Respiratory Instability and Hypoxemia Episodes in Preterm Infants

Eduardo Bancalari; Nelson Claure

doi:10.1055/s-0038-1637760

American Journal of Perinatology, Table of Contents

Am J Perinatol 2018; 35(06): 534-536
DOI: 10.1055/s-0038-1637760

Review Article

Thieme Medical Publishers 333 Seventh Avenue, New York, NY 10001, USA.

Respiratory Instability and Hypoxemia Episodes in Preterm Infants

Eduardo Bancalari

¹Division of Neonatology, Department of Pediatrics, University of Miami Medical School, Miami, Florida

,

Nelson Claure

¹Division of Neonatology, Department of Pediatrics, University of Miami Medical School, Miami, Florida

› Author Affiliations

Abstract

Oxygenation instability is a very common problem in the premature infant that manifests as intermittent hypoxemia episodes (HEs). These are particularly frequent in premature infants who are on mechanical ventilation beyond the first weeks after birth. However, they can also occur in spontaneously breathing infants. Some of these episodes are due to central apnea, but in ventilated infants, they are frequently due to contractions of the abdominal musculature that can splint the respiratory pump, resulting in periods of decreased lung volume and hypoventilation. HEs are often followed by periods of hyperoxemia that results from excessive oxygen supplementation given to correct the hypoxemia. These episodes increase in frequency with postnatal age and are more common in infants with chronic lung disease. Although the evidence is not conclusive, their detrimental effects on the infant's neurologic, ocular, and respiratory system may be significant. There is no specific treatment for HEs, but several interventions are available to ameliorate the severity and duration of the episodes. Further research is needed to define the impact of HEs on the preterm infant's developing central nervous system and other organ systems and to develop effective strategies to prevent these episodes.

Keywords

premature infants - episodes of hypoxemia - intermittent hypoxemia - hyperoxemia - supplemental oxygen

Full Text

References

References
1 Esquer C, Claure N, D'Ugard C, Wada Y, Bancalari E. Role of abdominal muscles activity on duration and severity of hypoxemia episodes in mechanically ventilated preterm infants. Neonatology 2007; 92 (03) 182-186
2 Dimaguila MA, Di Fiore JM, Martin RJ, Miller MJ. Characteristics of hypoxemic episodes in very low birth weight infants on ventilatory support. J Pediatr 1997; 130 (04) 577-583
3 Lehtonen L, Johnson MW, Bakdash T, Martin RJ, Miller MJ, Scher MS. Relation of sleep state to hypoxemic episodes in ventilated extremely-low-birth-weight infants. J Pediatr 2002; 141 (03) 363-368
4 McEvoy C, Mendoza ME, Bowling S, Hewlett V, Sardesai S, Durand M. Prone positioning decreases episodes of hypoxemia in extremely low birth weight infants (1000 grams or less) with chronic lung disease. J Pediatr 1997; 130 (02) 305-309
5 Esquer C, Claure N, D'Ugard C, Wada Y, Bancalari E. Mechanisms of hypoxemia episodes in spontaneously breathing preterm infants after mechanical ventilation. Neonatology 2008; 94 (02) 100-104
6 Firme SR, McEvoy CT, Alconcel C, Tanner J, Durand M. Episodes of hypoxemia during synchronized intermittent mandatory ventilation in ventilator-dependent very low birth weight infants. Pediatr Pulmonol 2005; 40 (01) 9-14
7 Jain D, Claure N, D'Ugard C, Bello J, Bancalari E. Volume guarantee ventilation: effect on preterm infants with frequent hypoxemia episodes. Neonatology 2016; 110 (02) 129-134
8 Claure N, Gerhardt T, Hummler H, Everett R, Bancalari E. Computer-controlled minute ventilation in preterm infants undergoing mechanical ventilation. J Pediatr 1997; 131 (06) 910-913
9 Hagadorn JI, Furey AM, Nghiem TH. , et al; AVIOx Study Group. Achieved versus intended pulse oximeter saturation in infants born less than 28 weeks' gestation: the AVIOx study. Pediatrics 2006; 118 (04) 1574-1582
10 van Zanten HA, Tan RN, Thio M. , et al. The risk for hyperoxaemia after apnoea, bradycardia and hypoxaemia in preterm infants. Arch Dis Child Fetal Neonatal Ed 2014; 99 (04) F269-F273
11 McEvoy C, Durand M, Hewlett V. Episodes of spontaneous desaturations in infants with chronic lung disease at two different levels of oxygenation. Pediatr Pulmonol 1993; 15 (03) 140-144
12 Di Fiore JM, Walsh M, Wrage L. , et al; SUPPORT Study Group of Eunice Kennedy Shriver National Institute of Child Health and Human Development Neonatal Research Network. Low oxygen saturation target range is associated with increased incidence of intermittent hypoxemia. J Pediatr 2012; 161 (06) 1047-1052
13 Sink DW, Hope SA, Hagadorn JI. Nurse:patient ratio and achievement of oxygen saturation goals in premature infants. Arch Dis Child Fetal Neonatal Ed 2011; 96 (02) F93-F98
14 Ford SP, Leick-Rude MK, Meinert KA. , et al. Overcoming barriers to oxygen saturation targeting. Pediatrics 2006; 118 (Suppl. 02) S177-S186
15 Claure N, Bancalari E. Closed-loop control of inspired oxygen in premature infants. Semin Fetal Neonatal Med 2015; 20 (03) 198-204
16 Schmid MB, Hopfner RJ, Lenhof S, Hummler HD, Fuchs H. Cerebral oxygenation during intermittent hypoxemia and bradycardia in preterm infants. Neonatology 2015; 107 (02) 137-146
17 Ratner V, Kishkurno SV, Slinko SK. , et al. The contribution of intermittent hypoxemia to late neurological handicap in mice with hyperoxia-induced lung injury. Neonatology 2007; 92 (01) 50-58
18 Gozal D, Reeves SR, Row BW, Neville JJ, Guo SZ, Lipton AJ. Respiratory effects of gestational intermittent hypoxia in the developing rat. Am J Respir Crit Care Med 2003; 167 (11) 1540-1547
19 Garg M, Kurzner SI, Bautista D, Keens TG. Hypoxic arousal responses in infants with bronchopulmonary dysplasia. Pediatrics 1988; 82 (01) 59-63
20 Poets CF, Roberts RS, Schmidt B. , et al; Canadian Oxygen Trial Investigators. Association between intermittent hypoxemia or bradycardia and late death or disability in extremely preterm infants. JAMA 2015; 314 (06) 595-603
21 Di Fiore JM, Kaffashi F, Loparo K. , et al. The relationship between patterns of intermittent hypoxia and retinopathy of prematurity in preterm infants. Pediatr Res 2012; 72 (06) 606-612
22 Unger M, Atkins M, Briscoe WA, King TK. Potentiation of pulmonary vasoconstrictor response with repeated intermittent hypoxia. J Appl Physiol 1977; 43 (04) 662-667
23 Ratner V, Slinko S, Utkina-Sosunova I, Starkov A, Polin RA, Ten VS. Hypoxic stress exacerbates hyperoxia-induced lung injury in a neonatal mouse model of bronchopulmonary dysplasia. Neonatology 2009; 95 (04) 299-305