TY - JOUR
T1 - Rapid shallow breathing index and its predictive accuracy measured under five different ventilatory strategies in the same patient group
AU - Bien, Mauo-Ying
AU - Lin, You-Shuei
AU - Shie, Huei Guan
AU - Yang, You-Lan
AU - Shih, Chung-Hung
AU - Wang, Jia Horng
AU - Cheng, Kuo-Chen
PY - 2010
Y1 - 2010
N2 - The rapid shallow breathing index (RSBI) is commonly used clinically for predicting the outcome of weaning from mechanical ventilation. We compared the RSBI and its predictive accuracies measured under 5 ventilatory strategies before weaning trials. Ninety-eight patients were included and divided into successful (n = 71) and failed (n = 27) groups based on their weaning outcomes. The RSBI was randomly measured when patients spontaneously breathed 21% O 2 with no ventilator support (the control strategy) or were connected to ventilator breathing with 21% or 40% O2 and 0 or 5 cmH 2O of continuous positive airway pressure (CPAP). We found that the RSBI values did not exhibit significant differences among the 4 ventilator strategies, but all were higher than that of the control; this remained valid in the non-chronic obstructive pulmonary disease (COPD) subgroup, but not in the COPD subgroup. Values of the area under the receiver operating characteristic curve of the RSBI for the 5 strategies were 0.51~0.62 with no significant difference between any 2 strategies. The incidences of adverse reactions (respiratory rate ≥ 35 breaths/min or oxygen saturation ≤ 89% for ≥ 1 min) were relatively high for the 21% O2-0 and 5 cmH2O CPAP groups (20 patients each) and low for the 40% O2-5 cmH 2O CPAP group (2 patients). We concluded that RSBI values increased with the use of a ventilator, but not with additional applications of 40% O 2 and/or 5 cmH2O CPAP. Their accuracies for predicting weaning outcome were unaltered by any of these interventions, but the incidence of adverse reactions increased with the use of the ventilator and decreased with additional 40% O2 supplementation.
AB - The rapid shallow breathing index (RSBI) is commonly used clinically for predicting the outcome of weaning from mechanical ventilation. We compared the RSBI and its predictive accuracies measured under 5 ventilatory strategies before weaning trials. Ninety-eight patients were included and divided into successful (n = 71) and failed (n = 27) groups based on their weaning outcomes. The RSBI was randomly measured when patients spontaneously breathed 21% O 2 with no ventilator support (the control strategy) or were connected to ventilator breathing with 21% or 40% O2 and 0 or 5 cmH 2O of continuous positive airway pressure (CPAP). We found that the RSBI values did not exhibit significant differences among the 4 ventilator strategies, but all were higher than that of the control; this remained valid in the non-chronic obstructive pulmonary disease (COPD) subgroup, but not in the COPD subgroup. Values of the area under the receiver operating characteristic curve of the RSBI for the 5 strategies were 0.51~0.62 with no significant difference between any 2 strategies. The incidences of adverse reactions (respiratory rate ≥ 35 breaths/min or oxygen saturation ≤ 89% for ≥ 1 min) were relatively high for the 21% O2-0 and 5 cmH2O CPAP groups (20 patients each) and low for the 40% O2-5 cmH 2O CPAP group (2 patients). We concluded that RSBI values increased with the use of a ventilator, but not with additional applications of 40% O 2 and/or 5 cmH2O CPAP. Their accuracies for predicting weaning outcome were unaltered by any of these interventions, but the incidence of adverse reactions increased with the use of the ventilator and decreased with additional 40% O2 supplementation.
KW - Continuous positive airway pressure
KW - Mechanical ventilation
KW - Rapid shallow breathing index
KW - Receiver operating characteristic curve
KW - Ventilator weaning
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U2 - 10.4077/CJP.2010.AMK013
DO - 10.4077/CJP.2010.AMK013
M3 - Article
C2 - 21789879
AN - SCOPUS:76649131989
SN - 0304-4920
VL - 53
SP - 1
EP - 10
JO - Chinese Journal of Physiology
JF - Chinese Journal of Physiology
IS - 1
ER -