Articles: mechanical-ventilation.
-
High flow nasal cannula (HFNC) use reduces work of breathing and improves oxygenation for patients with hypoxemic respiratory failure. Limited prior work has explored protocolized use of HFNC for trauma patients outside the Intensive Care Unit (ICU). The purpose of this study is to describe and evaluate use of HFNC for patients with rib fractures when therapy was standard of care on all floors of the hospital. ⋯ Findings suggest that HFNC therapy can be safely initiated and managed on all hospital floors for patients with multiple rib fractures. Making the therapy available outside the ICU may reduce healthcare resource use without adversely affecting patient outcomes.
-
Clinical Trial
Strategies for lung- and diaphragm-protective ventilation in acute hypoxemic respiratory failure: a physiological trial.
Insufficient or excessive respiratory effort during acute hypoxemic respiratory failure (AHRF) increases the risk of lung and diaphragm injury. We sought to establish whether respiratory effort can be optimized to achieve lung- and diaphragm-protective (LDP) targets (esophageal pressure swing - 3 to - 8 cm H2O; dynamic transpulmonary driving pressure ≤ 15 cm H2O) during AHRF. ⋯ Respiratory effort is frequently absent under deep sedation but becomes excessive when spontaneous breathing is permitted in patients with moderate or severe AHRF. Systematically titrating ventilation and sedation can optimize respiratory effort for lung and diaphragm protection in most patients. VV-ECMO can greatly facilitate the delivery of a LDP strategy.
-
Observational Study
The global inhomogeneity index assessed by electrical impedance tomography overestimates PEEP requirement in patients with ARDS: an observational study.
Electrical impedance tomography (EIT) visualises alveolar overdistension and alveolar collapse and enables optimisation of ventilator settings by using the best balance between alveolar overdistension and collapse (ODCL). Besides, the global inhomogeneity index (GI), measured by EIT, may also be of added value in determining PEEP. Optimal PEEP is often determined based on the best dynamic compliance without EIT at the bedside. This study aimed to assess the effect of a PEEP trial on ODCL, GI and dynamic compliance in patients with and without ARDS. Secondly, PEEP levels from "optimal PEEP" approaches by ODCL, GI and dynamic compliance are compared. ⋯ Currently, no golden standard to titrate PEEP is available. We showed that when using the GI, PEEP requirements are higher compared to ODCL and best dynamic compliance during a PEEP trial in patients with and without ARDS.