TY - JOUR
T1 - Use of pulse oximetry to predict in-hospital complications in normotensive patients with pulmonary embolism
AU - Kline, Jeffrey A.
AU - Hernandez-Nino, Jackeline
AU - Newgard, Craig D.
AU - Cowles, Dana N.
AU - Jackson, Raymond E.
AU - Courtney, D. Mark
PY - 2003/8/15
Y1 - 2003/8/15
N2 - PURPOSE: A simple method is needed to risk stratify normotensive patients with pulmonary embolism. We studied whether bedside clinical data can predict in-hospital complications from pulmonary embolism. METHODS: We performed a multicenter derivation phase, followed by validation in a single center. All patients were normotensive; the diagnosis of pulmonary embolism was established by objective imaging. Classification and regression analysis was performed to derive a decision tree from 27 parameters recorded from 207 patients. The validation study was conducted on a separate group of 96 patients to determine the derived criterion's diagnostic accuracy for in-hospital complications (cardiogenic shock, respiratory failure, or death). RESULTS: Mortality in the derivation phase was 4% (n = 8) at 24 hours and 10% (n = 21) at 30 days. A room-air pulse oximetry reading <95% was the most important predictor of death; mortality was 2% (95% confidence interval [CI]: 0% to 6%) in patients with pulse oximetry ≥95% versus 20% (95% CI: 12% to 29%) with pulse oximetry <95%. In the validation phase, the room-air pulse oximetry was <95% at the time of diagnosis in 9 of 10 patients who developed an in-hospital complication (sensitivity, 90%) and ≥95% in 55 of 86 patients without complications (specificity, 64%). CONCLUSION: Mortality from pulmonary embolism in normotensive patients is high. A room-air pulse oximetry reading ≥95% at diagnosis is associated with a significantly lower probability of in-hospital complications from pulmonary embolism.
AB - PURPOSE: A simple method is needed to risk stratify normotensive patients with pulmonary embolism. We studied whether bedside clinical data can predict in-hospital complications from pulmonary embolism. METHODS: We performed a multicenter derivation phase, followed by validation in a single center. All patients were normotensive; the diagnosis of pulmonary embolism was established by objective imaging. Classification and regression analysis was performed to derive a decision tree from 27 parameters recorded from 207 patients. The validation study was conducted on a separate group of 96 patients to determine the derived criterion's diagnostic accuracy for in-hospital complications (cardiogenic shock, respiratory failure, or death). RESULTS: Mortality in the derivation phase was 4% (n = 8) at 24 hours and 10% (n = 21) at 30 days. A room-air pulse oximetry reading <95% was the most important predictor of death; mortality was 2% (95% confidence interval [CI]: 0% to 6%) in patients with pulse oximetry ≥95% versus 20% (95% CI: 12% to 29%) with pulse oximetry <95%. In the validation phase, the room-air pulse oximetry was <95% at the time of diagnosis in 9 of 10 patients who developed an in-hospital complication (sensitivity, 90%) and ≥95% in 55 of 86 patients without complications (specificity, 64%). CONCLUSION: Mortality from pulmonary embolism in normotensive patients is high. A room-air pulse oximetry reading ≥95% at diagnosis is associated with a significantly lower probability of in-hospital complications from pulmonary embolism.
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U2 - 10.1016/S0002-9343(03)00328-0
DO - 10.1016/S0002-9343(03)00328-0
M3 - Article
C2 - 12935827
AN - SCOPUS:0041912563
SN - 0002-9343
VL - 115
SP - 203
EP - 208
JO - American journal of medicine
JF - American journal of medicine
IS - 3
ER -