft function. Oxidative stress, inflammation, and apoptosis were significantly reduced in Celsior + Diclo solution. Also, diclofenac activated PPAR-γ and inhibited NF-κB transcription factors. To decrease graft damage and improve transplant recovery, diclofenac sodium salt may be a promising additive to preservation solution.

Applicability of the histidine-tryptophan-ketoglutarate solution as a machine perfusion solution for marginal liver grafts.

BACKGROUND AND AIM: There are very few reports comparing the use of the University of Wisconsin solution and histidine-tryptophan-ketoglutarate solution as machine perfusion solutions for marginal liver grafts. We aimed to clarify whether the use of the histidine-tryptophan-ketoglutarate solution in hypothermic machine perfusion improves the split-liver graft function in a large animal model. METHODS: Porcine split-liver grafts were created by 75% liver resection. Hypothermic machine perfusion experimental groups were divided as follows: Group 1, perfusate, University of Wisconsin gluconate solution (UW group; n = 5), and Group 2, perfusate, histidine-tryptophan-ketoglutarate solution (HTK group; n = 4). After 4 h of preservation, the liver function was evaluated using an isolated liver reperfusion model for 2 h. RESULTS: In the HTK group, the portal vein and hepatic artery resistance during hypothermic machine perfusion and the portal vein resistance during isolated liver reperfusion were lower than those in the UW group. In addition, the total Suzuki score for hepatic ischemia-reperfusion injury in the HTK group was significantly better than that in the UW group. The number of anti-ETS-related genes staining-positive sinusoid epithelial cell nuclei in the HTK group was higher than that in the UW group (not significant). CONCLUSIONS: The histidine-tryptophan-ketoglutarate solution can be perfused with lower vascular resistance than the University of Wisconsin solution, reducing shear stress and preventing sinusoid epithelial cell injury in marginal grafts used as split-liver grafts.

The Effect of Antioxidant Added to Preservation Solution on the Protection of Kidneys before Transplantation.

Ischemia-reperfusion injury is a key clinical problem of transplantology. Current achievements in optimizing organ rinse solutions and storage techniques have significantly influenced the degree of graft damage and its survival after transplantation. In recent years, intensive research has been carried out to maintain the viability of tissues and organs outside the integral environment of the body. Innovative solutions for improving the biochemical functions of the stored organ have been developed. The article discusses directions for modifying preservation solutions with antioxidants. Clinical and experimental studies aimed at optimizing these fluids, as well as perfusion and organ preservation techniques, are presented.

Chinese expert consensus on organ protection of transplantation (2022 edition) / 器官移植

Organ transplantation is the most effective treatment for end-stage organ failure, and voluntary donation after citizen's death is the only source of transplant organ in China. Clinically, transplant organ protection technique plays a critical role in improving the quality of transplant organs and the prognosis of recipients. On the basis of domestic and worldwide basic research and clinical practice of transplant organ protection and according to the Oxford evidence classification and GRADE system, the experts organized by Branch of Organ Transplant Physicians of Chinese Medical Doctor Association, Branch of Transplantation Group of Surgery of Chinese Medical Association and China Liver Transplant Registry Scientific Committee had compiled and published the Chinese Expert Consensus on Organ Protection of Transplantation (2016 edition) for liver, kidney, pancreas, small intestine, heart, lung transplant organs. With the support of China Liver Transplant Registry, National Trauma Medical Center, National Quality Control Center for Human Donated Organ Procurement, National Clinical Research Center for Orthopedics, Sports Medicine & Rehabilitation and National Center for Healthcare Quality Management in Liver Transplant combined with recent domeatic and worldwide clinical practice and research progress for organ transplantation and organ protection, the Chinese Expert Consensus on Organ Protection of Transplantation (2022 edition) has been published recently. This consensus focuses on updating the technical progress and evidence-based medicine of organ procurement, preservation, transport, and quality evaluation in clinical practice. Additionally, the content of composite tissue transplantation mainly including limb transplantation has also been covered. The aim is to promote the the scientific and standardized clinical organ transplantation.

Human cornea conservation in coconut water solution / Conservação de córneas humanas em solução de água de coco

ABSTRACT Purpose: The aim of this study was to evaluate the physical and chemical characteristics of coconut water and to analyze the use of coconut water solution for the conservation of human corneas. Methods: This was an experimental and controlled study performed at the Eye Bank of the General Hospital of Fortaleza. The coconut water-based solution was prepared at the Goat Seed Technology Laboratory of the Department of Veterinary Medicine of the State University of Ceará. Discarded corneas from the Eye Bank were divided into two groups for sequential experiments: G1, coconut water-based solution (experimental group), and G2, conservative treatment with OPTISOL GS® (control group). The osmolality of corneas in G1 was analyzed sequentially at 275, 300, 325, 345, 365, and 400 mOsm/L. The viability of the corneas was determined by specular microscopy and biomicroscopy on the first, third, and seventh days. Results: Corneas preserved in a solution of 365 and 345 mOsm/L had a transparency of 8 mm until the third day and had diffuse edema in the periphery, central folds, and partial epithelium loss until the seventh day. The 365-mOsm/L solution was associated with the worst results during follow-up. Corneas placed in Optisol-GS retained their original aspects. Conclusions: Coconut water-based preservative partially maintained corneal transparency and epithelial integrity, especially during the first three days of follow-up. The coconut water-based solutions used were not effective for use as preservatives in a human eye bank.(AU)

RESUMO Objetivos: As características físico-químicas e o baixo custo da água de coco foram fundamentais para o este estudo. Analisar o uso de solução a base de água de coco como meio de conservação de córneas humanas em banco de olhos. Métodos: Estudo experimental e controlado realizado no Banco de Olhos do Hospital Geral de Fortaleza. Utilizou-se solução à base de água de coco preparada no laboratório de Tecnologia de Sêmen de Caprinos do Departamento de Medicina Veterinária da Universidade Estadual do Ceará. Foram usadas córneas de descartes divididas em dois grupos: G1 (Conservante com água de coco) - grupo experimental e G2 (grupo Conservante com OPTISOL GS®) grupo controle, em experimentos sequenciais. A osmolaridade do G1 foi analisada sequencialmente com 275, 300, 325, 345, 365 e 400 mOsm/L. A viabilidade das córneas foram realizadas por microscopia especular e biomicroscopia nos 1º, 3º e 7º dias. Resultados: As córneas em solução de 365 e 345 mOsm/L apresentavam transparência nos 8mm centrais até o 3º dia, com edema em toda periferia, dobras centrais e edema 2+, com perda parcial do epitélio até 7º dia, sendo o de maior osmolaridade com melhor transparência durante o seguimento. Grupo com 275, 300 e 400 mOsm/L, córnea opaca, edema difuso, perda total do epitélio no 3º dia. As córneas em Optisol mantiveram seus aspectos. Conclusões: O conservante à base de água de coco manteve em parte a transparência corneana e a integridade epitelial, especialmente nos primeiros 3 dias de seguimento. A solução conservante com água de coco nas formulações utilizadas não se mostrou eficaz para o uso em banco de olhos humanos.(AU)

Therapeutic Potential of Selenium as a Component of Preservation Solutions for Kidney Transplantation.

Selenium has strong antioxidant properties and diverse effects on the immune system. The aim of the study was to analyse the protective effect of selenium as a component of a kidney preservation solution on the prevention of ischemia-reperfusion injury of nephrons. The solution was modified by the addition of Se (1 µg/L), prolactin (0.1 µg/L) and Se with prolactin (1 µg/L Se + 0.1 µg/L PRL). The study used a model for storing isolated porcine kidneys in Biolasol® (modified Biolasol®), which minimizes ischemia-reperfusion injury of grafts. The introduction of Se4+ ions at a dose of 1 µg/L into the Biolasol® preservation solution in the form of Na2SeO3 caused an increase in the activity/concentration of the analysed biochemical parameters: aspartate transaminase, alanine transaminase, urea and protein. This suggests an adverse effect of Se4+ on nephron function during ischemia-reperfusion. The best graft protection was obtained by using Biolasol® modified with the addition of selenium (IV) at a dose of 1 µg/L and prolactin at a concentration of 0.1 µg/L. We proposed the mechanism of prolactin action in the metabolic reduction of selenite (SO32-) during ischemia/reperfusion.

The Role of Hormones and Trophic Factors as Components of Preservation Solutions in Protection of Renal Function before Transplantation: A Review of the Literature.

Transplantation is currently a routine method for treating end-stage organ failure. In recent years, there has been some progress in the development of an optimal composition of organ preservation solutions, improving the vital functions of the organ and allowing to extend its storage period until implantation into the recipient. Optimizations are mostly based on commercial solutions, routinely used to store grafts intended for transplantation. The paper reviews hormones with a potential nephroprotective effect, which were used to modify the composition of renal perfusion and preservation solutions. Their effectiveness as ingredients of preservation solutions was analysed based on a literature review. Hormones and trophic factors are innovative preservation solution supplements. They have a pleiotropic effect and affect normal renal function. The expression of receptors for melatonin, prolactin, thyrotropin, corticotropin, prostaglandin E1 and trophic factors was confirmed in the kidneys, which suggests that they are a promising therapeutic target for renal IR (ischemia-reperfusion) injury. They can have anti-inflammatory, antioxidant and anti-apoptotic effects, limiting IR injury.

Prevention of Chronic Rejection of Marginal Kidney Graft by Using a Hydrogen Gas-Containing Preservation Solution and Adequate Immunosuppression in a Miniature Pig Model.

In clinical kidney transplantation, the marginal kidney donors are known to develop chronic allograft rejection more frequently than living kidney donors. In our previous study, we have reported that the hydrogen gas-containing organ preservation solution prevented the development of acute injuries in the kidney of the donor after cardiac death by using preclinical miniature pig model. In the present study, we verified the impact of hydrogen gas treatment in transplantation with the optimal immunosuppressive protocol based on human clinical setting by using the miniature pig model. Marginal kidney processed by hydrogen gas-containing preservation solution has been engrafted for long-term (longer than 100 days). A few cases showed chronic rejection reaction; however, most were found to be free of chronic rejection such as graft tissue fibrosis or renal vasculitis. We concluded that marginal kidney graft from donor after cardiac death is an acceptable model for chronic rejection and that if the transplantation is carried out using a strict immunosuppressive protocol, chronic rejection may be alleviated even with the marginal kidney.

Ex Vivo Model in Cholestasis Research.

To mimic (human) cholestasis in vitro requires multiple triggers to establish a diseased phenotype. However, this is currently not simulated by existing in vitro models. Therefore, there is a high need for multicellular systems similar to the human physiology. In such an in vitro model, cell-cell interactions and intact bile canaliculi with functional bile flow should be present and preserved during long-term culture. Precision-cut liver slices represent an ex vivo tissue culture technique that replicates most of the multicellular characteristics of a whole liver in vivo. This chapter describes the preparation and culturing of (human) precision-cut liver slices. Furthermore, a protocol to use the precision-cut liver slices technique to predict drug-induced cholestatic liver injury is described.

A novel organ preservation solution with efficient clearance of red blood cells improves kidney transplantation in a canine model.

Organ preservation solutions are designed to minimize organ damage during transplantation. A novel preservation solution, WMO-II, was developed to have a low viscosity and to improve microvasculature perfusion for kidneys. In an autologous canine transplantation model, kidney function and recovery were evaluated after organs were flushed and cold-stored with WMO-II or HTK solution, a perfusate currently approved for clinical use. The average number of red blood cells remaining in a single glomerulus after flushing with WMO-II was significantly reduced when compared with HTK solution. Additionally, WMO-II reduced the number of apoptotic bodies in stored kidneys compared to HTK treated tissue after 48 h of cold storage by reducing expression of Caspase-9, BiP, Chop, and Caspase-12. WMO-II solution reduced serum creatinine levels and serum potassium in kidneys stored for 48 h when compared to HTK perfusion. WMO-II preserves kidney function as evidenced by the reduction in serum creatinine and potassium during graft transplantation.

Study of isolation efficiency of new islet isolation solution for mouse islets / 器官移植

Objective To investigate the isolation and protective effect of a new islet purification solution (IPS)-Optiprep solution on the islet in mouse models. Methods The digested pancreatic islets were divided into the IPS and UW groups according to the islet volume. The pancreatic islets were isolated by the continuous gradient density centrifugation using IPS-Optiprep or UW-Optiprep solutions. The purification efficiency and isolated islet activity of purification solution were compared between two groups. The diabetic mouse models were successfully induced and randomly assigned into three groups. In the experimental group (n=10), the mice received pancreatic islet transplantation using islets isolated and purified by the IPS-Optiprep solution. In the control group (n=10), the mice underwent pancreatic islet transplantation using islets isolated and purified by the UW-Optiprep solution. In the sham surgery group (n=5), the mice merely underwent surgery without pancreatic islet transplantation. Postoperative blood glucose levels were detected and compared among three groups. The blood glucose levels of intraperitoneal glucose tolerance test at postoperative 21 d were statistically compared between the experimental and control groups. The cost of the preparation of two isolation solutions was also compared. Results Compared with the UW group, the islet equivalent (IEQ), islet purity, recovery rate and islet integrity were significantly higher in the IPS group. Islet morphological observation revealed that the islet membrane was complete and the islet diameter in the IPS group was considerably larger than that in the UW group. The activity of purified islets in the UW group was significantly higher than that in the IPS group [(88±5)% vs. (84±3)%, P<0.01]. Compared with the UW-Optiprep solution, identical in vivo islet function was obtained in the IPS-Optiprep solution.The cost of IPS-Optiprep solution was significantly less than that of the UW-Optiprep solution. Conclusions The new IPS-Optiprep solution yields higher islet isolation efficiency, purification, integrity and recovery rate and significantly reduces the purification cost compared with the UW-Optiprep solution. Nevertheless, IPS-Optiprep solution exerts a less protective effect on the activity of islet cells, which is probably correlated with the high islet integrity and the endotoxin in the IPS-Optiprep solution.

Novel vs clinical organ preservation solutions: improved cardiac mitochondrial protection.

BACKGROUND: Heart transplantation remains the gold standard for end-stage heart failure, with current ex vivo organ storage times limited to 4 to 6 h before critical tissue damage occurs. Many preservation solutions exist in an attempt to limit both ischemic and reperfusion damage. In order to compare the effects of various storage solutions, mitochondrial function can be used to provide a sensitive analysis of cellular metabolic function. METHODS: Experimental plates were seeded with cardiac myoblasts and kept in suspended animation for either 4 or 8 h at either 4o or 21 °C, in Celsior®, Perfadex®, or Somah storage solutions. Cells were then reanimated for 1 h at 37 °C to simulate a reperfusion or clinical transplant scenario. Cellular bioenergetics were measured immediately thereafter to examine biochemical differences between preservation solutions and their effectiveness on preserving metabolic function. RESULTS: The oxygen consumption rates of Somah solution were significantly higher than Celsior® and Perfadex® at 4 °C, with the exception of Perfadex® at 4o for 4 h. This effect was sustained up to 8 h. At 21 °C, oxygen consumption rates of Somah solution are significantly higher than Celsior® and Perfadex® at basal conditions after 4 h, but this effect is not sustained after 8 h. CONCLUSIONS: The purpose of this experiment was to study the efficacy of various preservation solutions on a mitochondrial level. The significantly higher oxygen consumption rates of Somah at 4 °C suggests that Somah solution may have the ability to protect cellular mitochondrial integrity, improve transplanted organ function by reducing ischemic-reperfusion injury, and thereby improve transplant outcomes. Given that Somah offers benefits over Celsior® and Perfadex® at 4 °C, it should be a target in future organ preservation solution research.

Three Preservation Solutions for Cold Storage of Heart Allografts: A Systematic Review and Meta-Analysis.

Organ preservation solution has been designed to attenuate the detrimental effects during the ischemic period. The aim of this study was to systematically evaluate the evidence comparing preservation solutions for heart preservation. Studies were searched in PubMed, Embase, the Cochrane Library, the Transplant Library, and the International Clinical Trials Registry Platform. The primary outcomes were patient survival and donor heart dysfunction. The secondary outcomes were in-hospital mortality and enzyme gene expression. The University of Wisconsin solution (UW) was associated with a significantly improved survival at 30 days and 90 days (hazard ratio = 1.16, 95% confidence interval [CI] = 1.11-1.22, P < 0.00001; risk difference [RD] = 0.03, 95% CI = 0.01-0.05, P = 0.002), compared with Celsior. Hearts preserved with UW exhibited less ischemic necrosis than those preserved with Celsior (RD = -0.07, 95% CI = -0.08 to 0.05, P < 0.00001). UW was associated with better survival compared with histidine-tryptophan-ketoglutarate solution (HTK). There was no statistical difference in donor heart dysfunction and in-hospital mortality outcomes when comparing HTK with Celsior solution. During static cold storage preservation, this study suggests that UW solution has better clinical outcomes for heart transplantation compared with the other two organ preservation solutions. Besides, the protective effect of Celsior solution is similar to HTK solution in donor heart preservation.

Contrastive study on cryopreservation of rat amputated limb with UW solution and HTK solution / 中华显微外科杂志

Objective To compare the effect on preserving rat amputated extremities during the cold preservation between the UW solution and HTK solution.Methods Thirty healthy adult Wistar rats were randomly divided into 3 groups (10 rats in each group) for producing the models of amputated limbs of rats.The three groups were separately irrigated the amputated limbs with UW solution,HTK solution and saline from femoral artery.After irrigation,the extremities were preserved in the refrigerator at 4 ℃.Samples of skeleton muscle tissue were taken for pathological and biochemical examination every 6 hours since the amputation.Results After perfusion,HE:changes of organizational structures of skeletal muscle were lighter in experimental groups than in control group (saline-perfusion group) at the same time.While samples in UW solution-perfusion group has lighter changes of organizational structure than those in HTK solution-perfusion group.TEM:at 12 h,all the three groups have shown the mitochondria edema.At 24 h,the myofibril in saline-perfusion group become fragments.Biochemical examination:at 24 h,indexes in salineperfusion group,HTK solution group and UW solution group were:ALP (U/L) 3.62 ± 1.32,3.37 ± 0.84 and 2.68 ± 1.59,respectively;ALT(U/L) 542.25 ± 129.36,521.82 ± 97.32 and 462.53 ± 74.18,respectively;AST (U/L) 2200.12 ± 687.61,2002.20 ± 632.27 and 1742.87 ± 396.09,respectively;CK(U/L) 313190.83 ± 42041.32,283173.50 ± 31488.87 and 271319.67 ± 41147.52,respectively;LDH (U/L) 32409.50 ± 4253.20,30382.50 ± 2337.18 and 30047.83 ± 4628.78,respectively;GLU(mmol/L) 0.242 ± 0.041、0.240 ± 0.044 and 0.252 ± 0.049,respectively;LAC (mmol/L) 1.790 ± 0.160,1.792 ± 0.196 and 1.993 ± 0.366,respectively;SOD(U/mL) 80.82 ± 9.46,91.62 ± 14.97 and 73.71 ± 10.60,respcctively.There were statistical difference among the UW solution-perfusion group and centrol group in ALP and GLU (P ＜ 0.05).UW solution-perfusion group has better results than HTK solution-perfusion group in SOD (P ＜ 0.05).Conclusion Amputated limbs irrigated with organ preservation solution as a way to protect skeletal muscle had great effects on lightening tissue damage and keeping tissue active.Between the two usual organ preservation solution,UW solution had a stronger protective effects on the amputated limbs than HTK solution.

Effect of heart preservation solution containing pinacidil on mitochondrial function in isolated rat hearts / 中华麻醉学杂志

Objective To investigate the effect of heart preservation solution containing pinacidil on mitochondrial function in isolated rat hearts. Methods One hundred and twenty pathogen-free SD rats of both sexes weighing 250-350 g were used in this study. The animals were anesthetized with intraperitoneal pentobarbital 65 mg/kg. Their hearts were immediately removed and perfused in a Langendorff apparatus. Left ventricular enddiastolic pressure was measured from a fluid-filled latex balloon inserted in the left ventricle. The isolated hearts were randomized into 5 groups (n = 24 each):group Ⅰ was perfused with cardioplegic solution HTK; group Ⅱ with HTK containing pinacidil (a non-specific sarcKATP and mitoKATP channel opener) 0.5 mmol/L; group Ⅲ with HTK containing pinacidil 0.5 mmol/L + 5-HD (a selective mitoKATP channel blocker) 100 μmol/L; group Ⅳ with HTK containing pinacidil 0.5 mmol/L + HMR-1098 100 μmol/L (a selective sarcKATP channel blocker) and group Ⅴ with HTK containing pinacidil 0.5 mmol/L + 5-HD 100 μmol/L + HMR-1098 100μmol/L. The isolated hearts were perfused with simple HTK or HTK containing pinacidil or pinacidil + 5-HD and/or HMR 20 ml/kg at 10 ml/min and then removed from Langendorff apparatus and dipped into the same HTK solution for 8 h at 4 ℃followed by 60 min reperfusion. The respiratory function of mitochondria (respiratory control rate (RCR), the rate of oxygen consumption in state 3/state 4 and P/O) was measured at the end of equilibration (T1) after 8 hpreservation (T2) and at the end of 60 min reperfusion (T3). The CK-MB and LDH activities and cTnI expression in myocardium was detected at T1 and T3. The ultrastructure of myocardium was examined at T3. Results Perfusion suspension-reperfusion (PS/R) significantly decreased mitochondrial respiratory function (RCR, P/O and rate of O2 consumption in state 3) and increased myocardial cTnI concentration and CK-MB and LDH activities at T3 compared with baseline at T1 in group Ⅰ. Pinacidil significantly increased mitochondrial respiratory function (RCR, P/O and rate of O2 consumption in state 3) and decreased myocardial cTnI concentration and CK-MB and LDH activities in group Ⅱ as compared with group Ⅰ-indicative of protective effect of pinacidil on mitochondria against PS/R injury. The protective effect of pinacidil against PS/R injury was attenuated by 5-HD and/or HMR1098. The myocardial damage was slightest in group Ⅱ . Conclusion Both sarcolemmal and mitochondrial KATPchannel are involved in the protective effect of pinacidil against PS/R-induced myocardial damage during heart preservation.

Observation on cold-stored rat Hver flushed with self-designed multi-organ preservation solution / 中华消化外科杂志

Objective To study the effect of serf-designed multi-organ preservation solution(SMO)on cold-stored rat liver.Methods The rat livers were preserved with SMO solution(group A,n=15),UW solution(group B,n=15)and HC-A solution(group C,n=15),respectively.The livers were transplanted orthotopically after 6-,12-,24-hour preservation.The changes of liver function at hour 12 after transplantation were detected and conditions of the survived rats at day 14 after transplantation were observed.Results There was no morphological change of the livers in group A within 24 houm.The total bilimbin,alaninetransaminase,and hyaluronic acid increased in group A and B as the preservation time increased,but the levels of the 3 indexes of group A were significant lower than those in group C(F=49.027,70.280,34.349,71.532,446.544,303.408,P＜0.05).No rat djed in group A 14 days after liver transplantation.Conclusions SMO and UW solution have similar effect on protecting the liver.and the protective effect of the 2 solutioas was better than that of HC-A solution.

Experimental Study on the Cryopreservation of LLC-PK1 Epithelial Cells with Hypoxic UW Solution / 华中科技大学学报（医学）（英德文版）

The effects of oxygen partial pressure on cryopreservation of the cells with organ preservation solution were explored. Hypoxic UW solution was made by purging the UW solution with argon. The pig proximal tubule epithelial cells (LLC-PK1 cells) were cryopreserved in hypoxic UW solution (Ar-UW group) or standard UW solution (UW group) at 4℃ for 48 h. Trypan blue staining and LDH detection were performed to evaluate the injury of the cells. The results showed that the oxygen partial pressure in Ar-UW group was significantly declined from 242±6 mmHg to 83±10 mmHg. After cryopreservation at 4℃ for 48 h, LDH leakage rate and Trypan blue-stained rate in Ar-UW group were (11.3±3.4)% and (10.5±4.7)%, respectively, which were significantly lower than in UW group [(49.5±6.9)% and (47.6±9.3)% respectively, both P＜0.01]. It was concluded that lower oxygen partial pressure of UW solution was more beneficial to the cryopreservation of LLC.