Jianxia Hu1,2, Liping Hu1, Nirong Gong1, Lei Zhang1, Jianwei Tian1, Jianping Jiang1. 1. 1Department of Nephrology, Nanfang Hospital, Southern Medical University, Guangzhou 510515, China. 2. Department of Nephrology, Donghua Hospital Affiliated to Sun Yat-sen University, Dongguan 523000, China.
Abstract
OBJECTIVE: To explore the impact of dietary sodium-intake on residual renal function in patients undergoing peritoneal dialysis (PD). METHODS: Thirty-three patients on PD with stable dialysis were regularly followed up for 12 months. The daily sodium intake of the patients was calculated based on the 3-day dietary record. Based on the mean daily sodium intake, the patients enrolled were divided into low-salt group (sodium intake≤3.0 g/day, 19 patients) and high-salt group (sodium intake>3.0 g/day, 14 patients). The baseline data of the patients were recorded, and the indicators of residual renal function and peritoneal function were regularly tested. The patients were followed-up at 3-month intervals, and their urine volume, peritoneal ultrafiltration volume and other clinical indicators were recorded and the biochemical indexes were detected to evaluate the changes in the residual renal function and peritoneal function. RESULTS: There was a positive correlation between the total sodium excretion and dietary sodium intake in these patients (r=0.536, P=0.0013), and sodium excretion by dialysis was positively correlated with their sodium intake (r=0.901, P=0.000). Regression analysis suggested that the total sodium excretion was correlated with dietary sodium intake (β=0.416, 95% CI: 0.170-0.666; P < 0.0018); sodium excretion by dialysis was associated with dietary sodium intake (β=0.489, 95% CI: 0.395-0.582; P < 0.001). The residual renal function was reduced by 17.48±11.22 L /(w·1.73 m2) in the low-salt group, as compared to 30.20±18.30 L /(w·1.73 m2) in the high-salt group (P=0.032). The reduction in the residual renal function was correlated with sodium intake in the PD patients (r=0.409, P=0.018). Multivariate regression analysis showed that sodium intake was an independent factor contributing to the reduction of residual renal function (β=14.646, 95% CI 7.426-21.866, P < 0.001). CONCLUSIONS: Sodium excretion by PD in patients with continuous ambulatory PD is positively correlated with their dietary sodium intake, which contribute to the decrease of residual renal function. A high dietary sodium intake may accelerate the reduction of residual renal function in these patients.
OBJECTIVE: To explore the impact of dietary sodium-intake on residual renal function in patients undergoing peritoneal dialysis (PD). METHODS: Thirty-three patients on PD with stable dialysis were regularly followed up for 12 months. The daily sodium intake of the patients was calculated based on the 3-day dietary record. Based on the mean daily sodium intake, the patients enrolled were divided into low-salt group (sodium intake≤3.0 g/day, 19 patients) and high-salt group (sodium intake&gt;3.0 g/day, 14 patients). The baseline data of the patients were recorded, and the indicators of residual renal function and peritoneal function were regularly tested. The patients were followed-up at 3-month intervals, and their urine volume, peritoneal ultrafiltration volume and other clinical indicators were recorded and the biochemical indexes were detected to evaluate the changes in the residual renal function and peritoneal function. RESULTS: There was a positive correlation between the total sodium excretion and dietary sodium intake in these patients (r=0.536, P=0.0013), and sodium excretion by dialysis was positively correlated with their sodium intake (r=0.901, P=0.000). Regression analysis suggested that the total sodium excretion was correlated with dietary sodium intake (β=0.416, 95% CI: 0.170-0.666; P &lt; 0.0018); sodium excretion by dialysis was associated with dietary sodium intake (β=0.489, 95% CI: 0.395-0.582; P &lt; 0.001). The residual renal function was reduced by 17.48±11.22 L /(w·1.73 m2) in the low-salt group, as compared to 30.20±18.30 L /(w·1.73 m2) in the high-salt group (P=0.032). The reduction in the residual renal function was correlated with sodium intake in the PDpatients (r=0.409, P=0.018). Multivariate regression analysis showed that sodium intake was an independent factor contributing to the reduction of residual renal function (β=14.646, 95% CI 7.426-21.866, P &lt; 0.001). CONCLUSIONS:Sodium excretion by PD in patients with continuous ambulatory PD is positively correlated with their dietary sodium intake, which contribute to the decrease of residual renal function. A high dietary sodium intake may accelerate the reduction of residual renal function in these patients.
Entities:
Keywords:
dietary sodium intake; peritoneal dialysis; residual renal function
Authors: Jenny I Shen; Anjali B Saxena; Sitaram Vangala; Satvinder K Dhaliwal; Wolfgang C Winkelmayer Journal: BMC Nephrol Date: 2017-06-17 Impact factor: 2.388