Francesco Cavallin 1 , Maria Sofia Cori 2 , Senait Negash 3 , Gaetano Azzimonti 4 , Fabio Manenti 4 , Giovanni Putoto 5 , Daniele Trevisanuto 6 Show Affiliations »
Abstract
AIM: To evaluate the relationship between clinical assessment of infant colour and oxygen saturation at birth in a low-resource setting. METHODS: Classification of infant colour (cyanotic, pink or unclear) by midwives was compared to pulse-oximeter data at 60-90-120-300 seconds after birth in 60 neonates. RESULTS: Overall, oxygen saturation increased over time (P < .0001) and was different according to infant colour (P < .0001). Median oxygen saturation in pink infants was 87% at 60 seconds (n = 1), 90% (IQR 83-91) at 90 seconds (n = 5), 86% (IQR 81-94) at 120 seconds (n = 11) and 93% (IQR 90-96) at 300 seconds (n = 20). Median oxygen saturation in cyanotic infants was 60% (IQR 45-70) at 60 seconds (n = 52), 64% (IQR 52-69) at 90 seconds (n = 42), 63% (IQR 56-68) at 120 seconds (n = 35) and 66% (IQR 62-74) at 300 seconds (n = 22). Median oxygen saturation in unclear-coloured infants was 57% (IQR 56-60) at 60 seconds (n = 7), 78% (IQR 71-81) at 90 seconds (n = 13), 81% (IQR 79-88) at 120 seconds (n = 14) and 80% (IQR 76-84) at 300 seconds (n = 18). The proportion of infants with unclear colour ranged from 12% to 30%. CONCLUSION: The variability of oxygen saturation among pink and cyanotic infants, and the substantial proportion of unclear infant colour, suggest the possible benefit of the availability of pulse oximetry in low-resource settings. ©2020 Foundation Acta Paediatrica. Published by John Wiley & Sons Ltd.
AIM: To evaluate the relationship between clinical assessment of infant colour and oxygen saturation at birth in a low-resource setting. METHODS: Classification of infant colour (cyanotic, pink or unclear) by midwives was compared to pulse-oximeter data at 60-90-120-300 seconds after birth in 60 neonates. RESULTS: Overall, oxygen saturation increased over time (P < .0001) and was different according to infant colour (P < .0001). Median oxygen saturation in pink infants was 87% at 60 seconds (n = 1), 90% (IQR 83-91) at 90 seconds (n = 5), 86% (IQR 81-94) at 120 seconds (n = 11) and 93% (IQR 90-96) at 300 seconds (n = 20). Median oxygen saturation in cyanotic infants was 60% (IQR 45-70) at 60 seconds (n = 52), 64% (IQR 52-69) at 90 seconds (n = 42), 63% (IQR 56-68) at 120 seconds (n = 35) and 66% (IQR 62-74) at 300 seconds (n = 22). Median oxygen saturation in unclear-coloured infants was 57% (IQR 56-60) at 60 seconds (n = 7), 78% (IQR 71-81) at 90 seconds (n = 13), 81% (IQR 79-88) at 120 seconds (n = 14) and 80% (IQR 76-84) at 300 seconds (n = 18). The proportion of infants with unclear colour ranged from 12% to 30%. CONCLUSION: The variability of oxygen saturation among pink and cyanotic infants , and the substantial proportion of unclear infant colour, suggest the possible benefit of the availability of pulse oximetry in low-resource settings. ©2020 Foundation Acta Paediatrica. Published by John Wiley & Sons Ltd.
Entities: Chemical
Species
Keywords:
birth; colour; infant newborn; low-resource-setting; oxygen saturation
Mesh: See more »
Substances: See more »
Year: 2020
PMID: 32638416 DOI: 10.1111/apa.15463
Source DB: PubMed Journal: Acta Paediatr ISSN: 0803-5253 Impact factor: 2.299