Meningitis in Preterm Neonates: Importance of Cerebrospinal Fluid Parameters

P. Brian Smith; Harmony P. Garges; C. Michael Cotton; Thomas J. Walsh; Reese H. Clark; Daniel K. Benjamin

doi:10.1055/s-0028-1083839

American Journal of Perinatology, Table of Contents

Am J Perinatol 2008; 25(7): 421-426
DOI: 10.1055/s-0028-1083839

Meningitis in Preterm Neonates: Importance of Cerebrospinal Fluid Parameters

P. Brian Smith¹ ^, ² , Harmony P. Garges¹ , C. Michael Cotton¹ , Thomas J. Walsh³ , Reese H. Clark⁴ , Daniel K. Benjamin¹ ^, ² Jr.

¹Department of Pediatrics, Duke University, Durham, North Carolina
²Duke University Clinical Research Institute, Durham, North Carolina
³Immunocompromised Host Section, Pediatric Oncology Branch, National Cancer Institute, Bethesda, Maryland
⁴Pediatrix-Obstetrix Center for Research and Education, Sunrise, Florida

Abstract

ABSTRACT

Cerebrospinal fluid parameters are of great importance in diagnosing meningitis, but normal values for preterm neonates are based on small, single-center studies. We sought to determine current values for preterm neonate cerebrospinal fluid parameters and assess the association of cerebrospinal fluid parameters with culture proven meningitis. We performed a cohort study of the first lumbar puncture from 4632 neonates < 34 weeks' gestation performed in the years 1997 to 2004 at 150 neonatal intensive care units managed by the Pediatrix Medical Group. We identified 95 cases of meningitis from the 4632 lumbar punctures. The area under the receiver operating characteristic curves for white blood cell count, glucose, and protein were 0.80, 0.63, and 0.72, respectively, for prediction of culture-proven meningitis. Cerebrospinal fluid parameters used to diagnose meningitis in the absence of dependable cerebrospinal fluid cultures are unreliable. Caution should be employed when interpreting cerebrospinal fluid parameters in the premature neonate.

KEYWORDS

Nosocomial infections - central nervous system - diagnosis - preterm

Full Text

References

REFERENCES

1 Overall Jr J C. Neonatal bacterial meningitis: analysis of predisposing factors and outcome compared with matched control subjects. J Pediatr. 1970; 76 499-511
2 Stoll B J, Hansen N I, Adams-Chapman I et al.. Neurodevelopmental and growth impairment among extremely low-birth-weight infants with neonatal infection. JAMA. 2004; 292 2357-2365
3 Rodriguez A F, Kaplan S L, Mason Jr E O. Cerebrospinal fluid values in the very low birth weight infant. J Pediatr. 1990; 116 971-974
4 Sarff L D, Platt L H, McCracken Jr G H. Cerebrospinal fluid evaluation in neonates: comparison of high-risk infants with and without meningitis. J Pediatr. 1976; 88 473-477
5 Otila E. Studies on the cerebrospinal fluid in premature infants. Acta Paediatrica. 1948; 7-99
6 Gyllensward A, Malmstrom S. The cerebrospinal fluid in immature infants. Acta Paediatr Suppl. 1962; 135 54-62
7 Wolf H, Hoepffner L. The cerebrospinal fluid in the newborn and premature infant. World Neurol. 1961; 2 871-878
8 Samson K. Die liquordiagnostik im kindesalter. Ergeb Inn Med Kinderheilkd. 1931; 551-778
9 Feigin R D, McCracken Jr G H, Klein J O. Diagnosis and management of meningitis. Pediatr Infect Dis J. 1992; 11 785-814
10 Schwersenski J, McIntyre L, Bauer C R. Lumbar puncture frequency and cerebrospinal fluid analysis in the neonate. Am J Dis Child. 1991; 145 54-58
11 Stoll B J, Hansen N, Fanaroff A A et al.. To tap or not to tap: high likelihood of meningitis without sepsis among very low birth weight infants. Pediatrics. 2004; 113 1181-1186
12 Fielkow S, Reuter S, Gotoff S P. Cerebrospinal fluid examination in symptom-free infants with risk factors for infection. J Pediatr. 1991; 119 971-973
13 Wiswell T E, Baumgart S, Gannon C M, Spitzer A R. No lumbar puncture in the evaluation for early neonatal sepsis: will meningitis be missed?. Pediatrics. 1995; 95 803-806
14 Weiss M G, Ionides S P, Anderson C L. Meningitis in premature infants with respiratory distress: role of admission lumbar puncture. J Pediatr. 1991; 119 973-975
15 Robertson J, Shilkofski N. The Harriet Lane Handbook. 17th ed. Philadelphia; Mosby 2005: 557
16 Pappu L D, Purohit D M, Leukoff A H, Kaplan B. CSF cytology in the neonate. Am J Dis Child. 1982; 136 297-298
17 Garges H P, Moody M A, Cotten C M, Smith P B et al.. Neonatal meningitis: what is the correlation among cerebrospinal fluid cultures, blood cultures, and cerebrospinal fluid parameters?. Pediatrics. 2006; 117 1094-1100
18 Katz S L, Gershon A A, Hotez P J. Krugman's Infectious Diseases of Children. 10th ed. St. Louis; Mosby 1998: 769-770
19 McMillan J A et al.. Oski's Pediatrics. 3rd ed. Philadelphia; Lippincott Williams and Wilkins 1999: 414-420
20 Fanaroff A A, Martin R J. Neonatal-Perinatal Medicine Diseases of the Fetus and Newborn. 7th ed. Vol. 2. St. Louis; Mosby 2002: 719-720
21 Harvey D, Holt D E, Bedford H. Bacterial meningitis in the newborn: a prospective study of mortality and morbidity. Semin Perinatol. 1999; 23 218-225
22 Stoll B J, Hansen N, Fanaroff A A, Wright L L et al.. Changes in pathogens causing early-onset sepsis in very-low-birth-weight infants. N Engl J Med. 2002; 347 240-247
23 Stoll B J, Hansen N, Fanaroff A A, Wright L L et al.. Late-onset sepsis in very low birth weight neonates: the experience of the NICHD Neonatal Research Network. Pediatrics. 2002; 110 285-291

P. Brian SmithM.D. M.S.

PO Box 3179, Duke University Medical Center

Durham, NC 27710

Email: brian.smith@duke.edu