Your search keyword '"Gibelin, H."' showing total 7 results

1. Kidney retrieval conditions influence damage to renal medulla: evaluation by proton nuclear magnetic resonance (NMR) pectroscopy.

Author

Hauet T, Gibelin H, Godart C, Eugene M, and Carretier M

Subjects

Animals, Magnetic Resonance Spectroscopy, Male, Protons, Swine, Kidney Medulla pathology, Tissue and Organ Harvesting methods

Abstract

In the present investigation, the influence of retrieval condition on medullary damage in kidneys was assessed. The isolated perfused pig kidney was used to assess initial renal function from multiorgan donors or single organ donors after cold flush and 24 h cold storage preservation with two preservation solutions: Euro-Collins and University of Wisconsin solutions. Kidneys flushed with cold heparinized saline and immediately perfused were used as a control group. Kidneys were perfused for 90 min at 37.5 degrees C and renal perfusion flow rate, glomerular filtration rate, tubular reabsorption of Na+ and lactate dehydrogenase and N-acetyl-beta-D-glucosaminidase excretion were determined. Ischaemia reperfusion impairment was also determined by 1H NMR (proton nuclear magnetic resonance) spectroscopy. Renal function was significantly decreased in experimental groups when compared to the control group, but there was no significant difference between experimental groups after 24 h cold storage. The release of lactate dehydrogenase in the effluent and the urinary excretion of N-acetyl-beta-D-glucosaminidase were not significantly different after 24 h cold storage. The most relevant resonances determined by 1H NMR spectroscopy were citrate, trimethylamine-N-oxide, lactate, acetate and amino acids. Excretion of these markers was significantly different when compared to biochemical markers. A resonance P (Peak) detected particularly in Euro-Collins solution multiorgan donors after 24 h cold storage was identified and well correlated to renal dysfunction. N-acetyl-beta-D-glucosaminidase spectroscopy, which is a non-invasive and non-destructive technique, is more efficient to assess renal damage than conventional histology and biochemical analysis.

Published

2000

2. Citrate, acetate and renal medullary osmolyte excretion in urine as predictor of renal changes after cold ischaemia and transplantation.

Author

Hauet T, Baumert H, Gibelin H, Godart C, Carretier M, and Eugene M

Subjects

Animals, Blood Urea Nitrogen, Creatine blood, Creatine urine, Cryopreservation, Kidney Medulla blood supply, Kidney Medulla pathology, Male, Methylamines, Swine, Acetates urine, Citrates urine, Cold Temperature, Ischemia, Kidney Medulla physiology, Kidney Transplantation

Abstract

In organ transplantation, the determination of reliable parameters to assess ischaemic damage is essential to predict renal injury after preservation. The aim of this study was to assess renal medullary injury by 1H NMR (proton nuclear magnetic resonance) spectroscopy after preservation and reperfusion. Three experimental groups of pigs were examined during a 2-week period: control group (n = 4), Euro-Collins group (EC) (cold flushed and 48 h cold storage of kidney in EC and autotransplantation, n = 7), and University of Wisconsin (UW) group (cold flushed and 48 h cold storage of kidney in UW and autotransplantation, n = 7). Creatinine and urea were improved in the two cold stored groups. The most relevant resonances determined by 1H NMR spectroscopy after transplantation were those arising from citrate and acetate in urine and trimethylamine-N-oxide (TMAO) in urine and plasma. We demonstrate that graft dysfunction is associated with damage to the renal medulla as determined by TMAO release in urine and plasma. Conversely, citrate excretion can discriminate kidneys with favourable outcome. This study outlines the specific and beneficial impact of UW solution on renal preservation and suggests that 1H NMR spectroscopy is efficient both to detect ischaemic damage of preserved kidneys and to discriminate the preservation quality between different preservation solutions.

Published

2000

3. Influence of retrieval conditions on renal medulla injury: evaluation by proton NMR spectroscopy in an isolated perfused pig kidney model.

Author

Hauet T, Gibelin H, Richer JP, Godart C, Eugene M, and Carretier M

Subjects

Acetylglucosaminidase metabolism, Adenosine pharmacology, Allopurinol pharmacology, Animals, Glutathione pharmacology, Insulin pharmacology, L-Lactate Dehydrogenase metabolism, Magnetic Resonance Spectroscopy, Male, Perfusion, Raffinose pharmacology, Reperfusion Injury etiology, Swine, Tissue Donors, Kidney Medulla pathology, Kidney Transplantation, Organ Preservation, Organ Preservation Solutions

Abstract

Background: Delayed graft function (DGF) has remained an important complication after renal transplantation. The exact causes of DGF remain to be clarified, particularly the impact of retrieval conditions and preservation factors. In the present investigation, (1)HNMR spectroscopy of urine was assessed in order to detect the influence of retrieval condition on renal medulla damage., Methods: The isolated perfused pig kidney (IPK) was used to assess initial renal function from multiorgan donors (MOD) or single organ donors (SOD) after in situ cold flush and 24-h cold storage (CS) preservation with two standard preservation solutions: Euro-Collins (EC) and University of Wisconsin (UW) solutions. Kidneys flushed with cold heparinized saline and immediately perfused were used as the control group. Kidneys were perfused for 90 min at 37.5 degrees C for functional evaluation. During reperfusion, renal perfusion flow rate (PF) was measured. Glomerular filtration rate (GFR), tubular reabsorption of Na(+), and lactate dehydrogenase (LDH) and N-acetyl-beta-d-glucosaminidase (NAG) excretions were determined. Ischemia-reperfusion impairment was also determined by histological techniques and (1)HNMR spectroscopy., Results: PF, GFR, and tubular reabsorption of Na(+) were significantly decreased in experimental groups when compared to the control group but there was no significant difference between experimental SOD groups. GFR was significantly greater in UW-MOD than in EC-MOD and tubular reabsorption of Na(+) was significantly greater in UW-MOD than in EC-MOD after 45 min of reperfusion. The release of LDH in the effluent and the urinary excretion of NAG were not significantly different after 24-h CS in the various experimental groups. The most relevant resonances determined by (1)HNMR spectroscopy were citrate, trimethylamine-N-oxide, lactate, acetate, and amino acids. Excretion of these markers was significantly different when compared to biochemical markers. A resonance (P) detected particularly in EC-MOD after 24-h CS was identified and well correlated to renal dysfunction. Histological study showed that ultrastructural damage and mitochondrial injury were more pronounced in the EC-MOD group., Conclusion: These results show that retrieval condition influences renal medullary damage. NMR spectroscopy, which is a noninvasive and nondestructive technique, is more efficient in assessing renal damage than conventional histology and biochemical analysis., (Copyright 2000 Academic Press.)

Published

2000

4. Early evaluation of renal medulla injury by (1)H nuclear magnetic resonance spectroscopy after preservation and transplantation.

Author

Baumert H, Richer JP, Gibelin H, Ben Amor I, Caritez JC, Germonville T, Carretier M, Eugene M, and Hauet T

Subjects

Adenosine, Allopurinol, Animals, Creatinine metabolism, Glutathione, Hydrogen, Hypertonic Solutions, Insulin, Magnetic Resonance Spectroscopy methods, Methylamines pharmacokinetics, Organ Preservation Solutions, Oxidants pharmacokinetics, Raffinose, Swine, Kidney Medulla pathology, Kidney Transplantation pathology, Kidney Transplantation physiology, Organ Preservation

Published

2000

5. Limitation of lipid peroxidation and renal medullary cell injury of the kidney after 48- and 72-hour cold storage in University of Wisconsin solution: effect of trimetazidine.

Author

Richer JP, Gibelin H, Tallineau C, Ben Amor I, Hebrard W, Carretier M, and Hauet T

Subjects

Adenosine, Allopurinol, Animals, Cold Temperature, Glutathione, Insulin, Kidney Medulla pathology, Kidney Medulla physiology, Raffinose, Swine, Thiobarbituric Acid Reactive Substances analysis, Time Factors, Kidney metabolism, Kidney pathology, Kidney Medulla drug effects, Lipid Peroxidation drug effects, Organ Preservation methods, Organ Preservation Solutions, Trimetazidine pharmacology

Published

2000

6. Pharmacological limitation of damage to renal medulla after cold storage and transplantation by trimetazidine.

Author

Hauet T, Baumert H, Amor IB, Gibelin H, Tallineau C, Eugene M, Tillement JP, and Carretier M

Subjects

Animals, Biomarkers urine, Citric Acid urine, Cryopreservation methods, Glomerular Filtration Rate drug effects, Kidney Function Tests, Magnetic Resonance Spectroscopy, Male, Microvilli pathology, Perfusion, Prospective Studies, Random Allocation, Swine, Time Factors, Transplantation, Autologous, Kidney Medulla pathology, Kidney Transplantation pathology, Microvilli drug effects, Trimetazidine pharmacology, Vasodilator Agents pharmacology

Abstract

Delayed graft function remains an important complication after renal transplantation. In this study, we investigated the influence of trimetazidine (TMZ), a cytoprotective agent, on renal medullary damage after prolonged preservation and autotransplantation. Pig kidneys were cold-flushed and preserved (48 h at 4 degrees C) with two standard renal preservation solutions Euro-Collins and University of Wisconsin supplemented or not with TMZ (10(-6) M). Analysis of plasma and urine from 48-h-cold-stored and autotransplanted kidneys was performed with biochemical methods and proton NMR spectroscopy. Histological study by light and electron microscopy was performed after reperfusion (30-40 min) and on day 14. The results showed that the preservation in either Euro-Collins or University of Wisconsin solution containing TMZ improved significantly glomerular filtration rate compared with kidneys preserved without TMZ. TMZ significantly reduced renal medullary damage, evidenced by decreased excretion of trimethylamine-N-oxide, dimethylamine, dimethylglycine, and acetate in urine. Proximal tubular injury in TMZ-free groups was assessed by significantly greater Na(+) excretion, amino aciduria, and lactic aciduria than in TMZ-supplemented groups. Urinary concentrating ability was significantly improved in TMZ-preserved groups compared with TMZ-free groups. In TMZ-supplemented groups, there was also a greater excretion of citrate, which is a citric acid cycle metabolite. An extensive reduction in apical brush border of tubular cells, notably those of the proximal tubules, was noted in TMZ-free groups. This study clearly shows that TMZ has a beneficial action on in vivo renal preservation and its major impact is the vulnerable renal medulla.

Published

2000

7. Pharmacological limitation of damage to renal medulla after cold storage and transplantation by trimetazidine

Author

Thierry Hauet, Baumert H, Ib, Amor, Gibelin H, Tallineau C, Eugene M, Jp, Tillement, and Carretier M

Subjects

Cryopreservation, Male, Kidney Medulla, Magnetic Resonance Spectroscopy, Time Factors, Microvilli, Swine, Vasodilator Agents, Trimetazidine, Kidney Function Tests, Kidney Transplantation, Transplantation, Autologous, Citric Acid, Perfusion, Random Allocation, Animals, Prospective Studies, Biomarkers, Glomerular Filtration Rate

Abstract

Delayed graft function remains an important complication after renal transplantation. In this study, we investigated the influence of trimetazidine (TMZ), a cytoprotective agent, on renal medullary damage after prolonged preservation and autotransplantation. Pig kidneys were cold-flushed and preserved (48 h at 4 degrees C) with two standard renal preservation solutions Euro-Collins and University of Wisconsin supplemented or not with TMZ (10(-6) M). Analysis of plasma and urine from 48-h-cold-stored and autotransplanted kidneys was performed with biochemical methods and proton NMR spectroscopy. Histological study by light and electron microscopy was performed after reperfusion (30-40 min) and on day 14. The results showed that the preservation in either Euro-Collins or University of Wisconsin solution containing TMZ improved significantly glomerular filtration rate compared with kidneys preserved without TMZ. TMZ significantly reduced renal medullary damage, evidenced by decreased excretion of trimethylamine-N-oxide, dimethylamine, dimethylglycine, and acetate in urine. Proximal tubular injury in TMZ-free groups was assessed by significantly greater Na(+) excretion, amino aciduria, and lactic aciduria than in TMZ-supplemented groups. Urinary concentrating ability was significantly improved in TMZ-preserved groups compared with TMZ-free groups. In TMZ-supplemented groups, there was also a greater excretion of citrate, which is a citric acid cycle metabolite. An extensive reduction in apical brush border of tubular cells, notably those of the proximal tubules, was noted in TMZ-free groups. This study clearly shows that TMZ has a beneficial action on in vivo renal preservation and its major impact is the vulnerable renal medulla.

Published

1999