Existing evidence regarding the implementation of Enhanced Recovery After Surgery (ERAS) protocols highlights their benefits in accelerating the recovery process and reducing hospital stay durations. Additionally, postoperative morbidity, mortality, and rehospitalization rates are lower in patients following these protocols. A key component of ERAS protocols is perioperative fluid management, which is critical for gastrointestinal recovery after major abdominal surgery. Both overhydration and underhydration can significantly impair organ function and, consequently, affect patient outcomes.
Goal-directed fluid therapy (GDFT), utilizing dynamic volume measurements, enables balanced fluid administration. Numerous studies support the implementation of such protocols, particularly in major abdominal surgeries. Colonic anastomotic leakage is one of the most serious complications following colorectal surgery, with a reported incidence of up to 20%. Anastomotic breakdown is associated with increased morbidity and mortality, resulting in prolonged hospitalization, depletion of healthcare resources, and elevated costs. Hypovolemia can lead to tissue ischemia at the anastomotic site, causing breakdown. Conversely, fluid overload may have harmful consequences; hyperhydration can lead to tissue edema, thereby reducing anastomotic strength. These findings underscore the importance of maintaining euvolemia during colorectal surgeries, supporting the inclusion of GDFT as an essential component of the anesthetic protocol. However, the benefits of GDFT in abdominal surgery have been predominantly investigated and validated in high-risk patients. Only a limited number of studies involve low- to moderate-risk patients undergoing major abdominal surgery.
Epidural analgesia, combined with general anaesthesia, is considered the gold standard anaesthetic regimen for major abdominal surgery. However, the resulting sympathetic blockade and vasoplegia can cause haemodynamic instability, affecting fluid administration and vasopressor requirements to an uncertain extent. Various clinical and laboratory markers have been employed to monitor the effects of perioperative fluid management. Evidence suggests that B-type Natriuretic Peptide (BNP) levels are associated with fluid balance, morbidity and mortality at 30 days or even 180 days after non-cardiac surgery, and length of hospital stay. However, the concept of using risk predictors such as BNP in surgeries involving significant fluid loss and redistribution, such as colorectal surgeries, remains insufficiently studied.
This single-center trial was conducted to investigate whether epidural analgesia, in addition to general anaesthesia, influences Stroke Volume Variation (SVV) guided GDFT using the FloTrac/Vigileo monitor in major open abdominal surgery. The study hypothesis was that epidural analgesia may result in overhydration to compensate for the induced vasoplegia, thereby affecting gastrointestinal function and length of hospital stay. The primary outcome was the effect of epidural analgesia on the incidence of postoperative gastrointestinal dysfunction and the length of hospital stay in low- to moderate-risk patients undergoing open major abdominal surgery managed with intraoperative GDFT. Secondary outcomes included the total volume of fluids administered, assessment of proBNP levels as a marker of fluid balance, incidence of postoperative adverse events, and all-cause in-hospital mortality. Additionally, patients' records treated with conventional fluid therapy (CFT) with or without epidural analgesia were reviewed retrospectively for comparison.
