Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio

Introduction: Instability of peripheral oxyhemoglobin saturation (SpO(2)) in preterm infants is correlated with late disability and is poorly understood. We hypothesised that a reduced ventilation to perfusion ratio (V(A)/Q) is the key predisposing factor for SpO(2) instability. Methods: We first us...

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Autores principales: Stoecklin, Benjamin, Choi, Y. Jane, Dassios, Theodore, Jones, J. Gareth, Lockwood, Geoffrey G., Pillow, J. Jane
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Physiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9941664/
https://www.ncbi.nlm.nih.gov/pubmed/36824465
http://dx.doi.org/10.3389/fphys.2023.1112115
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author Stoecklin, Benjamin
Choi, Y. Jane
Dassios, Theodore
Jones, J. Gareth
Lockwood, Geoffrey G.
Pillow, J. Jane
author_facet Stoecklin, Benjamin
Choi, Y. Jane
Dassios, Theodore
Jones, J. Gareth
Lockwood, Geoffrey G.
Pillow, J. Jane
author_sort Stoecklin, Benjamin
collection PubMed
description Introduction: Instability of peripheral oxyhemoglobin saturation (SpO(2)) in preterm infants is correlated with late disability and is poorly understood. We hypothesised that a reduced ventilation to perfusion ratio (V(A)/Q) is the key predisposing factor for SpO(2) instability. Methods: We first used a mathematical model to compare the effects of reduced V(A)/Q or shunt on SaO(2) stability (SaO(2) and SpO(2) are used for model and clinical studies respectively). Stability was inferred from the slope of the SaO(2) vs. inspired oxygen pressure (P (I)O(2)) curve as it intersects the 21 kPa P (I)O(2) line (breathing air). Then, in a tertiary neonatal intensive care unit, paired hourly readings of SpO(2) and P (I)O(2) were recorded over a 24 h period in week old extremely preterm infants. We noted SpO(2) variability and used an algorithm to derive V(A)/Q and shunt from the paired SpO(2) and P (I)O(2) measurements. Results: Our model predicted that when V(A)/Q < 0.4, a 1% change in P (I)O(2) results in >8% fluctuation in SaO(2) at 21 kPa P (I)O(2). In contrast, when a 20% intrapulmonary shunt was included in the model, a 1% change in P (I)O(2) results in <1% fluctuation in the SaO(2). Moreover, further reducing the V(A)/Q from 0.4 to 0.3 at 21 kPa P (I)O(2) resulted in a 24% fall in SaO(2). All 31 preterm infants [mean gestation (±standard deviation) 26.2 (±1) week] had V(A)/Q < 0.74 (normal >0.85) but only two infants had increased shunt at 1.1 (±0.5) weeks’ postnatal age. Median (IQR) SpO(2) fluctuation was 8 (7)%. The greatest SpO(2) fluctuations were seen in infants with V(A)/Q < 0.52 (n = 10): SpO(2) fluctuations ranged from 11%–17% at a constant P (I)O(2) when V(A)/Q < 0.52. Two infants had reduced V(A)/Q and increased shunt (21% and 27%) which resolved into low V(A)/Q after 3–6 h. Discussion: Routine monitoring of P (I)O(2) and SpO(2) can be used to derive a hitherto elusive measure of V(A)/Q. Predisposition to SpO(2) instability results from reduced V(A)/Q rather than increased intrapulmonary shunt in preterm infants with cardiorespiratory disease. SpO(2) instability can be prevented by a small increase in P (I)O(2).
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spelling pubmed-99416642023-02-22 Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio Stoecklin, Benjamin Choi, Y. Jane Dassios, Theodore Jones, J. Gareth Lockwood, Geoffrey G. Pillow, J. Jane Front Physiol Physiology Introduction: Instability of peripheral oxyhemoglobin saturation (SpO(2)) in preterm infants is correlated with late disability and is poorly understood. We hypothesised that a reduced ventilation to perfusion ratio (V(A)/Q) is the key predisposing factor for SpO(2) instability. Methods: We first used a mathematical model to compare the effects of reduced V(A)/Q or shunt on SaO(2) stability (SaO(2) and SpO(2) are used for model and clinical studies respectively). Stability was inferred from the slope of the SaO(2) vs. inspired oxygen pressure (P (I)O(2)) curve as it intersects the 21 kPa P (I)O(2) line (breathing air). Then, in a tertiary neonatal intensive care unit, paired hourly readings of SpO(2) and P (I)O(2) were recorded over a 24 h period in week old extremely preterm infants. We noted SpO(2) variability and used an algorithm to derive V(A)/Q and shunt from the paired SpO(2) and P (I)O(2) measurements. Results: Our model predicted that when V(A)/Q < 0.4, a 1% change in P (I)O(2) results in >8% fluctuation in SaO(2) at 21 kPa P (I)O(2). In contrast, when a 20% intrapulmonary shunt was included in the model, a 1% change in P (I)O(2) results in <1% fluctuation in the SaO(2). Moreover, further reducing the V(A)/Q from 0.4 to 0.3 at 21 kPa P (I)O(2) resulted in a 24% fall in SaO(2). All 31 preterm infants [mean gestation (±standard deviation) 26.2 (±1) week] had V(A)/Q < 0.74 (normal >0.85) but only two infants had increased shunt at 1.1 (±0.5) weeks’ postnatal age. Median (IQR) SpO(2) fluctuation was 8 (7)%. The greatest SpO(2) fluctuations were seen in infants with V(A)/Q < 0.52 (n = 10): SpO(2) fluctuations ranged from 11%–17% at a constant P (I)O(2) when V(A)/Q < 0.52. Two infants had reduced V(A)/Q and increased shunt (21% and 27%) which resolved into low V(A)/Q after 3–6 h. Discussion: Routine monitoring of P (I)O(2) and SpO(2) can be used to derive a hitherto elusive measure of V(A)/Q. Predisposition to SpO(2) instability results from reduced V(A)/Q rather than increased intrapulmonary shunt in preterm infants with cardiorespiratory disease. SpO(2) instability can be prevented by a small increase in P (I)O(2). Frontiers Media S.A. 2023-02-07 /pmc/articles/PMC9941664/ /pubmed/36824465 http://dx.doi.org/10.3389/fphys.2023.1112115 Text en Copyright © 2023 Stoecklin, Choi, Dassios, Jones, Lockwood and Pillow. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Physiology
Stoecklin, Benjamin
Choi, Y. Jane
Dassios, Theodore
Jones, J. Gareth
Lockwood, Geoffrey G.
Pillow, J. Jane
Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title_full Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title_fullStr Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title_full_unstemmed Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title_short Unstable SpO(2) in preterm infants: The key role of reduced ventilation to perfusion ratio
title_sort unstable spo(2) in preterm infants: the key role of reduced ventilation to perfusion ratio
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9941664/
https://www.ncbi.nlm.nih.gov/pubmed/36824465
http://dx.doi.org/10.3389/fphys.2023.1112115
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