Effect of Sodium and UF Profiling on Dialysis

Sodium and ultrafiltration profiling are method of dialysis in which dialysate sodium concentration and ultrafiltration rate are altered during the course of the dialysis session.

Several sodium profiling methods are available. Increasing, decreasing, or alternating sodium concentrations may be used, although decreasing profiling has been the most accepted. The decrease in dialysate sodium concentration may be linear, stepwise, or exponential As different sodium profiling methods may have distinct impacts, different dialysis modalities may also affect the outcome of profiling. Although not as commonly used, hemodiafiltration HDF which utilizes convective clearance in addition to diffusion, may change the results of sodium profiling Such intervention alleviates the acute decline in intravascular volume during ultrafiltration UF as well as the decline in intradialytic plasma osmolarity and the consequent disequilibrium syndrome Sodium profiling enhances the internal plasma refill rate and helps to stabilize the blood pressure, thus decreasing the risk of Intra dialytic hypotension. It is imperative to limit or prevent intradialytic hypotension since it does not only affect the patient's comfort but also increases the risk of vascular access thrombosis, myocardial fibrosis and stunning, cardiovascular events, and mortality So it has potential benefits in terms of intradialytic morbidity and mortality as well as quality of life and long-term cardiovascular events; nevertheless, it may also predispose to interdialytic hypernatremia and increased interdialytic hypernatremia and interdialytic weight gain IDWG and hypertension. Fatigue and thirst have been reported with sodium profiling and the resulting sodium overload.

Another method to avoid intradialytic hemodynamic instability is UF profiling. In it, a larger portion of total UF volume is extracted during the first part of a dialysis session, after which the UF rate is decreased in order to maintain hemodynamic stability However, achieving a correct intradialytic sodium balance is a much more difficult task in clinical practice. With the advances in technology, automatic computer-based programs can be used today to calculate intradialytic sodium removal. These models use real-time data from patients and are being used to reach underdialysis sodium, weight in Kg, and blood volume targets. Such biofeedback systems enable to achieve sodium balance neutral sodium profile and UF profile automatically. Currently, there are various commercial dialysis systems that calculate dialysate and UF profiles with algorithms based on the prescribed decrease in body weight and sodium mass.

The aim of study to determine which specific profiling methods is more efficacious in preventing specific symptoms and which profiling method has the most utility in routine clinical practice. Furthermore, more qualitative data is warranted for subjective analysis of quality of life and personal well-being.