Peripheral Venous Pressure Variation and Fluid Responsiveness

Predicting fluid responsiveness is important in the operating room in order to avoid unnecessary fluid administration. Over the last 15 years, a number of dynamic tests have been developed which are based on the principle of inducing short-term changes in cardiac preload, using heart-lung interactions, the passive leg raise or by the infusion of small volumes of fluid, and to observe the resulting effect on cardiac output or stroke volume. Pulse pressure and stroke volume variations were first developed, but they are reliable only under strict conditions. The variations in vena caval diameters share many limitations of pulse pressure variations. The passive leg-raising test is now supported by solid evidence and is more frequently used but not practical in the operating room. More recently, the end-expiratory occlusion test has also been described, which is easily performed in ventilated patients. Unlike the traditional fluid challenge, these dynamic tests do not lead to fluid overload. The dynamic tests require the insertion of an arterial catheter linked to an advanced cardiac output monitoring device which is costly and not applicable in lower risk patients without an arterial line.

In the operating room, it is recommended to use alveolar recruitment maneuvers, consisting in the transient administration of higher pressure levels, allowing to re-ventilate certain pulmonary territories by re-expanding alveoli that would have collapsed under mechanical ventilation. In daily practice, it is generally accepted that a patient presenting a significant fall in stroke volume or mean arterial pressure during an alveolar recruitment maneuver is preload dependent, but the scientific evidence in the literature remains insufficient to date. A previous study has also demonstrated the ability to predict fluid responsiveness via analysis of central venous pressure during a recruitment maneuver. By extrapolation, we would like to evaluate the capacity of peripheral venous pressure to predict this fluid responsiveness.