移植前残余尿量和草酸浓度影响肾移植存活率。
Pre-transplant residual diuresis and oxalic acid concentration influence kidney graft survival.
作者信息
Post Hospers Gideon, Laging Mirjam, Visser Wesley J, Afonso Pedro Miranda, Verhoeven Jeroen Ghp, Mertens Zur Borg Ingrid Ram, Hesselink Dennis A, de Mik-van Egmond Anneke M E, Betjes Michiel G H, van Agteren Madelon, Severs David, van de Wetering Jacqueline, Zietse Robert, Vos Michel J, Kema Ido P, Kho Marcia M L, Reinders Marlies E J, Roodnat Joke I
机构信息
Department of Internal Medicine, Department of Nephrology and Transplantation, Transplant Institute, Erasmus Medical Center, Rotterdam, The Netherlands.
Department of Internal Medicine, Division of Dietetics, Erasmus Medical Center, Rotterdam, The Netherlands.
出版信息
PLoS One. 2025 May 16;20(5):e0322516. doi: 10.1371/journal.pone.0322516. eCollection 2025.
BACKGROUND AND HYPOTHESIS
Oxalic acid, a toxic metabolic end product, accumulates when kidney function deteriorates. Apart from its direct tubulotoxicity, it crystallizes at concentrations above 30-40 µmol/L. High oxalic acid concentrations at transplantation might negatively influence kidney transplant function. The influence of the concentrations of oxalic acid and its precursors and residual diuresis on kidney transplant outcomes was studied.
METHODS
In this prospective cohort study, patients who received a kidney transplant between September 2018 and January 2022 participated. Concentrations of oxalic acid and precursors were determined in pre-transplant blood samples. Data on residual diuresis and other recipient, donor or transplant related variables were collected. Follow-up lasted until July 1st 2023.
RESULTS
496 patients were included, 154 were not on dialysis. Median residual diuresis was 1000 mL/day (IQR 200; 2000 mL/day). There were 230 living donor transplantations. Oxalic acid concentrations exceeded the upper normal concentration in 99% of patients, glyoxylic acid in all patients. There were 52 (10%) graft failures. As the influence of oxalic acid on the risk of graft failure censored for death was non-linear, it was categorized into two groups: ≤ 60 and > 60 μmol/L. In multivariable Cox analysis the graft failure censored for death risk was significantly influenced by residual diuresis, donor type (living versus deceased), donor age and oxalic acid. In 180 patients oxalic acid concentration shortly after transplantation was significantly lower than pre-transplant concentrations, suggesting excretion by the new graft. A better eGFR at day 7 was associated with lower oxalic acid concentration. Oxalic acid and residual diuresis did not influence patient survival.
CONCLUSION
Residual diuresis and oxalic acid concentration are important and independent predictors of graft survival censored for death. These results underline the importance of pre-emptive transplantation, or optimizing the pre-transplant patients' condition regarding waste product concentrations.
背景与假设
草酸是一种有毒的代谢终产物,在肾功能恶化时会蓄积。除了其直接的肾小管毒性外,当浓度高于30 - 40µmol/L时它会结晶。移植时高草酸浓度可能会对肾移植功能产生负面影响。本研究探讨了草酸及其前体的浓度和残余尿量对肾移植结局的影响。
方法
在这项前瞻性队列研究中,纳入了2018年9月至2022年1月期间接受肾移植的患者。在移植前血样中测定草酸及其前体的浓度。收集残余尿量以及其他受者、供者或移植相关变量的数据。随访持续至2023年7月1日。
结果
共纳入496例患者,其中154例未接受透析治疗。残余尿量中位数为1000 mL/天(四分位间距200;2000 mL/天)。有230例活体供肾移植。99%的患者草酸浓度超过正常上限,所有患者的乙醛酸浓度均超过正常上限。有52例(10%)移植失败。由于草酸对校正死亡后的移植失败风险的影响呈非线性,故将其分为两组:≤60和>60μmol/L。在多变量Cox分析中,校正死亡风险后的移植失败受残余尿量、供者类型(活体与尸体)、供者年龄和草酸的显著影响。180例患者移植后不久的草酸浓度显著低于移植前浓度,提示新移植肾有排泄作用。术后第7天较好的估算肾小球滤过率与较低的草酸浓度相关。草酸和残余尿量不影响患者生存。
结论
残余尿量和草酸浓度是校正死亡后的移植存活的重要且独立预测因素。这些结果强调了抢先移植或优化移植前患者关于废物产物浓度状况的重要性。
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