Your search keyword '"IGL-1 solution"' showing total 19 results

1. Cytoprotective Mechanisms in Fatty Liver Preservation against Cold Ischemia Injury: A Comparison between IGL-1 and HTK.

Author

Panisello-Roselló, Arnau, Verde, Eva, Lopez, Alexandre, Flores, Marta, Folch-Puy, Emma, Rolo, Anabela, Palmeira, Carlos, Hotter, Georgina, Carbonell, Teresa, Adam, René, and Roselló-Catafau, Joan

Subjects

*LIVER transplantation, *CLINICAL trials, *FATTY liver, *GLUTAMATE dehydrogenase, *AUTOPHAGY, *HYDROXYETHYL starch, *THERAPEUTICS

Abstract

Institute Goeorges Lopez 1 (IGL-1) and Histidine-Tryptophan-Ketoglutarate (HTK) preservation solutions are regularly used in clinical for liver transplantation besides University of Wisconsin (UW) solution and Celsior. Several clinical trials and experimental works have been carried out comparing all the solutions, however the comparative IGL-1 and HTK appraisals are poor; especially when they deal with the underlying protection mechanisms of the fatty liver graft during cold storage. Fatty livers from male obese Zücker rats were conserved for 24 h at 4 ° C in IGL-1 or HTK preservation solutions. After organ recovery and rinsing of fatty liver grafts with Ringer Lactate solution, we measured the changes in mechanistic target of rapamycin (mTOR) signaling activation, liver autophagy markers (Beclin-1, Beclin-2, LC3B and ATG7) and apoptotic markers (caspase 3, caspase 9 and TUNEL). These determinations were correlated with the prevention of liver injury (aspartate and alanine aminostransferase (AST/ALT), histology) and mitochondrial damage (glutamate dehydrogenase (GLDH) and confocal microscopy findings). Liver grafts preserved in IGL-1 solution showed a marked reduction on p-TOR/mTOR ratio when compared to HTK. This was concomitant with significant increased cyto-protective autophagy and prevention of liver apoptosis, including inflammatory cytokines such as HMGB1. Together, our results revealed that IGL-1 preservation solution better protected fatty liver grafts against cold ischemia damage than HTK solution. IGL-1 protection was associated with a reduced liver damage, higher induced autophagy and decreased apoptosis. All these effects would contribute to limit the subsequent extension of reperfusion injury after graft revascularization in liver transplantation procedures. [ABSTRACT FROM AUTHOR]

Published

2018

2. Role of peg35, mitochondrial aldh2, and glutathione in cold fatty liver graft preservation: An igl-2 approach

Author

Instituto de Salud Carlos III, European Commission, Bardallo, Raquel G., Teixeira da Silva, Rui, Carbonell, Teresa, Folch-Puy, Emma, Palmeira, Carlos M., Roselló-Catafau, Joan, Pirenne, Jacques, Adam, René, Panisello-Roselló, Arnau, Instituto de Salud Carlos III, European Commission, Bardallo, Raquel G., Teixeira da Silva, Rui, Carbonell, Teresa, Folch-Puy, Emma, Palmeira, Carlos M., Roselló-Catafau, Joan, Pirenne, Jacques, Adam, René, and Panisello-Roselló, Arnau

Abstract

The total damage inflicted on the liver before transplantation is associated with several surgical manipulations, such as organ recovery, washout of the graft, cold conservation in organ preservation solutions (UW, Celsior, HTK, IGL-1), and rinsing of the organ before implantation. Polyethylene glycol 35 (PEG35) is the oncotic agent present in the IGL-1 solution, which is an alternative to UW and Celsior solutions in liver clinical transplantation. In a model of cold preservation in rats (4C; 24 h), we evaluated the effects induced by PEG35 on detoxifying enzymes and nitric oxide, comparing IGL-1 to IGL-0 (which is the same as IGL-1 without PEG). The benefits were also assessed in a new IGL-2 solution characterized by increased concentrations of PEG35 (from 1 g/L to 5 g/L) and glutathione (from 3 mmol/L to 9 mmol/L) compared to IGL-1. We demonstrated that PEG35 promoted the mitochondrial enzyme ALDH2, and in combination with glutathione, prevented the formation of toxic aldehyde adducts (measured as 4-hydroxynonenal) and oxidized proteins (AOPP). In addition, PEG35 promoted the vasodilator factor nitric oxide, which may improve the microcirculatory disturbances in steatotic grafts during preservation and revascularization. All of these results lead to a reduction in damage inflicted on the fatty liver graft during the cold storage preservation. In this communication, we report on the benefits of IGL-2 in hypothermic static preservation, which has already been proved to confer benefits in hypothermic oxygenated dynamic preservation. Hence, the data reported here reinforce the fact that IGL-2 is a suitable alternative to be used as a unique solution/perfusate when hypothermic static and preservation strategies are used, either separately or combined, easing the logistics and avoiding the mixture of different solutions/perfusates, especially when fatty liver grafts are used. Further research regarding new therapeutic and pharmacological insights is needed to explore th

Published

2021

3. Role of PEG35, Mitochondrial ALDH2, and Glutathione in Cold Fatty Liver Graft Preservation: An IGL-2 Approach

Author

Emma Folch-Puy, Arnau Panisello-Roselló, Jacques Pirenne, Carlos M. Palmeira, Raquel G. Bardallo, Joan Roselló-Catafau, Rui Teixeira da Silva, Teresa Carbonell, René Adam, Instituto de Salud Carlos III, and European Commission

Subjects

Male, 0301 basic medicine, Oncotic pressure, medicine.medical_treatment, Chemistry, Multidisciplinary, ALDEHYDE DEHYDROGENASE 2, Trasplantament hepàtic, ISCHEMIA-REPERFUSION INJURY, Pharmacology, Liver transplantation, Polyethylene Glycols, chemistry.chemical_compound, 0302 clinical medicine, Biology (General), Spectroscopy, Malalties del fetge, Aldehyde Dehydrogenase, Mitochondrial, Fatty liver, Alanine Transaminase, Organ Preservation, General Medicine, Glutathione, Mitochondria, 3. Good health, Computer Science Applications, Chemistry, Liver, 030220 oncology & carcinogenesis, Physical Sciences, Life Sciences & Biomedicine, ORGAN PRESERVATION, Biochemistry & Molecular Biology, STRATEGIES, QH301-705.5, Organ Preservation Solutions, Cold storage, Nitric Oxide, Article, Catalysis, Specimen Handling, Nitric oxide, MECHANISMS, Inorganic Chemistry, 03 medical and health sciences, nitric oxide, POLYETHYLENE-GLYCOL, medicine, Animals, Aspartate Aminotransferases, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, 4-HNE, Liver diseases, PEG35, ALDH2, fatty liver, Cryopreservation, Science & Technology, NITRIC-OXIDE, TRANSPLANTATION, Microcirculation, Organic Chemistry, medicine.disease, Òxid nítric, Liver Transplantation, Rats, Rats, Zucker, Transplantation, IGL-1 solution, 030104 developmental biology, chemistry, Hepatic transplantation

Abstract

The total damage inflicted on the liver before transplantation is associated with several surgical manipulations, such as organ recovery, washout of the graft, cold conservation in organ preservation solutions (UW, Celsior, HTK, IGL-1), and rinsing of the organ before implantation. Polyethylene glycol 35 (PEG35) is the oncotic agent present in the IGL-1 solution, which is an alternative to UW and Celsior solutions in liver clinical transplantation. In a model of cold preservation in rats (4C; 24 h), we evaluated the effects induced by PEG35 on detoxifying enzymes and nitric oxide, comparing IGL-1 to IGL-0 (which is the same as IGL-1 without PEG). The benefits were also assessed in a new IGL-2 solution characterized by increased concentrations of PEG35 (from 1 g/L to 5 g/L) and glutathione (from 3 mmol/L to 9 mmol/L) compared to IGL-1. We demonstrated that PEG35 promoted the mitochondrial enzyme ALDH2, and in combination with glutathione, prevented the formation of toxic aldehyde adducts (measured as 4-hydroxynonenal) and oxidized proteins (AOPP). In addition, PEG35 promoted the vasodilator factor nitric oxide, which may improve the microcirculatory disturbances in steatotic grafts during preservation and revascularization. All of these results lead to a reduction in damage inflicted on the fatty liver graft during the cold storage preservation. In this communication, we report on the benefits of IGL-2 in hypothermic static preservation, which has already been proved to confer benefits in hypothermic oxygenated dynamic preservation. Hence, the data reported here reinforce the fact that IGL-2 is a suitable alternative to be used as a unique solution/perfusate when hypothermic static and preservation strategies are used, either separately or combined, easing the logistics and avoiding the mixture of different solutions/perfusates, especially when fatty liver grafts are used. Further research regarding new therapeutic and pharmacological insights is needed to explore the underlying mitochondrial mechanisms exerted by PEG35 in static and dynamic graft preservation strategies for clinical liver transplantation purposes., This research was funded by Instituto de Salud Carlos III through FIS project PI 15/00110 co-funded by FEDER from Regional Development European Funds (European Union) and the FOIE GRAS project, which has received funding from the European Union’s Horizon 2020 Research and Innovation program under the Marie Sklodowska-Curie Grant (Agreement No. 722619).

Published

2021

4. Polyethylene glycol 35 as a perfusate additive for mitochondrial and glycocalyx protection in HOPE liver preservation

Author

European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Panisello-Roselló, Arnau, Teixeira da Silva, Rui, Castro, Carlos, G. Bardallo, Raquel, Calvo, Maria, Folch-Puy, Emma, Carbonell, Teresa, Palmeira, Carlos M., Roselló-Catafau, Joan, Adam, René, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Panisello-Roselló, Arnau, Teixeira da Silva, Rui, Castro, Carlos, G. Bardallo, Raquel, Calvo, Maria, Folch-Puy, Emma, Carbonell, Teresa, Palmeira, Carlos M., Roselló-Catafau, Joan, and Adam, René

Abstract

Organ transplantation is a multifactorial process in which proper graft preservation is a mandatory step for the success of the transplantation. Hypothermic preservation of abdominal organs is mostly based on the use of several commercial solutions, including UW, Celsior, HTK and IGL-1. The presence of the oncotic agents HES (in UW) and PEG35 (in IGL-1) characterize both solution compositions, while HTK and Celsior do not contain any type of oncotic agent. Polyethylene glycols (PEGs) are non-immunogenic, non-toxic and water-soluble polymers, which present a combination of properties of particular interest in the clinical context of ischemia-reperfusion injury (IRI): they limit edema and nitric oxide induction and modulate immunogenicity. Besides static cold storage (SCS), there are other strategies to preserve the organ, such as the use of machine perfusion (MP) in dynamic preservation strategies, which increase graft function and survival as compared to the conventional static hypothermic preservation. Here we report some considerations about using PEG35 as a component of perfusates for MP strategies (such as hypothermic oxygenated perfusion, HOPE) and its benefits for liver graft preservation. Improved liver preservation is closely related to mitochondria integrity, making this organelle a good target to increase graft viability, especially in marginal organs (e.g., steatotic livers). The final goal is to increase the pool of suitable organs, and thereby shorten patient waiting lists, a crucial problem in liver transplantation.

Published

2020

5. Polyethylene Glycol 35 as a perfusate additive for mitochondrial and glycocalyx protection in HOPE liver preservation

Author

Rui Teixeira da Silva, Maria Calvo, Joan Roselló Catafau, Teresa Carbonell, René Adam, Emma Folch-Puy, Raquel G. Bardallo, Arnau Panisello Rosello, Carlos Castro, Carlos M. Palmeira, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), and Agencia Estatal de Investigación (España)

Subjects

0301 basic medicine, Oncotic pressure, medicine.medical_treatment, Review, Pharmacology, Liver transplantation, Polyethylene Glycols, lcsh:Chemistry, 0302 clinical medicine, hydroxyethyl starch (HES), Medicine, UW solution, Liver preservation, lcsh:QH301-705.5, Spectroscopy, polyethylene glycol 35 (PEG35), Transplantation of organs, General Medicine, Organ Preservation, 3. Good health, Computer Science Applications, Mitochondria, Perfusion, Liver, HOPE, 030211 gastroenterology & hepatology, Organ Preservation Solutions, Cold storage, Context (language use), Glycocalyx, Catalysis, Inorganic Chemistry, 03 medical and health sciences, Animals, Humans, Viaspan, Physical and Theoretical Chemistry, Molecular Biology, Machine perfusion, business.industry, Organic Chemistry, Liver Transplantation, liver graft preservation, Transplantation, Trasplantament d'òrgans, IGL-1 solution, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, business, Belzer-MPS

Abstract

Organ transplantation is a multifactorial process in which proper graft preservation is a mandatory step for the success of the transplantation. Hypothermic preservation of abdominal organs is mostly based on the use of several commercial solutions, including UW, Celsior, HTK and IGL-1. The presence of the oncotic agents HES (in UW) and PEG35 (in IGL-1) characterize both solution compositions, while HTK and Celsior do not contain any type of oncotic agent. Polyethylene glycols (PEGs) are non-immunogenic, non-toxic and water-soluble polymers, which present a combination of properties of particular interest in the clinical context of ischemia-reperfusion injury (IRI): they limit edema and nitric oxide induction and modulate immunogenicity. Besides static cold storage (SCS), there are other strategies to preserve the organ, such as the use of machine perfusion (MP) in dynamic preservation strategies, which increase graft function and survival as compared to the conventional static hypothermic preservation. Here we report some considerations about using PEG35 as a component of perfusates for MP strategies (such as hypothermic oxygenated perfusion, HOPE) and its benefits for liver graft preservation. Improved liver preservation is closely related to mitochondria integrity, making this organelle a good target to increase graft viability, especially in marginal organs (e.g., steatotic livers). The final goal is to increase the pool of suitable organs, and thereby shorten patient waiting lists, a crucial problem in liver transplantation., This study was supported by grant from Ministerio de Ciencia e Innovación, reference PID2019-104130R B-I00 awarded to E.F.-P., the European Comission H2020-MSCA-ITN-ETN-2016 “FOIE GRAS – Metabolism and the Liver-Gut Axis in Non-Alcoholic Fatty Liver Disease” and the Marie Curie Fellow to Rui Teixeira da Silva. The authors thank Veronica Raker for revising the manuscript.

Published

2020

6. IGL-1 solution in kidney transplantation: first multi-center study.

Author

Codas, Ricardo, Petruzzo, Palmina, Morelon, Emmanuel, Lefrançois, Nicole, Danjou, Fabrice, Berthillot, Celine, Contu, Paolo, Espa, Michele, Martin, Xavier, and Badet, Lionel

Subjects

*KIDNEY transplantation, *ISCHEMIA, *REPERFUSION injury, *POLYETHYLENE glycol, *LABORATORY animals, KIDNEY preservation

Abstract

IGL-1 solution is characterized by inversion of K+ and Na+ concentrations in the University Wisconsin (UW) solution and polyethylene glycol 35 (PEG 35) substitution for hydroxy ethyl starch. In this prospective study, 121 patients transplanted with kidneys preserved in IGL-1 solution were compared to 102 patients grafted with kidneys preserved in UW solution. Serum creatinine and creatinine clearance, delayed graft function (DGF) and rejection episodes, patient and graft survival were evaluated in the first post-transplant year. Groups were comparable regarding to donor and recipient characteristics. Median creatinine levels were significantly lower in IGL-1 group from day 6 to day 14 and it decreased more rapidly in the IGL-1 group (from day 4 to day 15: p < 0.05). Creatinine clearance values were usually higher in the IGL-1 group for the first 15 d. During the follow-up period serum creatinine concentrations were lower in IGL-1 group at one, three, six and 12 months after transplantation (p = 0.04; p = 0.06, p = 0.01 and p = 0.08, respectively) while creatinine clearance values were similar during the follow-up. No significant difference in DGF and rejection rates as well as in patient and graft survival was shown between the two groups. Kidneys preserved in IGL-1 solution showed to have the same function as kidneys preserved in UW solution. [ABSTRACT FROM AUTHOR]

Published

2009

7. Cytoprotective Mechanisms in Fatty Liver Preservation against Cold Ischemia Injury: A Comparison between IGL-1 and HTK

Author

Georgina Hotter, Alexandre Lopez, Arnau Panisello-Roselló, René Adam, Emma Folch-Puy, Anabela P. Rolo, Joan Roselló-Catafau, Eva Verde, Teresa Carbonell, Marta Flores, Carlos M. Palmeira, Instituto de Salud Carlos III, European Commission, López, Alexandre [0000-0001-8978-4486], Carbonell, Teresa [0000-0002-7131-3667], López, Alexandre, Carbonell, Teresa, and Universitat de Barcelona

Subjects

0301 basic medicine, Male, medicine.medical_treatment, Gene Expression, Apoptosis, Mitochondria, Liver, Liver transplantation, Pharmacology, Potassium Chloride, lcsh:Chemistry, Liver Function Tests, Ischemia, cold ischemia injury, liver, IGL-1 solution, HTK solution, mTOR, autophagy and apoptosis, Isquèmia, Mannitol, HMGB1 Protein, Phosphorylation, lcsh:QH301-705.5, Spectroscopy, Liver injury, Microscopy, Confocal, biology, Histocytochemistry, TOR Serine-Threonine Kinases, Malalties del fetge, Fatty liver, Cold Ischemia, General Medicine, Organ Preservation, 3. Good health, Computer Science Applications, Liver, Reperfusion Injury, Organ Preservation Solutions, Cold storage, Caspase 3, Catalysis, Article, Inorganic Chemistry, 03 medical and health sciences, Cold ischemia injury, Autophagy and apoptosis, medicine, Autophagy, Animals, Physical and Theoretical Chemistry, Molecular Biology, Mechanistic target of rapamycin, Liver diseases, Cryopreservation, business.industry, Organic Chemistry, medicine.disease, Liver Transplantation, Rats, Fatty Liver, 030104 developmental biology, Glucose, lcsh:Biology (General), lcsh:QD1-999, Cytoprotection, biology.protein, business, Reperfusion injury, Biomarkers, Procaine

Abstract

Institute Goeorges Lopez 1 (IGL-1) and Histidine-Tryptophan-Ketoglutarate (HTK) preservation solutions are regularly used in clinical for liver transplantation besides University of Wisconsin (UW) solution and Celsior. Several clinical trials and experimental works have been carried out comparing all the solutions, however the comparative IGL-1 and HTK appraisals are poor; especially when they deal with the underlying protection mechanisms of the fatty liver graft during cold storage. Fatty livers from male obese Zücker rats were conserved for 24 h at 4 ◦C in IGL-1 or HTK preservation solutions. After organ recovery and rinsing of fatty liver grafts with Ringer Lactate solution, we measured the changes in mechanistic target of rapamycin (mTOR) signaling activation, liver autophagy markers (Beclin-1, Beclin-2, LC3B and ATG7) and apoptotic markers (caspase 3, caspase 9 and TUNEL). These determinations were correlated with the prevention of liver injury (aspartate and alanine aminostransferase (AST/ALT), histology) and mitochondrial damage (glutamate dehydrogenase (GLDH) and confocal microscopy findings). Liver grafts preserved in IGL-1 solution showed a marked reduction on p-TOR/mTOR ratio when compared to HTK. This was concomitant with significant increased cyto-protective autophagy and prevention of liver apoptosis, including inflammatory cytokines such as HMGB1. Together, our results revealed that IGL-1 preservation solution better protected fatty liver grafts against cold ischemia damage than HTK solution. IGL-1 protection was associated with a reduced liver damage, higher induced autophagy and decreased apoptosis. All these effects would contribute to limit the subsequent extension of reperfusion injury after graft revascularization in liver transplantation procedures., This work was supported by Instituto de Salud Carlos III through FIS project PI 12/0056 co-funded by FEDER from Regional Development European Funds (European Union) and the FOIE GRAS project, which has received funding from the European Union’s Horizon 2020 Research and Innovation programme under the Marie Sklodowska-Curie Grant (Agreement No. 722619).

Published

2018

8. Role of PEG35, Mitochondrial ALDH2, and Glutathione in Cold Fatty Liver Graft Preservation: An IGL-2 Approach.

Author

Bardallo, Raquel G., da Silva, Rui Teixeira, Carbonell, Teresa, Folch-Puy, Emma, Palmeira, Carlos, Roselló-Catafau, Joan, Pirenne, Jacques, Adam, René, Panisello-Roselló, Arnau, and Tan, Nguan Soon

Subjects

*FATTY liver, *MITOCHONDRIA, *LIVER transplantation, *POLYETHYLENE glycol, *NITRIC oxide

Abstract

The total damage inflicted on the liver before transplantation is associated with several surgical manipulations, such as organ recovery, washout of the graft, cold conservation in organ preservation solutions (UW, Celsior, HTK, IGL-1), and rinsing of the organ before implantation. Polyethylene glycol 35 (PEG35) is the oncotic agent present in the IGL-1 solution, which is an alternative to UW and Celsior solutions in liver clinical transplantation. In a model of cold preservation in rats (4 °C; 24 h), we evaluated the effects induced by PEG35 on detoxifying enzymes and nitric oxide, comparing IGL-1 to IGL-0 (which is the same as IGL-1 without PEG). The benefits were also assessed in a new IGL-2 solution characterized by increased concentrations of PEG35 (from 1 g/L to 5 g/L) and glutathione (from 3 mmol/L to 9 mmol/L) compared to IGL-1. We demonstrated that PEG35 promoted the mitochondrial enzyme ALDH2, and in combination with glutathione, prevented the formation of toxic aldehyde adducts (measured as 4-hydroxynonenal) and oxidized proteins (AOPP). In addition, PEG35 promoted the vasodilator factor nitric oxide, which may improve the microcirculatory disturbances in steatotic grafts during preservation and revascularization. All of these results lead to a reduction in damage inflicted on the fatty liver graft during the cold storage preservation. In this communication, we report on the benefits of IGL-2 in hypothermic static preservation, which has already been proved to confer benefits in hypothermic oxygenated dynamic preservation. Hence, the data reported here reinforce the fact that IGL-2 is a suitable alternative to be used as a unique solution/perfusate when hypothermic static and preservation strategies are used, either separately or combined, easing the logistics and avoiding the mixture of different solutions/perfusates, especially when fatty liver grafts are used. Further research regarding new therapeutic and pharmacological insights is needed to explore the underlying mitochondrial mechanisms exerted by PEG35 in static and dynamic graft preservation strategies for clinical liver transplantation purposes. [ABSTRACT FROM AUTHOR]

Published

2021

9. P2.29: IGL-1 solution for the preservation of human intestine: the first report in the literature

Author

John Mackay Søfteland, Mats Hellström, Henrik Göransson, Mihai Oltean, and Gustaf Herlenius

Subjects

Transplantation, IGL-1 solution, Human intestine, Biology, Cell biology

Published

2019

10. Polyethylene Glycol 35 as a Perfusate Additive for Mitochondrial and Glycocalyx Protection in HOPE Liver Preservation.

Author

Panisello Rosello, Arnau, Teixeira da Silva, Rui, Castro, Carlos, G. Bardallo, Raquel, Calvo, Maria, Folch-Puy, Emma, Carbonell, Teresa, Palmeira, Carlos, Roselló Catafau, Joan, and Adam, René

Subjects

*POLYETHYLENE glycol, *WATER-soluble polymers, *GLYCOCALYX, *LIVER, *ADDITIVES, *MYOCARDIAL reperfusion

Abstract

Organ transplantation is a multifactorial process in which proper graft preservation is a mandatory step for the success of the transplantation. Hypothermic preservation of abdominal organs is mostly based on the use of several commercial solutions, including UW, Celsior, HTK and IGL-1. The presence of the oncotic agents HES (in UW) and PEG35 (in IGL-1) characterize both solution compositions, while HTK and Celsior do not contain any type of oncotic agent. Polyethylene glycols (PEGs) are non-immunogenic, non-toxic and water-soluble polymers, which present a combination of properties of particular interest in the clinical context of ischemia-reperfusion injury (IRI): they limit edema and nitric oxide induction and modulate immunogenicity. Besides static cold storage (SCS), there are other strategies to preserve the organ, such as the use of machine perfusion (MP) in dynamic preservation strategies, which increase graft function and survival as compared to the conventional static hypothermic preservation. Here we report some considerations about using PEG35 as a component of perfusates for MP strategies (such as hypothermic oxygenated perfusion, HOPE) and its benefits for liver graft preservation. Improved liver preservation is closely related to mitochondria integrity, making this organelle a good target to increase graft viability, especially in marginal organs (e.g., steatotic livers). The final goal is to increase the pool of suitable organs, and thereby shorten patient waiting lists, a crucial problem in liver transplantation. [ABSTRACT FROM AUTHOR]

Published

2020

11. Polyethylene glycols: An effective strategy for limiting liver ischemia reperfusion injury

Author

Ministerio de Economía y Competitividad (España), Pasut, Gianfranco, Panisello-Roselló, Arnau, Folch-Puy, Emma, López, Alexandre, Castro-Benítez, Carlos, Calvo, Maria, Carbonell, Teresa, García-Gil, Agustín, Adam, René, Roselló-Catafau, Joan, Ministerio de Economía y Competitividad (España), Pasut, Gianfranco, Panisello-Roselló, Arnau, Folch-Puy, Emma, López, Alexandre, Castro-Benítez, Carlos, Calvo, Maria, Carbonell, Teresa, García-Gil, Agustín, Adam, René, and Roselló-Catafau, Joan

Abstract

Liver ischemia-reperfusion injury (IRI) is an inherent feature of liver surgery and liver transplantation in which damage to a hypoxic organ (ischemia) is exacerbated following the return of oxygen delivery (reperfusion). IRI is a major cause of primary nonfunction after transplantation and may lead to graft rejection, regardless of immunological considerations. The immediate response involves the disruption of cellular mitochondrial oxidative phosphorylation and the accumulation of metabolic intermediates during the ischemic period, and oxidative stress during blood flow restoration. Moreover, a complex cascade of inflammatory mediators is generated during reperfusion, contributing to the extension of the damage and finally to organ failure. A variety of pharmacological interventions (antioxidants, anticytokines, etc. ) have been proposed to alleviate graft injury but their usefulness is limited by the local and specific action of the drugs and by their potential undesirable toxic effects. Polyethylene glycols (PEGs), which are non-toxic water-soluble compounds approved by the FDA, have been widely used as a vehicle or a base in food, cosmetics and pharmaceuticals, and also as adjuvants for ameliorating drug pharmacokinetics. Some PEGs are also currently used as additives in organ preservation solutions prior to transplantation in order to limit the damage associated with cold ischemia reperfusion. More recently, the administration of PEGs of different molecular weights by intravenous injection has emerged as a new therapeutic tool to protect liver grafts from IRI. In this review, we summarize the current knowledge concerning the use of PEGs as a useful target for limiting liver IRI.

Published

2016

12. Preservation of steatotic livers in IGL-1 solution

Author

Hassen Ben Abdennebi, Rosa Franco-Gou, Olivier Boillot, Silvina Ramella-Virieux, Joan Roselló-Catafau, Ismail Ben Mosbah, Dalila Saidane, and Carmen A. Peralta

Subjects

medicine.medical_specialty, Organ Preservation Solutions, Nitric Oxide, medicine.disease_cause, Nitric oxide, chemistry.chemical_compound, Glutamate Dehydrogenase, Liver Function Tests, Malondialdehyde, Internal medicine, medicine, Animals, Bile, Viaspan, Aspartate Aminotransferases, Obesity, Transplantation, Hepatology, business.industry, Glutamate dehydrogenase, Temperature, Alanine Transaminase, Organ Preservation, Rats, Rats, Zucker, Fatty Liver, IGL-1 solution, Endocrinology, medicine.anatomical_structure, Liver, chemistry, Biochemistry, Reperfusion, Vascular resistance, Vascular Resistance, Surgery, Nitric Oxide Synthase, business, Ex vivo, Oxidative stress

Abstract

A new Institut Georges Lopez (IGL-1) solution was used to preserve steatotic livers. Steatotic (obese [Ob]) and nonsteatotic (lean [Ln]) livers from Zücker rats (n = 16, 8 Ln and 8 Ob) were preserved for 24 hours at 4°C in University of Wisconsin (UW) or IGL-1 solution, respectively, and then perfused ex vivo for 2 hours at 37°C. Additionally, Ob and Ln livers (n = 16, 8 Ln and 8 Ob) were preserved in IGL-1 plus Nω-nitro-L-arginine methyl ester hydrochloride (L-NAME). Hepatic injury and function (aminotransferases, bile production, bromosulfophthalein clearance), and factors potentially involved in the susceptibility of steatotic livers to ischemia-reperfusion injury, such as oxidative stress, mitochondrial damage, and vascular resistance, were studied. Nitric oxide (NO) production and constitutive and inducible NO synthase were also measured. Steatotic and nonsteatotic livers preserved in IGL-1 solution showed lower transaminases, malondialdehyde, glutamate dehydrogenase levels, and higher bile production than UW-solution-preserved livers. IGL-1 solution protected against oxidative stress, mitochondrial damage and the alterations in vascular resistance associated with cold ischemia-reperfusion. Thus, at the end of reperfusion period, aspartate aminotransferase levels in steatotic livers were 281 ± 6 U/L in UW vs. 202 ± 10 U/L in IGL-1 solution. Glutamate dehydrogenase was 463 ± 75 U/L in UW vs. 111 ± 4 U/L in IGL-1 solution, and oxidative stress was 3.0 ± 0.1 nmol/mg prot in UW vs. 2.0 ± 0.1 nmol/mg prot in IGL-1 solution. These beneficial effects of IGL-1 solution were abolished by the addition of L-NAME, which implicates NO in the benefits of IGL-1. In conclusion, IGL-1 solution provided steatotic livers with better protection against the deleterious effects of cold ischemia-reperfusion injury than did UW solution. © 2006 AASLD.

Published

2006

13. Kidney preservation with IGL-1 solution: A preliminary report

Author

J J. Colpart, Xavier Martin, Palmina Petruzzo, A.H. Aissa, Lionel Badet, Michele Espa, Fabrice Danjou, Paolo Contu, Nicole Lefrançois, C Berthillot, B. Mcgregor, and S.R. Virieux

Subjects

Adult, Male, medicine.medical_specialty, Adenosine, Allopurinol, Organ Preservation Solutions, Urology, Renal function, Hydroxyethyl starch, Kidney, Polyethylene Glycols, chemistry.chemical_compound, Raffinose, Preliminary report, Cadaver, medicine, Humans, Insulin, Viaspan, Transplantation, Creatinine, Kidney preservation, business.industry, Sodium, Glutathione, Kidney Transplantation, Tissue Donors, Delayed Graft Function, Surgery, IGL-1 solution, Treatment Outcome, chemistry, Potassium, Female, business, medicine.drug

Abstract

The University of Wisconsin (UW) solution is the most commonly used preservation solution. However, a new preservation solution-IGL-1-contains an inversion of K and Na concentrations and substitution of polyethylene glycol for hydroxyethyl starch in the UW solution. The present study is the first clinical experience on the outcome of kidneys preserved in IGL-1 solution. From June 2003 to June 2004, 119 cadaveric kidneys were retrieved and stored in IGL-1 solutions; among the 119 organs, this study includes 37 IGL-1-preserved kidneys that were locally transplanted versus 33 kidneys stored in University of Wisconsin (UW) solution that were also locally transplanted. The groups were comparable with regard to donor and recipient characteristics. Renal function outcome was evaluated by comparing delayed graft function (DGF) rates, the evolution of serum creatinine, daily urine output, and creatinine clearance. Biopsies were performed after reperfusion to evaluate apoptosis. The incidence of DGF was 5.71% among IGL-1 kidneys and 13.79% among UW kidneys. Creatinine values were significantly lower among the IGL-1 group from 2 to 14 days postoperative and at 1 month. Daily urinary output did not show any significant differences between the two groups. IGL-1 kidneys had a superior creatinine clearance during the first 15 postoperative days compared to UW kidneys. Kidneys preserved in IGL-1 solution showed fewer apoptotic cells compared to kidneys preserved in UW solution. This preliminary report suggests a superiority of IGL-1 for the immediate outcome of transplanted kidneys.

Published

2005

14. Polyethylene glycols: An effective strategy for limiting liver ischemia reperfusion injury

Author

Agustín García-Gil, Carlos Castro-Benitez, Maria Calvo, Joan Roselló-Catafau, Alexandre Lopez, Arnau Panisello, Gianfranco Pasut, Teresa Carbonell, Emma Folch-Puy, René Adam, and Universitat de Barcelona

Subjects

Graft Rejection, Machine perfusion, PEG rinse solution, medicine.medical_treatment, Trasplantament hepàtic, Liver preconditioning, Pharmacology, Liver transplantation, medicine.disease_cause, Polyethylene Glycols, Fetge, 0302 clinical medicine, Ischemia, Isquèmia, UW solution, Reperfusió (Fisiologia), Liver Diseases, Cold Ischemia, Gastroenterology, Minireviews, General Medicine, Liver, Reperfusion Injury, 030220 oncology & carcinogenesis, 030211 gastroenterology & hepatology, medicine.medical_specialty, Polyethylene glycol, SCOT solution, Organ Preservation Solutions, Oxidative phosphorylation, Protective Agents, 03 medical and health sciences, medicine, Humans, Viaspan, Reperfusion (Physiology), IGL-1 solution, Ischemia reperfusion injury, business.industry, medicine.disease, Surgery, Transplantation, Primary Graft Dysfunction, Hepatic transplantation, business, Reperfusion injury, Oxidative stress

Abstract

Liver ischemia-reperfusion injury (IRI) is an inherent feature of liver surgery and liver transplantation in which damage to a hypoxic organ (ischemia) is exacerbated following the return of oxygen delivery (reperfusion). IRI is a major cause of primary non-function after transplantation and may lead to graft rejection, regardless of immunological considerations. The immediate response involves the disruption of cellular mitochondrial oxidative phosphorylation and the accumulation of metabolic intermediates during the ischemic period, and oxidative stress during blood flow restoration. Moreover, a complex cascade of inflammatory mediators is generated during reperfusion, contributing to the extension of the damage and finally to organ failure. A variety of pharmacological interventions (antioxidants, anti-cytokines, etc.) have been proposed to alleviate graft injury but their usefulness is limited by the local and specific action of the drugs and by their potential undesirable toxic effects. Polyethylene glycols (PEGs), which are non-toxic water-soluble compounds approved by the FDA, have been widely used as a vehicle or a base in food, cosmetics and pharmaceuticals, and also as adjuvants for ameliorating drug pharmacokinetics. Some PEGs are also currently used as additives in organ preservation solutions prior to transplantation in order to limit the damage associated with cold ischemia reperfusion. More recently, the administration of PEGs of different molecular weights by intravenous injection has emerged as a new therapeutic tool to protect liver grafts from IRI. In this review, we summarize the current knowledge concerning the use of PEGs as a useful target for limiting liver IRI.

Published

2016

15. The of Institute George Lopez (IGL-1) Solution in Liver Graft Preservation - Experience With 100 Liver Transpant in a Single Center

Author

N. Tefilli, M. Godoy, R. Vilas, J. Wiederkehr, M. Nogara, N. Goncalves, M.R. Igreja, H. Wiederkehr, B. Wiederkehr, and C. Drago

Subjects

Liver graft, Transplantation, medicine.medical_specialty, IGL-1 solution, GEORGE (programming language), business.industry, medicine, business, Single Center, Surgery

Published

2014

16. LIVER PRESERVATION WITH IGL-1 SOLUTION

Author

J J. Colpart, J.-P. Steghens, Y Le Derf, Michele Espa, O. Boillot, S Ramella-Virieux, J Y. Scoazec, and O Pianta

Subjects

Transplantation, IGL-1 solution, Pathology, medicine.medical_specialty, Chemistry, medicine, Liver preservation

Published

2004

17. IGL-1 SOLUTION PREVENTS HIGH MOBILITY GROUP BOX RELEASE IN PRESERVED STEATOTIC LIVER GRAFTS: PPAR GAMMA INVOLVEMENT

Author

Mohamed Amine Zaouali, Rosello J. Catafau, H. Ben Abdennebi, Olivier Boillot, Antoni Rimola, and Susagna Padrissa-Altés

Subjects

chemistry.chemical_classification, Transplantation, medicine.medical_specialty, business.industry, Peroxisome proliferator-activated receptor, Simple steatosis, Surgery, IGL-1 solution, High-mobility group, Endocrinology, chemistry, Internal medicine, Medicine, business

Published

2010

18. KIDNEY PRESERVATION WITH IGL-1 SOLUTION: A PRELIMINARY REPORT

Author

Nicole Lefrançois, C Berthillot, Xavier Martin, S Ramella Virieux, Michele Espa, J. M. Dubernard, J.-P. Steghens, J J. Colpart, H. Ben Abdennebi, Lionel Badet, Aoumeur Hadj-Aissa, B MacGregor, and Palmina Petruzzo

Subjects

Transplantation, IGL-1 solution, Pathology, medicine.medical_specialty, Kidney preservation, business.industry, Preliminary report, Medicine, business

Published

2004

19. Polyethylene glycols: An effective strategy for limiting liver ischemia reperfusion injury.

Author

Pasut G, Panisello A, Folch-Puy E, Lopez A, Castro-Benítez C, Calvo M, Carbonell T, García-Gil A, Adam R, and Roselló-Catafau J

Subjects

Cold Ischemia, Humans, Organ Preservation Solutions, Graft Rejection prevention & control, Liver Diseases prevention & control, Liver Transplantation methods, Polyethylene Glycols therapeutic use, Primary Graft Dysfunction prevention & control, Protective Agents therapeutic use, Reperfusion Injury prevention & control

Abstract

Liver ischemia-reperfusion injury (IRI) is an inherent feature of liver surgery and liver transplantation in which damage to a hypoxic organ (ischemia) is exacerbated following the return of oxygen delivery (reperfusion). IRI is a major cause of primary non-function after transplantation and may lead to graft rejection, regardless of immunological considerations. The immediate response involves the disruption of cellular mitochondrial oxidative phosphorylation and the accumulation of metabolic intermediates during the ischemic period, and oxidative stress during blood flow restoration. Moreover, a complex cascade of inflammatory mediators is generated during reperfusion, contributing to the extension of the damage and finally to organ failure. A variety of pharmacological interventions (antioxidants, anti-cytokines, etc.) have been proposed to alleviate graft injury but their usefulness is limited by the local and specific action of the drugs and by their potential undesirable toxic effects. Polyethylene glycols (PEGs), which are non-toxic water-soluble compounds approved by the FDA, have been widely used as a vehicle or a base in food, cosmetics and pharmaceuticals, and also as adjuvants for ameliorating drug pharmacokinetics. Some PEGs are also currently used as additives in organ preservation solutions prior to transplantation in order to limit the damage associated with cold ischemia reperfusion. More recently, the administration of PEGs of different molecular weights by intravenous injection has emerged as a new therapeutic tool to protect liver grafts from IRI. In this review, we summarize the current knowledge concerning the use of PEGs as a useful target for limiting liver IRI.

Published

2016