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

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.

[Evaluation of IGL-1, a new organ preservation solution: preclinical results in renal transplantation]. / Evaluation de IGL-1, une nouvelle solution de conservation d'organes: résultats pré-cliniques en transplantation rénale.

INTRODUCTION: Renal ischaemia and reperfusion lesions partly determine short-term and long-term graft survival. Organ preservation conditions appear to play a decisive role. This article presents the preclinical experimental results obtained in renal transplantation with an extracellular organ preservation solution, in which polyethylene glycol (PEG) is used as colloid. METHODS AND RESULTS: The effects of inversion of Na+ and K+ gradients in the IGL-1 preservation solution compared to UW and replacement of hydroxylethyl starch (HES) by PEG were evaluated in an ex vivo isolated, perfused rat kidney model and then in a pig renal autotransplantation model. In these experimental models, after 24 hours of static storage, the sodium reabsorption fraction correlated with the quality of tubular function of the kidney and the glomerular filtration rate were constantly better in the IGL-1 group than in the UW group. In vivo, in the pig, resumption of renal function was significantly better in the IGL-1 group and histological examination demonstrated a significant reduction of expression of Major Histocompatibility Complex (MHC) type II, an indirect marker of inflammation, but also a reduction of markers of apoptosis and fibrosis for kidneys preserved in IGL-1. CONCLUSION: In animal renal transplantation, IGL-1 ensures better resumption of renal function than UW, which currently remains the "gold standard"preservation solution. Further studies must be conducted to determine whether this new generation solution can replace UW as the reference solution.

Effect of IGL-1, a new preservation solution, on kidney grafts (a pre-clinical study).

Ischemia-reperfusion injury conditions short-term and long-term graft function. The effects of the inversion of K+ and Na+ concentrations and substitution with polyethylene glycol for hydroxyethyl starch in University of Wisconsin (K-UW) solution were evaluated in isolated perfused rat kidneys and in autotransplanted pig kidneys. In the rat model kidneys were cold-stored for 24 h in K-UW or Na-UW or Na-PEG UW solutions (IGL-1 solution). Fractional sodium reabsorption and glomerular filtration rate was better in kidneys preserved in Na-UW and IGL-1 solution than those preserved in K-UW solution. In the pig model the left kidney was harvested and preserved in K-UW or IGL-1 solution for 24 h and then transplanted. In the autotransplanted pig model, kidneys preserved in IGL-1 solution showed a better function and a significant reduction of MHC class II expression, cellular apoptosis and interstitial fibrosis. In conclusion, kidneys preserved in IGL-1 solution tolerated ischemia/reperfusion injury better than those preserved in K-UW solution.