The Enhanced Recovery After Surgery (ERAS) protocols have demonstrated their efficacy in expediting recovery and minimizing postoperative complications, especially in patients undergoing abdominal surgery. Perioperative hydration is one of the most critical pillars of the ERAS protocols, with goal-directed methods for administering fluids increasingly incorporated into these protocols. The Goal-Directed Fluid Therapy (GDFT) method is a strategy used in perioperative and critical care settings to optimize fluid administration tailored to a patient's individual needs. Its goal is to maintain adequate tissue perfusion and oxygenation by precisely balancing fluid administration, avoiding both hypovolemia (too little fluid) and fluid overload. Rather than using a "one-size-fits-all" approach, GDFT adjusts fluid delivery based on real-time monitoring of the patient's physiological parameters. GDFT focuses on dynamic hemodynamic indicators, such as stroke volume (SV), stroke volume variation (SVV), and cardiac output (CO), which provide better insight into the patient's fluid responsiveness. Advanced monitoring tools, such as esophageal Doppler, pulse contour analysis, or invasive devices like a pulmonary artery catheter, are used to assess the patient's response to fluid administration. The implementation of such protocols, particularly in colorectal surgery, has proven beneficial, as both overhydration and underhydration in this context can significantly impair organ function and, consequently, affect patient outcomes. Hypovolemia may lead to tissue ischemia at the anastomotic site, potentially causing breakdown. Conversely, fluid overload can have harmful consequences; hyperhydration may cause tissue edema, thereby reducing anastomotic strength. However, these findings have been validated primarily in high-risk patients, with a limited number of studies involving low- to moderate-risk patients undergoing major abdominal surgery. Colorectal surgery is routinely managed with epidural analgesia combined with general anaesthesia. However, concerns have been raised that epidurally induced sympathetic blockade and vasoplegia (vasodilation) can cause haemodynamic instability, necessitating fluid and vasopressor administration to an uncertain extent. In this single-center trial, we aimed to investigate whether epidural analgesia, in addition to general anaesthesia, influences Stroke Volume Variation (SVV)-guided GDFT using the FloTrac/Vigileo monitor during major open abdominal surgery. The study hypothesis was that epidural analgesia may result in fluid overload to compensate for the induced vasoplegia and that this fluid overload, in turn, could lead to gastrointestinal dysfunction and prolong the length of hospital stay. The primary outcomes were the incidence of postoperative gastrointestinal dysfunction and the length of hospital stay following elective colorectal surgery in patients managed with GDFT, either with or without epidural analgesia. Additionally, patient records of those treated with conventional fluid therapy (CFT), with or without epidural analgesia, were reviewed retrospectively for comparison.
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Gastrointestinal dysfunction
Timeframe: From day of surgery untill 30 days after surgery.
Length of hospital stay
Timeframe: From day of admission to day of discharge, an average of 30 days.