Abstract
BACKGROUND: Weaning from mechanical ventilation (MV) is a cardiovascular stress test. Monitoring the regional oxygenation status has shown promising results in predicting the tolerance to spontaneously breathe in the process of weaning from MV. Our aim was to determine whether changes in skeletal muscle oxygen saturation (StO(2)) measured by near-infrared spectroscopy (NIRS) on the thenar eminence during a vascular occlusion test (VOT) can be used to predict extubation failure from mechanical ventilation. METHODS: We prospectively studied 206 adult patients with acute respiratory failure receiving MV for at least 48 h from a 30-bed mixed ICU, who were deemed ready to wean by their physicians. Patients underwent a 30-min spontaneous breathing trial (SBT), and were extubated according to the local protocol. Continuous StO(2) was measured non-invasively on the thenar eminence. A VOT was performed prior to and at 30 min of the SBT (SBT(30)). The rate of StO(2) deoxygenation (DeO(2)), StO(2) reoxygenation (ReO(2)) rate and StO(2) hyperemic response to ischemia (H(AUC)) were calculated. RESULTS: Thirty-six of the 206 patients (17%) failed their SBT. The remainder 170 patients (83%) were extubated. Twenty-three of these patients (13.5%) needed reinstitution of MV within 24 h. Reintubated patients displayed a lower H(AUC) at baseline, and higher relative changes in their StO(2) deoxygenation rate between baseline and SBT(30) (DeO(2) Ratio). A logistic regression-derived StO(2) score, combining baseline StO(2), H(AUC) and DeO(2) ratio, showed an AUC of 0.84 (95% CI 0.74-0.91) for prediction of extubation failure. CONCLUSIONS: Extubation failure was associated to baseline and dynamic StO(2) alterations during the SBT. Monitoring StO(2)-derived parameters might be useful in predicting extubation outcome.