Clinical Research Directory

FMT for Lung and Associated-organ Rescue Efficacy in ARDS Patients

Acute respiratory distress syndrome (ARDS) represents a substantial global health burden. In the intensive care unit (ICU), the concurrent administration of antibiotics, opioids, proton pump inhibitors (PPIs), vasoconstrictors, and parenteral nutrition-compounded by the intrinsic severity of critical illness-induces profound gut microbiota dysbiosis. Accumulating preclinical and clinical evidence indicates that such intestinal dysregulation may trigger distal immunomodulatory and microbial shifts in the lung via the gut-lung axis, thereby contributing to pulmonary microecological imbalance and impairing recovery trajectories. Although pulmonary microecology has garnered increasing scientific attention, the causal and temporal relationship between gut dysbiosis and the establishment or exacerbation of pulmonary microbial dysbiosis in ARDS remains inadequately characterized. As a result, it is currently unclear whether gut dysbiosis serves as a primary pathogenic driver, a disease-amplifying factor, or a secondary epiphenomenon in the context of ARDS-associated lung injury. Fecal microbiota transplantation (FMT) is a targeted microbiome-modulating intervention that involves the transfer of functionally diverse, minimally processed microbial communities from comprehensively screened healthy donors to restore ecological stability and functional redundancy in the recipient gut. Robust clinical data demonstrate that FMT effectively decolonizes the gastrointestinal tract of multidrug-resistant organisms (MDROs) and reduces the incidence of secondary infections in immunocompetent, non-critically ill populations. Over the past decade, FMT has demonstrated reproducible efficacy in recurrent Clostridioides difficile infection and emerging promise in select extra-intestinal inflammatory conditions-highlighting its capacity as a mechanism-informed strategy for systemic host-microbe recalibration. Given the established role of the gut as a reservoir for enteric pathogens implicated in sepsis, hospital-acquired bloodstream infections, and ventilator-associated pneumonia (VAP), we propose a prospective, single-center, open-Label, randomized controlled trial (RCT) enrolling mechanically ventilated adults with ARDS. The primary objective is to evaluate whether adjunctive FMT-delivered via nasojejunal tube-decrease 28-day mortality.

Combined Lactulose H2-breath Test With Abdominal Imaging

Hydrogen (H₂) breath tests serve several purposes. (i) detect malabsorption of carbohydrates such as lactose and fructose, (ii) measurement of oro-caecal transit time (iii) associate hydrogen production with the onset of abdominal symptoms like bloating, flatulence, pain, and diarrhea (which indicates carbohydrate intolerance), and (iv) diagnose small intestinal bacterial overgrowth (SIBO). It is important to distinguish between carbohydrate intolerance and SIBO because their treatments differ significantly. Carbohydrate intolerance is typically managed through dietary restrictions, while SIBO requires antibiotic therapy. However, recent guidelines have questioned the accuracy of hydrogen breath tests in diagnosing SIBO due to variability in OCTT measurements. This limitation can be addressed by combining H₂ breath tests with imaging techniques such as scintigraphy, which independently confirm OCTT. When this combined approach is used, SIBO is diagnosed if the rise in breath H₂ occurs before the contrast agent appears in the large bowel. Despite its benefits, this combined method faces organizational and financial challenges that limit its routine clinical use. This retrospective cohort study aims to assess the clinical performance of a cheap and simple test that combines a 20g lactulose H₂ breath test with simple radiographic abdominal imaging to assess OCTT, SIBO, and carbohydrate tolerance. The novel innovation in this method is to confirm oro-caecal transit by taking an X-ray of the abdomen when H₂ production increases during the examination. If the contrast agent is not visible in the cecum when H₂ rises, this indicates the presence of SIBO. Conversely, if the contrast agent is present in the cecum at that time, it confirms normal OCTT, and any abdominal symptoms occurring after this point support a diagnosis of carbohydrate intolerance. If the method is proven to be valid, then this simple test will greatly facilitate the accurate diagnosis of SIBO and carbohydrate intolerance, allowing for more appropriate treatment decisions.