TY - JOUR T1 - High convective volumes are associated with improvement in metabolic profile in diabetic patients on online haemodiafiltration JO - Nefrología (English Edition) T2 - AU - Macías,Nicolás AU - Abad,Soraya AU - Vega,Almudena AU - Cedeño,Santiago AU - Santos,Alba AU - Verdalles,Úrsula AU - Linares,Tania AU - Aragoncillo,Inés AU - Galán,Isabel AU - García-Prieto,Ana AU - Luño,José AU - López Gómez,Juan Manuel SN - 20132514 M3 - 10.1016/j.nefroe.2018.08.004 DO - 10.1016/j.nefroe.2018.08.004 UR - https://revistanefrologia.com/en-high-convective-volumes-are-associated-articulo-S2013251419300574 AB - Background and objectiveOnline haemodiafiltration (OL-HDF) with high convective transport volumes improves patient survival in haemodialysis. Limiting the amount of convective volume has been proposed in patients with diabetes mellitus due to glucose load that is administered with replacement fluid. The objective of the study was to analyze the influence of substitution volume on the evolution of the metabolic profile and body composition of incident diabetic patients on OL-HDF. Material and methodsProspective observational study in 29 incident diabetic patients on postdilution OL-HDF. Baseline data included clinical and demographic data, laboratory parameters (metabolic, nutritional and inflammatory profile) and body composition with bioimpedance spectroscopy (BIS). Laboratory parameters and mean substitution volume per session were collected every 4 months, and in 23 patients a further BIS was performed after a minimum of one year. Variations in glycosylated hemoglobin (HbA1c), triglycerides, total cholesterol, LDL-c, HDL-c, albumin, prealbumin and C reactive protein (CRP) were calculated at one year, 2 years, 3 years, and at the end of follow-up. Quarterly and annual variations were calculated as independent periods, and changes in body composition were analyzed. ResultsAge at baseline was 69.7±13.6 years, 62.1% were male, 72.3±13.9kg, 1.78±0.16m2, with 48 (35.5–76) months on dialysis. Approximately 81.5% received insulin, 7.4% antidiabetic drugs and 51.9% statins. Mean substitution volume was 26.9±2.9L/session and follow-up period (time on OL-HDF) was 40.4±26 months.A significant correlation was observed between mean substitution volume and the increase in HDL-c (r=0.385, p=0.039) and prealbumin levels (r=0.404, p=0.003) throughout follow-up. Moreover, substitution volume was correlated with a reduction in CRP levels at one year (r=−0.531, p=0.005), 2 years (r=−0.463, p=0.046), and at the end of follow-up (r=−0.498, p=0.007). Patients with mean substitution volume >26.9L/session had a higher reduction in triglycerides and CRP, and an increase in HDL-c levels. These patients with >26.9L/session finished the study with higher HDL-c (48.1±9.4mg/dL vs. 41.2±11.6mg/dL, p=0.025) and lower CRP levels (0.21 [0.1–2.22]mg/dL vs. 1.01 [0.15–6.96]mg/dL, p=0.001), with no differences at baseline.Quarterly comparisons between substitution volume and laboratory changes [n=271] showed a significant correlation with a reduction in HbA1c (r=−0.146, p=0.021). Similar findings were obtained with annual comparisons [n=72] (r=−0.237, p=0.045). An annual mean substitution volume over 26.6L/session (29.3±1.7L/session vs. 23.9±1.9L/session) was associated with a reduction in HbA1c (−0.51±1.24% vs. 0.01±0.88%, p=0.043). No correlation was observed between substitution volume and changes in weight, body mass index or BIS parameters. ConclusionThere is not enough evidence to restrict convective transport in diabetic patients on OL-HDF due to the glucose content of the replacement fluid. ER -