Targeted fluid therapy has received increasing attention in the management of patients showing acute circulatory failure in both intensive care unit (ICU) and operating room (OR), aiming at preventing both inadequate tissue blood flow and fluid overload. In fact, unnecessary fluid administration can increase morbidity and mortality and length of hospital stay of critically ill and surgical patients.
Since the only physiological reason to give a fluid challenge (FC) is to increase the stroke volume (SV) and this effect is obtained only in about 50% of ICU and OR patients, a vast literature investigated the possibility of predict this effect before FC administration, but the issue remains extremely challenging. Bedside clinical signs and pressure and static volumetric static variables, do not predict fluid responsiveness. Moreover, several physiological factors affect the reliability of the ventilator-induced dynamic changes in pulse pressure and stroke volume \[pulse pressure variation (PPV) and stroke volume (SV) variation (SVV), respectively\], and their echographic surrogates, in a significant number of ICU and OR patients.
To overcome these limitations, the functional hemodynamic assessment (i.e. the assessment of the dynamic interactions of hemodynamic variables in response to a defined perturbation), of fluid responsiveness has gained in popularity. A functional hemodynamic test (FHT) consist in a manoeuvre determining a sudden change in cardiac function and/or heart lung interaction, affecting the hemodynamics of fluid responders and non-responders to a different extent.
The FHT called passive leg raising (PLR) has been successfully used for assessing the fluid responsiveness in ICU patients since 2009 and its reliability has been confirmed by three large meta-analyses. However, the PLR is not usually practicable in the OR.
A lot of different FHTs have been proposed, as alternative to the PLR, in ICU and, more recently, OR. These tests could be basically subdivided in two groups. A subgroup of FHTs is based on sudden and brief variations of the mechanical ventilation to induce a change in right ventricle preload and/or after load and, as consequence, of left ventricle. Among these tests, the rapid administration of a small aliquot of the predefined FC (the so-called mini FC) has gained in popularity in the last years.
On of the drawbacks of this test is that the optimal threshold identified in the literature to stratify responders and non-responders (5% of SV variation) is quite small, and potentially affected by the reliability of the hemodynamic tool used. The aim of this paper is to compare the reliability of a hemodynamic invasive tool (the (PiCCO2 TM, Pulsion Medical Systems, Munich, Germany - considered the gold standard) with a mini-invasive tool (MostCareTM system (Vytech Health, Padua, Italy) and a non-invasive (echocardiography) in predicting the response to the mini-FC in critically ill patients.
