Delivery Room Risk Factors for Meconium Aspiration Syndrome

William F. Liu; Thomas Harrington

doi:10.1055/s-2002-35611

American Journal of Perinatology, Table of Contents

Am J Perinatol 2002; 19(7): 367-378
DOI: 10.1055/s-2002-35611

Delivery Room Risk Factors for Meconium Aspiration Syndrome

William F. Liu¹ , Thomas Harrington²

¹Associates in Neonatology, HealthPark Medical Center, The Childrens Hospital of Southwest Florida, Lee Memorial Health Systems, Fort Myers, Florida
²Decision Sciences, Florida Gulf Coast University, Fort Myers, Florida

Abstract

ABSTRACT

The objective of this study is to identify risk factors for meconium aspiration syndrome (MAS) in newborns born through meconium-stained amniotic fluid (MSAF). From May 27, 1994 to June 9, 1997 maternal and neonatal data were prospectively collected on all infants born through MSAF. Development of MAS was the primary outcome. Using bivariate and logistic regression analysis we identified risk factors for MAS. There were 8967 births during this period: 7.9% (708 of 8967) were delivered through MSAF. Respiratory symptoms developed in 6.8% (48 of 708) of births. Of these, 50% (24 of 48) were excluded due to the diagnosis of transient tachypnea of the newborn (17), respiratory distress syndrome (4), group B streptococcus pneumonia (1), congenital cytomegalic inclusion disease (1), and supraventricular tachycardia (1). Of the 24 infants with respiratory symptoms consistent with MAS, 45.8% (11 of 24) required ventilatory support, one required extracorporeal-membrane oxygenation. Bivariate analysis identified six risk factors (p <0.05): Apgar <7 at 1 minute, Apgar <7 at 5 minutes, thick meconium, fetal distress, suction of infant's stomach by delivery room team at <5 minutes of age, and need for resuscitation. Tracheal meconium was very prevalent in our population at 74% of all intubated infants, and was not significantly associated with MAS. Logistic regression analysis identified four independent risk factors. Looking at multiple prediction models, an infant with fetal distress, Apgar <7 at 1 and 5 minutes and thick meconium has a 79.8% probability of developing respiratory symptoms. If these risk factors are not present, there is a 0.8% risk. In our cohort, this group had 16.7% positive predictive value (4 of 24) and 99.6% negative predictive value (657 of 660). In meconium deliveries, infants with thick meconium, fetal distress, and Apgar scores <7 at 1 and 5 minutes are at high risk for development of respiratory symptoms. Infants delivered in the absence of all of these risk factors are at low risk for development of MAS.

KEYWORDS

Meconium aspiration syndrome - tracheal meconium - delivery room - meconium-stained amniotic fluid - newborn infant

Full Text

References

REFERENCES

1 Fanaroff A A, Martin R J. Neonatal-Perinatal Medicine: Disease of the Fetus and Infant. 5th ed. St. Louis: Mosby Year Book 1992: 834-837
2 Desmond M M, Moore J, Lindley J E. Meconium staining of the amniotic fluid: a marker of fetal hypoxia. Obstet Gyencol . 1957; 9 91-103
3 Meis P J, Hall M, Marshall J R, Hobel C J. Meconium passage: a new classification for risk assessment during labor. Am J Obstet Gynecol. . 1978; 131 509-513
4 Starks G C. Correlation of meconium-stained amniotic fluid, early inrapartum fetal pH, and Apgar scores as predictors of perinatal outcome. Obstet Gynecol . 1980; 56 604-609
5 Dawes G S, Fox H E. Respiratory movements and rapid eye movement sleep in the foetal lamb. J Physiol . 1972; 220 119-143
6 Miller F C, Sacks D A, Yeh Y Y. Significance of meconium during labor. Am J Obstet Gynecol . 1975; 122 573-580
7 Mitchell J, Schulman H, Feischer A, Farmakides G, Nadeon D. Meconium aspiration and fetal acidosis. Obstet Gynecol . 1985; 65 352-355
8 Rossi E M, Philipson E H, Williams T G, Kalhan S C. Meconium aspiration syndrome: intrapartum and neonatal attributes. Am J Obstet Gynecol . 1989; 161 1106-1110
9 Dooley S L, Pesavento D J, Depp R, Scol M J, Tarmura R K, Wiringa K S. Meconium below the vocal cords at delivery: correlation with intrapartum events. Am J Obstet Gynecol . 1985; 153 767-770
10 Murphy J D, Vawter G F, Reid L M. Pulmonary vascular disease in fatal meconium aspiration. J Pediatr . 1984; 104 758-762
11 Falciglia H S. Failure to prevent meconium aspiration syndrome. Obstet Gynecol . 1988; 71 349-353
12 Katz V L, Bowes W A. Meconium aspiration syndrome: reflections on a murky subject. Am J Obstet Gynecol . 1992; 166 171-183
13 Liu W F, Harrington T. The need for delivery room intubation of thin meconium in the low risk newborn: a clinical trial. Am J Perinatol . 1998; 15 675-682
14 Wiswell T E, Tuggle J M, Turner B S. Meconium aspiration syndrome: have we made a difference?. Pediatrics . 1990; 85 715-721
15 Wiswell T E, Gannon C M, Jacob J. Delivery room management of the apparently vigorous meconium-stained neonate: results of the multicenter, international collaborative trial. Pediatrics . 2000; 105 1-7
16 Carson B S, Losey R W, Bowes W A, Simmons M A. Combined obstetric and pediatric approach to prevent meconium aspiration syndrome. Obstet Gynecol . 1976; 126 712-715
17 Yeh T F, Harris V, Srinivasan G. Roentgenographic findings in infants with meconium aspiration syndrome. JAMA . 1979; 242 60-63
18 Hageman J R, Conley M, Francis K. Delivery room management of meconium staining of the amniotic fluid and the development of meconium aspiration syndrome. J Perinatol . 1988; 8 127-131
19 Yoder B A. Predicting meconium aspiration syndrome in the delivery suite. Pediatrics . 1997; 100 504-505
20 Gregory G A, Gooding C A, Phibbs R H. Meconium aspiration in infants: a prospective study. J Pediatr . 1974; 85 848-852
21 Usher R H, Boyd M E, McLean F H, Kramer M S. Assessment of fetal risk in postdate pregnancies. Am J Obstet Gynecol . 1988; 158 259-264
22 Falciglia H S, Henderschott C, Potter P, Helmchen R. Does DeLee suction at the perineum prevent meconium aspiration sydrome?. Am J Obstet Gynecol . 1992; 167 1243-1249
23 Peng T C, Gutcher G R, Van Dorsten P J. A selective aggressive approach to the neonate exposed to meconium-stained amniotic fluid. Am J Obstet Gynecol . 1996; 175 296-303
24 Yoder B A. Meconium-stained amniotic fluid and respiratory complications: impact of selective tracheal suction. Obstet Gynecol . 1994; 83 77-84
25 Usta I M, Mercer B M, Sibai B M. Risk factors for meconium aspiration syndrome. Obstet Gynecol . 1995; 86 230-234
26 Hernandez C, Little B B, Dax J S, Gilstrap L C, Rosenfeld C R. Prediction of the severity of MAS. Am J Obstet Gynecol . 1993; 169 61-70
27 Ting P, Brady J P. Tracheal suction in meconium aspiration. Am J Obstet Gynecol . 1975; 122 767-771
28 Gooding C A, Gregory G A, Tabor P, Wright R R. An experimental model for the study of meconium aspiration of the newborn. Radiology . 1971; 100 137-140
29 Davis R O, Phillips J B, Harris B A. Fatal meconium aspiration syndrome occurring despite airway management considered appropriate. Am J Obstet Gynecol . 1985; 151 731-736
30 Burke-Strickland M, Edwards N B. Meconium aspiration in the newborn. Minn Med . 1973; 56 1031-1035
31 Brown B L, Gleicher N. Intrauterine meconium aspiration. Obstet Gynecol . 1981; 57 26-29
32 Cunningham A S, Lawson E E, Martin R J, Pildes R S. Tracheal suction and meconium: a proposed standard of care. J Pediatr . 1988; 112 613-615
33 Benny P S, Malani S, Hoby M A, Hutton J D. Meconium aspiration: role of obstetric factors and suction. Aust N Z J Obstet Gynaecol . 1987; 27 36-39
34 Urbanik K J, McCowan L M, Townend K M. Risk factors for meconium aspiration syndrome. Aust N Z J Obstet Gynecol . 1996; 36 401-406
35 Gupta V, Bhatia B D, Mishra O P. Meconium stained amniotic fluid: antenatal, intrapartum and neonatal attributes. Indian Pediatr . 1996; 33 293-297
36 Berkus M D, Langer O, Samueloff A. Meconium-stained amniotic fluid: increased risk for adverse neonatal outcome. Obstet Gynecol . 1994; 84 115-120
37 Linder N, Aranda J V, Tsur M. Need for endotracheal intubation and suction in meconium-stained neonates. J Pediatr . 1988; 112 613-615
38 Vidyasagar D, Harris V, Pildes R S. Assisted ventilation in infants with meconium aspiration syndrome. Pediatrics . 1975; 56 208-213
39 Karatekin G, Kesim M, Nuhoglu A. Risk factors for meconium aspiration syndrome. Int J Gynecol Obstet . 1999; 65 295-297
40 Liu W F, Borden D, Harrington T. Delivery room risk factors for development of meconium-related respiratory distress. Pediatr Res . 2000; 47 413A
41 Rossi C, Fernanda M, Almeida B. Delivery room management of meconium stained neonates: risk factors for meconium aspiration syndrome. Pediatr Res . 2000; 47 430A
42 Locus P, Yeomans E, Crosby U. Efficacy of bulb versus DeLee suction at deliveries complicated by meconium stained amniotic fluid. Am J Perinatol . 1990; 7 87-91
43 Wiswell T E, Henley M A. Intratracheal suctioning, systemic infection, and the MAS. Pediatrics . 1992; 89 203-206