Circulating intestinal fatty acid binding protein and intestinal toxicity in Russell’s viper envenomation

Abdominal pain is known to be an early clinical predictor of severe systemic Russell's viper (RV) envenomation and is often associated with the later development of coagulopathy and neurotoxicity. The mechanism of abdominal pain is unknown, but we postulated it might be due to intestinal microvascular endothelial gut damage. Gut-toxicity can be detected using the novel biomarker Intestinal Fatty Acid Binding Protein (IFABP). We also wanted to explore the mechanisms and consequences of this toxicity by measuring procalcitonin as a specific marker of sepsis triggered by bacterial endotoxin, and serum cystatin-C (CysC) as a measure of acute kidney injury. We hypothesised that severe gut-injury might lead to gut-barrier failure, translocation of gastrointestinal microorganisms, associated sepsis and systemic inflammatory response syndrome (SIRS), with a possible exacerbation of snake-bite severity, including acute kidney injury that was previously attributed to direct venom effects.Serial plasma samples previously collected from 16 RV envenomations with abdominal pain, 15 RV envenomations without abdominal pain and 25 healthy controls were assayed for IFABP. A subgroup of these RV envenomations were assayed for procalcitonin (The median peak IFABP for RV envenomations was much higher than healthy controls [3703.0 pg/mL (IQR 2250.1-13702.0 pg/mL) vs. 270.1 pg/mL (IQR 153.5-558.0 pg/mL) (IFABP is significantly elevated indicating enterocyte damage occurs in RV envenomation. IFABP correlated with markers of sepsis (procalcitonin) and acute kidney injury (serum CysC) suggesting that enterocyte damage resulting in translocation of microbial associated molecular patterns (MAMPs) contributes to RV envenomation associated SIRS and sepsis.