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Journal of Clinical Microbiology, July 2003, p. 3433-3435, Vol. 41, No. 7
0095-1137/03/$08.00+0     DOI: 10.1128/JCM.41.7.3433-3435.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

CASE REPORT

Neonatal Sepsis Caused by Streptococcus bovis Variant (Biotype II/2): Report of a Case and Review

Patrick J. Gavin,^1,2,3* Richard B. Thomson, Jr.,^2,3 Show-Jen Horng,² and Ram Yogev^1,3

Division of Infectious Diseases, Children's Memorial Hospitalthe,¹ Feinberg School of Medicine, Northwestern University, Chicago, and the,³ Department of Pathology and Laboratory Medicine, Evanston Northwestern Healthcare, Evanston, Illinois²

Received 23 December 2002/ Returned for modification 16 February 2003/ Accepted 17 March 2003

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Streptococcus bovis is an uncommon cause of infection in neonates. However, S. bovis is capable of causing fulminant neonatal sepsis or meningitis that is indistinguishable clinically from that caused by group B streptococcus. S. bovis and S. bovis variant (sometimes referred to as S. bovis biotypes I and II, respectively) are phenotypically similar but may be differentiated by expanded testing. In adults, specific associations between disease states and different biotypes of S. bovis are apparent. No data exist on possible differences or clinical relevance of neonatal infection caused by different biotypes or newer species of S. bovis. We report a 3-day-old neonate with bacteremia and meningitis caused by S. bovis variant (S. bovis biotype II/2) and review the literature.

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A 3-day-old baby boy presented with fever, inconsolable irritability, and decreased oral intake and urine output. He was born at term, weighing 3,925 g, to a 41-year-old primigravida mother. Maternal prenatal culture was negative for group B streptococcus. Pregnancy was complicated by preeclampsia, but labor was uneventful, without prolonged rupture of membranes or maternal fever. At birth, the baby was cyanotic with a pulse of 100/min but responded quickly to suctioning and bag and mask ventilation (Apgar scores, 3¹, 8⁵, and 9¹⁰). The initial blood glucose level of 17 mg/dl responded to intravenous glucose infusion. No antibiotics were given. Thereafter, blood glucose measurements remained normal. He was changed to bottle feeding after 6 h and discharged home after 48 h of observation.

Examination on readmission, 8 h later, revealed a fever of 103°C, heart rate of 198/min, respiration rate of 60/min, and a tense anterior fontanelle. Seizure-like episodes consisting of stiffening, crying, and staring were noted. The remainder of the examination was normal, without evidence of congenital anatomic anomaly. Specimens for laboratory studies and blood cultures were collected, and therapy with intravenous ampicillin (50 mg/kg of body weight every 6 h) and ceftriaxone (50 mg/kg every 12 h) was started. The baby's condition improved, and 1.5 h later cerebrospinal fluid (CSF) was obtained by lumbar spinal tap and additional blood was collected for culture.

Laboratory studies showed the following: hemoglobin, 13.2 g/dl; white blood cells, 3,400/µl (neutrophils, 21%; bands, 41%; lymphocytes, 36%); platelets, 201,000/µl; and blood glucose, 67 mg/dl. CSF was turbid with white blood cells at 2,100/µl (neutrophils, 80%; bands, 10%; lymphocytes, 10%), red blood cells at 3,150/µl, glucose at 4 mg/dl, and protein at 600 mg/dl. Gram staining of CSF revealed gram-positive cocci in pairs and short chains. Ceftriaxone was discontinued, and intravenous gentamicin (2.5 mg/kg every 12 h) was added (ampicillin was continued). Initial blood and CSF cultures were positive for alpha-hemolytic streptococci, identified tentatively as viridans streptococcus group. Isolates from blood and CSF cultures were susceptible to penicillin (MIC, <0.06 µg/ml). Gentamicin and ampicillin were discontinued, and treatment was continued with intravenous penicillin G (50,000 U/kg every 8 h). The second blood culture, performed at the time of the spinal tap and after the first dose of antibiotics, was negative. The baby defervesced after 24 h and remained seizure-free thereafter. He continued to improve throughout his hospital stay and was discharged home after completing a 14-day course of intravenous penicillin G.

The first blood culture demonstrated gram-positive cocci in pairs and short chains after 12 h of incubation in broth at 37°C (Bactec 9240; Becton Dickinson, Baltimore, Md.). Subsequent subculture on 5% sheep blood and chocolate agars incubated at 35°C demonstrated alpha-hemolytic colonies with a distinct caramel-like odor. Culture of CSF was similarly positive after 36 h of incubation. The isolates were negative for catalase and pyrrolidonyl arylaminidase; showed no zone of inhibition around a 5-µg-optochin disk; did not produce acid from sorbitol, arabinose, or sorbose; were unable to hydrolyze arginine; failed to grow in heart infusion broth containing 6.5% NaCl; and were weakly bile esculin positive (darkening of slant only, not butt of medium) after overnight incubation. A tentative identification of viridans group streptococcus was made.

Subsequently, blood and CSF isolates were identified as Streptococcus bovis variant (biotype II) by RapID STR system (Remel, Lenexa, Kans.) (code number 22321) and Vitek 2 (bioMérieux Vitek, Inc., Hazelwood, Mo.) and as biotype II/2 by API 20 Strep (bioMérieux SA, Marcy l'Etoile, France) (code number 5650450). Cellular fatty acid analysis (MIDI Inc., Newark, Del.) provided additional confirmation of the identification as S. bovis variant (21). Subsequently, expanded biochemical testing was also indicative of S. bovis variant. Specifically, blood and CSF isolates failed to hydrolyze starch or produce acid from mannitol (9, 21).

Antimicrobial susceptibility testing was performed by a broth microdilution method (NCCLS standard M7-A5, 35°C). The 24-h MICs were as follows: penicillin, 0.06 µg/ml; ceftriaxone, 0.12 µg/ml; clindamycin, 0.06 µg/ml; erythromycin, >1 µg/ml; and vancomycin, 0.5 µg/ml.

Review. Among group D streptococci, enterococci are well recognized as causes of neonatal sepsis and meningitis (24). In contrast, S. bovis is considered an uncommon cause of neonatal infection (14, 24). However, the frequency of infection may be an underestimate because many clinical S. bovis isolates may have been misidentified previously as enterococci or viridans group streptococci (9). Definitive identification of these streptococci requires an expanded battery of physiological tests (8, 9, 21). In addition, S. bovis (biotype I) is differentiated physiologically from S. bovis variant (biotype II) by the ability of the former to hydrolyze starch and ferment mannitol (9, 21). S. bovis variant (biotype II) is further divided into type II/1 and type II/2 by the API 20 Strep system (bioMérieux SA).

Reports of neonatal infection caused by S. bovis group strains are summarized in Table 1. Full- and preterm neonates were equally represented among the cases. Neonatal S. bovis infection demonstrates a clinical presentation similar to that of neonatal group B streptococcus infection. In cases of early-onset (within the first week of life) S. bovis infection in neonates, bacteremia is the most common clinical manifestation (18 of 25 cases, 72%), whereas meningitis is less common (5 of 25 cases, 20%) and of late onset. Specifically, the majority of neonates (15 of 18, 83%) with bacteremia caused by S. bovis presented with acute onset of respiratory distress and/or sepsis within the first 5 days of life. In contrast, four of five neonates (80%) with meningitis presented beyond the first week of life (mean, 28 days; range, 9 to 49 days). Two additional cases of apparent urinary sepsis caused by S. bovis presented early (24). S. bovis neonatal infection appears to be associated with a relatively good prognosis: 14 of the 18 (78%) patients for which prognosis is recorded survived (one of whom had "a severely complicated course and a very poor prognosis").

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TABLE 1. Cases of neonatal infection caused by S. bovisa

Enterococcal group D streptococci and viridans group streptococci, such as S. milleri group and nonhemolytic strains of S. salivarius, may have similar phenotypic characteristics as do strains of S. bovis (8, 21, 22). Accurate identification of S. bovis as a cause of neonatal infection has important implications for treatment. Penicillin G alone is considered sufficient treatment for neonatal infections caused by S. bovis, whereas vancomycin or the addition of an aminoglycoside may be necessary for neonatal infections caused by enterococcal and some viridans streptococcal species (2). Although rare isolates of S. bovis have demonstrated resistance to penicillin, the vast majority of clinical isolates remain exquisitely sensitive (23).

New molecular techniques have clarified taxonomy of what was termed S. bovis, separating it into five different species (S. bovis-S. equinus, S. gallolyticus, S. infantarius, S. pasteurianus, and S. lutetiensis) (7). However, most clinical laboratories do not accurately identify members of the S. bovis group and have yet to adopt the new nomenclature, which is confusing and still subject to debate. As a result, most clinicians remain unfamiliar with biotypes or newer S. bovis species, and clinical correlates are uncommon. According to current terminology, strains formerly termed S. bovis (biotype I) and S. bovis variant (biotype II/2) are now named S. gallolyticus and S. pasteurianus, respectively, while the former S. bovis variant (biotype II/1) is now named S. infantarius (7). The S. bovis variant (biotype II/2) isolates from the present case translate into correct terminology as S. pasteurianus.

In adults, the association of S. bovis bacteremia with malignancies of the gastrointestinal tract is well documented (18). More recently, clinically relevant differences were demonstrated in the association of specific biotypes of S. bovis with colonic neoplasia and bacterial endocarditis (16, 22). Specifically, 71 and 94% of adults with bacteremia caused by S. bovis (biotype I) had underlying colonic neoplasia or bacterial endocarditis, respectively (22). In contrast, only 17 and 18% of patients with bacteremia caused by S. bovis variant (biotype II) had these diseases, respectively (22). In addition, of the two biotypes, S. bovis (biotype I) was found in 11 of 12 (92%) cases of S. bovis endocarditis (16). Ruoff et al. proposed that the striking association of S. bovis (biotype I) with both underlying colonic neoplasia and bacterial endocarditis compared with S. bovis variant (biotype II) suggests different specific bacterium-host cell interactions between biotypes (22).

In the majority of reports of S. bovis infection in neonates, detailed identification and biotyping of clinical isolates were not reported. However, in the nine cases of neonatal S. bovis infection that reported biotyping, all were caused by S. bovis biotype II (5, 13, 19; this work) (Table 1).

Similarly, where further biotyping was performed for two neonates with meningitis, both were caused by S. bovis variant (biotype II/2) (5; this work). In addition, in adults with meningitis caused by S. bovis, where biotyping was recorded, three of four were caused by S. bovis variant (biotype II/2) (6, 10). Thus, just as differentiation of S. bovis from other streptococci is of therapeutic importance, more accurate differentiation of S. bovis biotypes may be clinically relevant. Specifically, whereas S. bovis (biotype I) bacteremia, in adults, is more closely associated with endocarditis or colonic neoplasia, it appears that S. bovis variant (particularly biotype II/2) may be more closely associated with meningitis or neonatal infection. Potential mechanisms may include a specific virulence trait of the organism, increased host susceptibility, and differences in portal of entry or maternal colonization. Further studies are required to verify this apparent association.

S. bovis (biotype I) is differentiated physiologically from S. bovis variant (biotype II) by its ability to hydrolyze starch and ferment mannitol (9, 20, 21). S. bovis variant (biotype II) is further divided into type II/1 and type II/2 based on phenotypic testing in the Rapid Strep system. Increased use of extended physiologic testing or automated bacterial identification systems and kits by the clinical laboratory results in improved diagnostic certainty and may provide useful clinical correlation and a better understanding of pathogenicity. We speculate that, as in adult infections, isolation of specific biotypes or newer species of S. bovis may be of clinical and pathophysiologic relevance in neonatal infections. We conclude that more accurate identification and differentiation of biotypes or newer species of S. bovis should be more widely applied.

 
* Corresponding author. Mailing address: Department of Pathology and Laboratory Medicine, Evanston Northwestern Healthcare, 2650 Ridge Ave., Room 1936, Evanston, IL 60201. Phone: (847) 570-2744. Fax: (847) 733-5314. E-mail: pgavin{at}enh.org.

Top Abstract Case report References

 

1
1. Alexander, J. B., and G. P. Giacoia. 1978. Early onset nonenterococcal group D streptococcal infection in the newborn infant. J. Pediatr. 93:489-490.[Medline]
2
2. American Academy of Pediatrics. 2000. Non-group A or B streptococcal and enterococcal infections, p. 544-545. In L. K. Pickering (ed.), 2000 red book: report of the Committee on Infectious Diseases, 25th ed. American Academy of Pediatrics, Elk Grove Village, Ill.
3
3. Bavikatte, K., R. L. Schreiner, J. A. Lemons, and E. L. Gresham. 1979. Group D streptococcal septicemia in the neonate. Am. J. Dis. Child. 133:493-496.[Abstract/Free Full Text]
4
4. Buchino, J. J., E. Ciambarella, and I. Light. 1979. Systemic group D streptococcal infection in newborn infants. Am. J. Dis. Child. 133:270-273.[Abstract/Free Full Text]
5
5. Cheung, M., M. Pelot, R. Nadarajah, and S. Kohl. 2000. Neonate with late onset Streptococcus bovis meningitis: case report and review of the literature. Pediatr. Infect. Dis. J. 19:891-892.[CrossRef][Medline]
6
6. Clarridge, J. E., S. M. Attorri, Q. Zhang, and J. Bartell. 2001. 16S ribosomal DNA sequence analysis distinguishes biotypes of Streptococcus bovis: Streptococcus bovis biotype II/2 is a separate genospecies and the predominant clinical isolate in adult males. J. Clin. Microbiol. 39:1549-1552.[Abstract/Free Full Text]
7
7. Facklam, R. 2002. What happened to the streptococci: overview of taxonomic and nomenclature changes. J. Clin. Microbiol. 15:613-630.
8
8. Facklam, R. R. 1977. Physiological differentiation of viridans streptococci. J. Clin. Microbiol. 5:184-201.[Abstract/Free Full Text]
9
9. Facklam, R. R. 1972. Recognition of group D streptococcal species of human origin by biochemical and physiological tests. Appl. Microbiol. 23:1131-1139.[Medline]
10
10. Ferrer, F., J. J. V. Padilla, R. I. Adell, and J. F. Ginestar. 1993. Streptococcus bovis meningitis: no association with colonic malignancy. Clin. Infect. Dis. 17:527-528.[Medline]
11
11. Figura, N., and C. Mattei. 1982. Neonatal Streptococcus bovis (non-enterococcal group D streptococcus) septicemia and meningitis. Report of a case. Ann. Sclavo 24:440-442.
12
12. Fikar, C. R., and J. Levy. 1979. Streptococcus bovis meningitis in a neonate. Am. J. Dis. Child. 133:1149-1150.[Abstract/Free Full Text]
13
13. Grant, R. J., T. R. Whitehead, and J. E. Orr. 2000. Streptococcus bovis meningitis in an infant. J. Clin. Microbiol. 38:462-463.[Abstract/Free Full Text]
14
14. Haslam, D. B., and J. W. St. Geme. 2003. Viridans streptococci, Streptococcus bovis, and Abiotrophia species, p. 734-737. In S. S. Long, L. K. Pickering, and C. G. Prober (ed.), Principles and practice of pediatric infectious diseases, 2nd ed. Churchill Livingstone, Philadelphia, Pa.
15
15. Headings, D. L., A. Herrera, E. Mazzi, and M. A. Bergman. 1978. Fulminant neonatal septicemia caused by Streptococcus bovis. J. Pediatr. 92:282-283.[CrossRef][Medline]
16
16. Herrero, I. A., M. S. Rouse, K. E. Piper, S. A. Alyaseen, J. M. Steckelberg, and R. Patel. 2002. Reevaluation of Streptococcus bovis endocarditis cases from 1975 to 1985 by 16S ribosomal DNA sequence analysis. J. Clin. Microbiol. 40:3848-3850.[Abstract/Free Full Text]
17
17. Murillo, J. L., J. A. Titelbaum, and J. Martinez. 1981. Infant with Streptococcus bovis meningitis. J. Med. Soc. N. J. 78:598-599.[Medline]
18
18. Murray, H. W., and R. B. Roberts. 1978. Streptococcus bovis bacteremia and underlying gastrointestinal disease. Arch. Intern. Med. 138:1097-1099.[Abstract/Free Full Text]
19
19. Parker, M. T. 1977. Neonatal streptococcal infections. Postgrad. Med. J. 53:598-606.[Abstract/Free Full Text]
20
20. Parker, M. T., and L. C. Ball. 1976. Streptococci and aerococci associated with systemic infection in man. J. Med. Microbiol. 9:275-302.[Abstract/Free Full Text]
21
21. Ruoff, K. L., M. J. Ferraro, J. Holden, and L. J. Kunz. 1984. Identification of Streptococcus bovis and Streptococcus salivarius in clinical laboratories. J. Clin. Microbiol. 20:223-226.[Abstract/Free Full Text]
22
22. Ruoff, K. L., S. I. Miller, C. V. Garner, M. J. Ferraro, and S. B. Calderwood. 1989. Bacteremia with Streptococcus bovis and Streptococcus salivarius: clinical correlates of more accurate identification of isolates. J. Clin. Microbiol. 27:305-308.[Abstract/Free Full Text]
23
23. Savitch, G. B., A. L. Barry, and P. D. Hoeprich. 1978. Infective endocarditis caused by Streptococcus bovis resistant to the lethal effect of penicillin G. Arch. Intern. Med. 138:931-934.[Abstract/Free Full Text]
24
24. Siegel, J. D., and G. H. McCracken. 1978. Group D streptococcal infections. J. Pediatr. 93:542-543.[Medline]

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Journal of Clinical Microbiology, July 2003, p. 3433-3435, Vol. 41, No. 7
0095-1137/03/$08.00+0     DOI: 10.1128/JCM.41.7.3433-3435.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

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