A model investigation of the impact of ventilation-perfusion mismatch on oxygenation during apnea in preterm infants |
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Authors: | Scott A Sands Vanessa J Kelly Malcolm H Wilkinson |
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Institution: | a Ritchie Centre for Baby Health Research, Monash Institute of Medical Research, Monash University, Victoria, Australia b Harvard Medical School and Division of Sleep Medicine, Brigham and Women's Hospital, Boston, MA, USA c Department of Chemical and Biomolecular Engineering, Faculty of Engineering, University of Melbourne, Victoria, Australia |
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Abstract: | Ventilation-perfusion (V/Q) mismatch is a prominent feature of preterm infants and adults with lung disease. V/Q mismatch is known to cause arterial hypoxemia under steady-state conditions, and has been proposed as the cause of rapid arterial oxygen desaturation during apnea. However, there is little evidence to support a role for V/Q mismatch in the dynamic changes in arterial oxygenation that occur during apnea. Using a mathematical model, we quantified the effect of V/Q mismatch on the rate of desaturation during apnea to ascertain whether it could lead to rates of up to 10% s-1 as observed in preterm infants. We used a lung-body model for the preterm infant that incorporated 50 parallel alveolar-capillary units that were ventilated and perfused with the severity of V/Q mismatch (σ) defined conventionally according to σ=S.D. of the distribution of V/Q ratios. Average desaturation rate 10 s from apnea onset was strongly elevated with worsening V/Q mismatch as a result of an earlier desaturation of low V/Q units compared with high V/Q units. However, V/Q mismatch had little impact after apnea onset, with peak desaturation rate only substantially increased if mismatching caused a lowered resting arterial O2 saturation. In conclusion, V/Q mismatch causes a more immediate onset of desaturation during apnea, and therefore places preterm infants and adults with lung disease at risk of hypoxemic dips. However, V/Q mismatch does not accelerate desaturation rate beyond apnea onset and cannot, therefore, explain the rapid desaturation observed during recurrent apnea in preterm infants. |
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Keywords: | Gas exchange Desaturation Mathematical model Hypoxemia Sleep disordered breathing |
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