Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study

Eric D. McCollum; Carina King; Salahuddin Ahmed; Abu A.M. Hanif; Arunangshu D. Roy; Asmd Ashraful Islam; Tim Colbourn; Holly B. Schuh; Amy Sarah Ginsburg; Shubhada Hooli; Nabidul H. Chowdhury; Syed J.R. Rizvi; Nazma Begum; Abdullah H. Baqui; William Checkley

doi:10.1136/bmjresp-2021-001023

Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study

Eric D. McCollum, Carina King, Salahuddin Ahmed, Abu A.M. Hanif, Arunangshu D. Roy, Asmd Ashraful Islam, Tim Colbourn, Holly B. Schuh, Amy Sarah Ginsburg, Shubhada Hooli, Nabidul H. Chowdhury, Syed J.R. Rizvi, Nazma Begum, Abdullah H. Baqui, William Checkley

Research output: Contribution to journal › Article › peer-review

Abstract

Background WHO defines hypoxaemia, a low peripheral arterial oxyhaemoglobin saturation (SpO 2), as <90%. Although hypoxaemia is an important risk factor for mortality of children with respiratory infections, the optimal SpO 2 threshold for defining hypoxaemia is uncertain in low-income and middle-income countries (LMICs). We derived a SpO 2 threshold for hypoxaemia from well children in Bangladesh residing at low altitude. Methods We prospectively enrolled well, children aged 3-35 months participating in a pneumococcal vaccine evaluation in Sylhet district, Bangladesh between June and August 2017. Trained health workers conducting community surveillance measured the SpO 2 of children using a Masimo Rad-5 pulse oximeter with a wrap sensor. We used standard summary statistics to evaluate the SpO 2 distribution, including whether the distribution differed by age or sex. We considered the 2.5th, 5th and 10th percentiles of SpO 2 as possible lower thresholds for hypoxaemia. Results Our primary analytical sample included 1470 children (mean age 18.6±9.5 months). Median SpO 2 was 98% (IQR 96%-99%), and the 2.5th, 5th and 10th percentile SpO 2 was 91%, 92% and 94%. No child had a SpO 2 <90%. Children 3-11 months had a lower median SpO 2 (97%) than 12-23 months (98%) and 24-35 months (98%) (p=0.039). The SpO 2 distribution did not differ by sex (p=0.959). Conclusion A SpO 2 threshold for hypoxaemia derived from the 2.5th, 5th or 10th percentile of well children is higher than <90%. If a higher threshold than <90% is adopted into LMIC care algorithms then decision-making using SpO 2 must also consider the child's clinical status to minimise misclassification of well children as hypoxaemic. Younger children in lower altitude LMICs may require a different threshold for hypoxaemia than older children. Evaluating the mortality risk of sick children using higher SpO 2 thresholds for hypoxaemia is a key next step.

Original language	English (US)
Article number	e001023
Journal	BMJ Open Respiratory Research
Volume	8
Issue number	1
DOIs	https://doi.org/10.1136/bmjresp-2021-001023
State	Published - Nov 2 2021

Keywords

paediatric lung disaese
pneumonia
respiratory infection

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine

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10.1136/bmjresp-2021-001023

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McCollum, E. D., King, C., Ahmed, S., Hanif, A. A. M., Roy, A. D., Islam, A. A., Colbourn, T., Schuh, H. B., Ginsburg, A. S., Hooli, S., Chowdhury, N. H., Rizvi, S. J. R., Begum, N., Baqui, A. H., & Checkley, W. (2021). Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study. BMJ Open Respiratory Research, 8(1), Article e001023. https://doi.org/10.1136/bmjresp-2021-001023

McCollum, ED, King, C, Ahmed, S, Hanif, AAM, Roy, AD, Islam, AA, Colbourn, T, Schuh, HB, Ginsburg, AS, Hooli, S, Chowdhury, NH, Rizvi, SJR, Begum, N, Baqui, AH & Checkley, W 2021, 'Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study', BMJ Open Respiratory Research, vol. 8, no. 1, e001023. https://doi.org/10.1136/bmjresp-2021-001023

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title = "Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study",

abstract = "Background WHO defines hypoxaemia, a low peripheral arterial oxyhaemoglobin saturation (SpO 2), as <90%. Although hypoxaemia is an important risk factor for mortality of children with respiratory infections, the optimal SpO 2 threshold for defining hypoxaemia is uncertain in low-income and middle-income countries (LMICs). We derived a SpO 2 threshold for hypoxaemia from well children in Bangladesh residing at low altitude. Methods We prospectively enrolled well, children aged 3-35 months participating in a pneumococcal vaccine evaluation in Sylhet district, Bangladesh between June and August 2017. Trained health workers conducting community surveillance measured the SpO 2 of children using a Masimo Rad-5 pulse oximeter with a wrap sensor. We used standard summary statistics to evaluate the SpO 2 distribution, including whether the distribution differed by age or sex. We considered the 2.5th, 5th and 10th percentiles of SpO 2 as possible lower thresholds for hypoxaemia. Results Our primary analytical sample included 1470 children (mean age 18.6±9.5 months). Median SpO 2 was 98% (IQR 96%-99%), and the 2.5th, 5th and 10th percentile SpO 2 was 91%, 92% and 94%. No child had a SpO 2 <90%. Children 3-11 months had a lower median SpO 2 (97%) than 12-23 months (98%) and 24-35 months (98%) (p=0.039). The SpO 2 distribution did not differ by sex (p=0.959). Conclusion A SpO 2 threshold for hypoxaemia derived from the 2.5th, 5th or 10th percentile of well children is higher than <90%. If a higher threshold than <90% is adopted into LMIC care algorithms then decision-making using SpO 2 must also consider the child's clinical status to minimise misclassification of well children as hypoxaemic. Younger children in lower altitude LMICs may require a different threshold for hypoxaemia than older children. Evaluating the mortality risk of sick children using higher SpO 2 thresholds for hypoxaemia is a key next step.",

keywords = "paediatric lung disaese, pneumonia, respiratory infection",

author = "McCollum, {Eric D.} and Carina King and Salahuddin Ahmed and Hanif, {Abu A.M.} and Roy, {Arunangshu D.} and Islam, {Asmd Ashraful} and Tim Colbourn and Schuh, {Holly B.} and Ginsburg, {Amy Sarah} and Shubhada Hooli and Chowdhury, {Nabidul H.} and Rizvi, {Syed J.R.} and Nazma Begum and Baqui, {Abdullah H.} and William Checkley",

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year = "2021",

month = nov,

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doi = "10.1136/bmjresp-2021-001023",

language = "English (US)",

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TY - JOUR

T1 - Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh

T2 - An observational study

AU - McCollum, Eric D.

AU - King, Carina

AU - Ahmed, Salahuddin

AU - Hanif, Abu A.M.

AU - Roy, Arunangshu D.

AU - Islam, Asmd Ashraful

AU - Colbourn, Tim

AU - Schuh, Holly B.

AU - Ginsburg, Amy Sarah

AU - Hooli, Shubhada

AU - Chowdhury, Nabidul H.

AU - Rizvi, Syed J.R.

AU - Begum, Nazma

AU - Baqui, Abdullah H.

AU - Checkley, William

PY - 2021/11/2

Y1 - 2021/11/2

N2 - Background WHO defines hypoxaemia, a low peripheral arterial oxyhaemoglobin saturation (SpO 2), as <90%. Although hypoxaemia is an important risk factor for mortality of children with respiratory infections, the optimal SpO 2 threshold for defining hypoxaemia is uncertain in low-income and middle-income countries (LMICs). We derived a SpO 2 threshold for hypoxaemia from well children in Bangladesh residing at low altitude. Methods We prospectively enrolled well, children aged 3-35 months participating in a pneumococcal vaccine evaluation in Sylhet district, Bangladesh between June and August 2017. Trained health workers conducting community surveillance measured the SpO 2 of children using a Masimo Rad-5 pulse oximeter with a wrap sensor. We used standard summary statistics to evaluate the SpO 2 distribution, including whether the distribution differed by age or sex. We considered the 2.5th, 5th and 10th percentiles of SpO 2 as possible lower thresholds for hypoxaemia. Results Our primary analytical sample included 1470 children (mean age 18.6±9.5 months). Median SpO 2 was 98% (IQR 96%-99%), and the 2.5th, 5th and 10th percentile SpO 2 was 91%, 92% and 94%. No child had a SpO 2 <90%. Children 3-11 months had a lower median SpO 2 (97%) than 12-23 months (98%) and 24-35 months (98%) (p=0.039). The SpO 2 distribution did not differ by sex (p=0.959). Conclusion A SpO 2 threshold for hypoxaemia derived from the 2.5th, 5th or 10th percentile of well children is higher than <90%. If a higher threshold than <90% is adopted into LMIC care algorithms then decision-making using SpO 2 must also consider the child's clinical status to minimise misclassification of well children as hypoxaemic. Younger children in lower altitude LMICs may require a different threshold for hypoxaemia than older children. Evaluating the mortality risk of sick children using higher SpO 2 thresholds for hypoxaemia is a key next step.

AB - Background WHO defines hypoxaemia, a low peripheral arterial oxyhaemoglobin saturation (SpO 2), as <90%. Although hypoxaemia is an important risk factor for mortality of children with respiratory infections, the optimal SpO 2 threshold for defining hypoxaemia is uncertain in low-income and middle-income countries (LMICs). We derived a SpO 2 threshold for hypoxaemia from well children in Bangladesh residing at low altitude. Methods We prospectively enrolled well, children aged 3-35 months participating in a pneumococcal vaccine evaluation in Sylhet district, Bangladesh between June and August 2017. Trained health workers conducting community surveillance measured the SpO 2 of children using a Masimo Rad-5 pulse oximeter with a wrap sensor. We used standard summary statistics to evaluate the SpO 2 distribution, including whether the distribution differed by age or sex. We considered the 2.5th, 5th and 10th percentiles of SpO 2 as possible lower thresholds for hypoxaemia. Results Our primary analytical sample included 1470 children (mean age 18.6±9.5 months). Median SpO 2 was 98% (IQR 96%-99%), and the 2.5th, 5th and 10th percentile SpO 2 was 91%, 92% and 94%. No child had a SpO 2 <90%. Children 3-11 months had a lower median SpO 2 (97%) than 12-23 months (98%) and 24-35 months (98%) (p=0.039). The SpO 2 distribution did not differ by sex (p=0.959). Conclusion A SpO 2 threshold for hypoxaemia derived from the 2.5th, 5th or 10th percentile of well children is higher than <90%. If a higher threshold than <90% is adopted into LMIC care algorithms then decision-making using SpO 2 must also consider the child's clinical status to minimise misclassification of well children as hypoxaemic. Younger children in lower altitude LMICs may require a different threshold for hypoxaemia than older children. Evaluating the mortality risk of sick children using higher SpO 2 thresholds for hypoxaemia is a key next step.

KW - paediatric lung disaese

KW - pneumonia

KW - respiratory infection

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DO - 10.1136/bmjresp-2021-001023

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Defining hypoxaemia from pulse oximeter measurements of oxygen saturation in well children at low altitude in Bangladesh: An observational study

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