Investigation of Fluid- and Electrolyte Balance in Post Cardiac-surgery Patients

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Critically ill patients need intravenous fluid therapy in order to correct or prevent problems with their fluid and/or electrolyte status and for renal protection. The decision for the optimal composition and amount of IV-fluids can be difficult and complex. It is well known that errors in fluid- an...

Critically ill patients need intravenous fluid therapy in order to correct or prevent problems with their fluid and/or electrolyte status and for renal protection. The decision for the optimal composition and amount of IV-fluids can be difficult and complex. It is well known that errors in fluid- and electrolyte management contribute to overall morbidity and mortality. Due to the administration of large volumes of normal saline and/or a decreased urinary output of sodium or chloride iatrogen electrolyte disorders, such as hyperchloremic acidosis or dysnatremia are common abnormalities in the clinical practice. The common fact that normal saline has non-physiological levels of chloride and sodium, intensifies this problem with high volume administration. (Burdett et al. 2003; Adrogué & Madias 1997). Hypernatremia is an independent risk factor for mortality in critically ill patients and increases the length of ICU stay (Lindner et al. 2010; Stieglmair et al. 2013) Hypernatremia is associated with impaired renal fluid regulation, as well as a lack of thirst mechanisms. In the ICU this fact requires exact measurement of all fluid- and electrolyte intake and (non-)renal losses. (Lindner et al. 2009). Therefore, in critical care settings measuring fluid balance (the difference between infusion input and renal / non-renal losses) is daily routine. The renal output is measured frequently by the nursing staff. An automated acquisition of the urinary output combined with the data of the infusion site would reduce the workload of the staff and would allow visualization of the fluid status. Furthermore, beyond volume, the concentration and composition of the fluid is an important parameter. The comparison of urinary electrolytes with the electrolyte input from infusions allows an early detection of electrolyte disorders (Besen et al. 2015). Sodium and chloride are the main ions of solutions infused into critically ill patients. The excessive infusion of fluids lead to sodium and chloride overloads and is associated with higher mortality (Noritomi et al. 2009). For decades, urinary sodium was used to diagnose renal disease. Nevertheless, renal excretion of sodium is largely impaired in critically ill patients, particularly in patients with acute kidney injury. Due to the high frequent measurement of renal output, it would be possible also to measure the urinary electrolytes and its relative changes which are likely to be more relevant than the absolute electrolyte concentrations. Urinary electrolyte measurement may alert for the presence of AKI development before occurring increases in creatinine or oliguria (Maciel 2013; Maciel et al. 2015; Molitoris 2013). The rationale of this investigation is therefore to collect data related to fluid- and electrolyte management from critically ill patients in order to find patterns of fluid- and electrolyte imbalances which may lead to disturbances and further, may allow an early detection of acute kidney injury (AKI). Patients undergoing scheduled cardiac surgery will be included in this trial. The rationale behind this is on the one hand, that the patient cohort is homogenous and on the other hand, that the risk for developing an AKI is 30-40% among cardiac surgery patients (Rosner et al. 2006). The aim is to detect characteristic patterns in electrolyte metabolism between patients who develop an AKI and those who do not.

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