OBJECTIVE: To evaluate pulse oximetry as a technique for diagnosing pneumonic and nonpneumonic acute lower respiratory tract infection (ALRI) in Peruvian children. DESIGN: Children with acute respiratory infection were diagnosed with hypoxemia by pulse oximetry, with ALRI by the World Health Organization (WHO) algorithm and clinical examination, and with pneumonia by radiographic examination. Diagnoses were compared using kappa analysis. SETTING: Pediatric emergency department. PATIENTS: Peruvian pediatric patients with acute respiratory infection (n = 269) and well children (n = 162). MAIN OUTCOME MEASURES: Hypoxemia (arterial oxygen saturation < 96.6% of the mean arterial oxygen saturation of well children -2 SD). RESULTS: Children with pneumonic and nonpneumonic ALRI (59%, 160/269) had a mean (+/- SD) arterial oxygen saturation significantly lower than well children (93.8% +/- 3.5% vs 98.7% +/- 1.51%; P < .01). Pulse oximetry detected 88% and the WHO algorithm 90% of cases of pneumonic ALRI. The WHO algorithm and pulse oximetry detected 72% of radiologic pneumonia. Pulse oximetry misclassified notably fewer well children than did the WHO algorithm (4% vs 35%). Pulse oximetry and the WHO algorithm together (SATWHO) detected 99% and 87% of pneumonic ALRI and radiologic pneumonias, respectively, and both methods detected 94% of all cases of pneumonic and nonpneumonic ALRI diagnosed clinically. CONCLUSIONS: Pulse oximetry and the WHO algorithm are practical, helpful, and appropriate for use in developing countries to identify children with pneumonic and non-pneumonic ALRI who require treatment. The SATWHO is highly sensitive for detecting children with ALRI.
OBJECTIVE: To evaluate pulse oximetry as a technique for diagnosing pneumonic and nonpneumonic acute lower respiratory tract infection (ALRI) in Peruvian children. DESIGN:Children with acute respiratory infection were diagnosed with hypoxemia by pulse oximetry, with ALRI by the World Health Organization (WHO) algorithm and clinical examination, and with pneumonia by radiographic examination. Diagnoses were compared using kappa analysis. SETTING: Pediatric emergency department. PATIENTS: Peruvian pediatric patients with acute respiratory infection (n = 269) and well children (n = 162). MAIN OUTCOME MEASURES: Hypoxemia (arterial oxygen saturation < 96.6% of the mean arterial oxygen saturation of well children -2 SD). RESULTS:Children with pneumonic and nonpneumonic ALRI (59%, 160/269) had a mean (+/- SD) arterial oxygen saturation significantly lower than well children (93.8% +/- 3.5% vs 98.7% +/- 1.51%; P < .01). Pulse oximetry detected 88% and the WHO algorithm 90% of cases of pneumonic ALRI. The WHO algorithm and pulse oximetry detected 72% of radiologic pneumonia. Pulse oximetry misclassified notably fewer well children than did the WHO algorithm (4% vs 35%). Pulse oximetry and the WHO algorithm together (SATWHO) detected 99% and 87% of pneumonic ALRI and radiologic pneumonias, respectively, and both methods detected 94% of all cases of pneumonic and nonpneumonic ALRI diagnosed clinically. CONCLUSIONS: Pulse oximetry and the WHO algorithm are practical, helpful, and appropriate for use in developing countries to identify children with pneumonic and non-pneumonic ALRI who require treatment. The SATWHO is highly sensitive for detecting children with ALRI.
Authors: Laura E Ellington; Robert H Gilman; James M Tielsch; Mark Steinhoff; Dante Figueroa; Shalim Rodriguez; Brian Caffo; Brian Tracey; Mounya Elhilali; James West; William Checkley Journal: BMJ Open Date: 2012-02-03 Impact factor: 2.692
Authors: Laura E Ellington; Robert H Gilman; Miguel A Chavez; Farhan Pervaiz; Julio Marin-Concha; Patricia Compen-Chang; Stefan Riedel; Shalim J Rodriguez; Charlotte Gaydos; Justin Hardick; James M Tielsch; Mark Steinhoff; Jane Benson; Evelyn A May; Dante Figueroa-Quintanilla; William Checkley Journal: Respir Med Date: 2017-05-15 Impact factor: 3.415
Authors: Taneli Puumalainen; Beatriz Quiambao; Erma Abucejo-Ladesma; Socorro Lupisan; Tarja Heiskanen-Kosma; Petri Ruutu; Marilla G Lucero; Hanna Nohynek; Eric A F Simoes; Ian Riley Journal: BMC Infect Dis Date: 2008-07-21 Impact factor: 3.090
Authors: Farhan Pervaiz; Miguel A Chavez; Laura E Ellington; Matthew Grigsby; Robert H Gilman; Catherine H Miele; Dante Figueroa-Quintanilla; Patricia Compen-Chang; Julio Marin-Concha; Eric D McCollum; William Checkley Journal: Chest Date: 2018-10-03 Impact factor: 9.410