Description

The most severe acute respiratory distress syndrome (ARDS) cases require extracorporeal membrane oxygenation (ECMO). ECMO is a life-support technique utilized in patients with reversible refractory respiratory failure. Nosocomial infections (NI) are common complications in ECMO patients due to predisposing factors such as patients' comorbidities, immunocompromise associated with the critical illness, and invasiveness of ECMO and other life support procedures. Few studies have assessed the incidence, risk factors, microbial etiology, and antibiotic resistance of NIs during ECMO. In a monocentric retrospective observational analysis, a high incidence of NI was detected in ECMO patients. The most common NI was ventilation-associated pneumonia (VAP), frequently caused by multidrug-resistant (MDR) bacteria. Patients developing an infection had a longer duration of ECMO and mechanical ventilation and a more prolonged ICU stay. The rate of MDR bacterial isolates was very high, and the first NI episode caused by MDR germs was an independent risk factor for death. To date, no prospective study has studied the epidemiology and clinical significance of NIs during ECMO. Better knowledge of NIs epidemiology during ECMO may allow us to target possibly causative agents using more specific empirical antibiotic therapy, increase accuracy, and optimize the timing of antimicrobial treatment. In turn, this may lead to better treatment of NIs in patients undergoing ECMO, thus reducing the overall burden of infections in such a fragile population and allowing a significant decrease in the costs of treatment.

Several new antimicrobial agents utilized for the treatment of MDR infections (i.e., ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, cefiderocol) have been granted approval in Europe for the treatment of VAP. Antibiotic efficacy in pneumonia requires sufficient unbound drug concentrations at the pulmonary site of infection, and determination of the bronchopulmonary availability of antibiotics in epithelial lining fluid (ELF) allows penetration into the lung to be characterized. While population pharmacokinetic (PK) models have been carried out in healthy volunteers, no data is available relative to the PK of those antibiotics ECMO patients. In general, ECMO has been shown to impact PK in three primary ways: direct extraction by the circuit increased volume of distribution, and altered clearance5. Thus, knowledge of the PK of these newly introduced antibiotic agents in ECMO patients suffering from VAP due to MDR bacteria may be of great clinical impact.

Based on these premises, in a large cohort of ECMO patients with ARDS, the investigators will carry out a prospective multicenter observational study to describe NIs and their risk factors. Overall, with this study, the investigators will significantly broaden the data as regards to NIs during ECMO.

In addition, in a subgroup of patients treated with ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, or cefiderocol for VAP during ECMO treatment, the investigators will carry out a pharmacokinetic study.