Respiratory care
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The study assessed the impact of simulated ventilation techniques using upright and conventional self-inflating neonatal resuscitators on delivered tidal volume (VT) and pressure. ⋯ Improved mask design, larger bag volume, and upright orientation of the upright resuscitator likely contributed to higher VT and PIP. However, high VT was observed with both resuscitators, possibly due to excessive squeezing of the bag, especially during low compliance. Thus, the design of the resuscitator and manner in which the device is utilized can both significantly influence the VT and PIP attained.
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Limiting tidal volume (VT) in patients with ARDS may not be achieved once patient-triggered breaths occur. Furthermore, ICU ventilators offer numerous patient-triggered modes that work differently across brands. We systematically investigated, using a bench model, the effect of patient-triggered modes on the size and variability of VT at different breathing frequencies (f), patient effort, and ARDS severity. ⋯ Risk of VT > 6 mL/kg was significantly reduced in APRV and pressure support with guaranteed volume mode. APRV had the highest variability. Pressure support with guaranteed volume could be tested in patients with ARDS.
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Among survivors of intensive care, many remain dependent on mechanical ventilation and are discharged to long-term chronic ventilator units or to skilled nursing facilities. Few long-term outcome data are available on patients transferred from long-term chronic ventilator units. ⋯ Subjects discharged from an long-term chronic ventilator unit and were alive at 1 y had shorter stays in the ICU and were more likely to be discharged home. Further attention is warranted to assure the survival of critical care patients once they are discharged from intensive care units.