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DOI: 10.1055/s-0036-1579748
Fulminant Pneumococcal Meningoencephalitis and Widespread Cerebritis with Multiple Infarctions Caused by Non–PCV13-Serotype 23A in a 12-Month-Old Girl with Down Syndrome
Publication History
25 November 2015
27 January 2016
Publication Date:
10 March 2016 (online)
Abstract
Streptococcus pneumoniae is one of the major pathogens in invasive diseases in children worldwide. The implementation of national vaccine programs has led to a significant reduction in most circulating pathogenic serotypes. Because of genetic shifts and replacements in the S. pneumoniae population, rare and nonvaccine serotypes have increased in prevalence. We report a case of a 12-month-old girl with Down syndrome and congenital heart disease, suffering from a fulminant pneumococcal meningoencephalitis caused by the nonvaccine serotype 23A. This nonvaccine serotype is an example of the increasing incidence in children with invasive pneumococcal disease (IPD) and illustrates the need for pneumococcal vaccines with broader coverage. Cranial computed tomography (CCT) findings of the patient revealed unusual and extended lesions with bi-hemispheric infarctions and cerebritis, with subsequent widespread intraparenchymal hemorrhage.
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References
- 1 Austrian R. Pneumococcus: the first one hundred years. Rev Infect Dis 1981; 3 (2) 183-189
- 2 van der Linden M, Falkenhorst G, Perniciaro S, Imöhl M. Effects of infant pneumococcal conjugate vaccination on serotype distribution in invasive pneumococcal disease among children and adults in Germany. PLoS ONE 2015; 10 (7) e0131494
- 3 Reinert RR. Pneumococcal conjugate vaccines—a European perspective. Int J Med Microbiol 2004; 294 (5) 277-294
- 4 Steens A, Caugant DA, Aaberge IS, Vestrheim DF. Decreased carriage and genetic shifts in the Streptococcus pneumoniae population after changing the seven-valent to the thirteen-valent pneumococcal vaccine in Norway. Pediatr Infect Dis J 2015; 34 (8) 875-883
- 5 Imöhl M, Möller J, Reinert RR, Perniciaro S, van der Linden M, Aktas O. Pneumococcal meningitis and vaccine effects in the era of conjugate vaccination: results of 20 years of nationwide surveillance in Germany. BMC Infect Dis 2015; 15: 61
- 6 van der Linden M, Perniciaro S, Imöhl M. Increase of serotypes 15A and 23B in IPD in Germany in the PCV13 vaccination era. BMC Infect Dis 2015; 15: 207
- 7 dos Santos SR, Passadore LF, Takagi EH , et al. Serotype distribution of Streptococcus pneumoniae isolated from patients with invasive pneumococcal disease in Brazil before and after ten-pneumococcal conjugate vaccine implementation. Vaccine 2013; 31 (51) 6150-6154
- 8 Stanek RJ, Mufson MA. A 20-year epidemiological study of pneumococcal meningitis. Clin Infect Dis 1999; 28 (6) 1265-1272
- 9 Verhaegen J, Vandecasteele SJ, Vandeven J, Verbiest N, Lagrou K, Peetermans WE. Antibiotic susceptibility and serotype distribution of 240 Streptococcus pneumoniae causing meningitis in Belgium 1997–2000. Acta Clin Belg 2003; 58 (1) 19-26
- 10 Pantosti A, D'Ambrosio F, Tarasi A, Recchia S, Orefici G, Mastrantonio P. Antibiotic susceptibility and serotype distribution of Streptococcus pneumoniae causing meningitis in Italy, 1997–1999. Clin Infect Dis 2000; 31 (6) 1373-1379
- 11 Vieira AC, Gomes MC, Rolo Filho M, Eudes Filho J, Bello EJ, de Figueiredo RB. Streptococcus pneumoniae: a study of strains isolated from cerebrospinal fluid. J Pediatr (Rio J) 2007; 83 (1) 71-78
- 12 Grant LR, O'Brien SE, Burbidge P , et al. Comparative immunogenicity of 7 and 13-valent pneumococcal conjugate vaccines and the development of functional antibodies to cross-reactive serotypes. PLoS ONE 2013; 8 (9) e74906
- 13 Hausdorff WP, Hoet B, Schuerman L. Do pneumococcal conjugate vaccines provide any cross-protection against serotype 19A?. BMC Pediatr 2010; 10: 4
- 14 de Hingh YC, van der Vossen PW, Gemen EF , et al. Intrinsic abnormalities of lymphocyte counts in children with Down syndrome. J Pediatr 2005; 147 (6) 744-747
- 15 Murphy M, Epstein LB. Down syndrome (trisomy 21) thymuses have a decreased proportion of cells expressing high levels of TCR alpha, beta and CD3. A possible mechanism for diminished T cell function in Down syndrome. Clin Immunol Immunopathol 1990; 55 (3) 453-467
- 16 Verstegen RH, Kusters MA, Gemen EF, DE Vries E. Down syndrome B-lymphocyte subpopulations, intrinsic defect or decreased T-lymphocyte help. Pediatr Res 2010; 67 (5) 563-569
- 17 Joshi AY, Abraham RS, Snyder MR, Boyce TG. Immune evaluation and vaccine responses in Down syndrome: evidence of immunodeficiency?. Vaccine 2011; 29 (31) 5040-5046
- 18 Kusters MA, Manders NC, de Jong BA, van Hout RW, Rijkers GT, de Vries E. Functionality of the pneumococcal antibody response in Down syndrome subjects. Vaccine 2013; 31 (52) 6261-6265
- 19 Siber GR, Schur PH, Aisenberg AC, Weitzman SA, Schiffman G. Correlation between serum IgG-2 concentrations and the antibody response to bacterial polysaccharide antigens. N Engl J Med 1980; 303 (4) 178-182
- 20 Ohga S, Okada K, Asahi T, Ueda K, Sakiyama Y, Matsumoto S. Recurrent pneumococcal meningitis in a patient with transient IgG subclass deficiency. Acta Paediatr Jpn 1995; 37 (2) 196-200
- 21 Jorens PG, Parizel PM, Wojciechowski M , et al. Streptococcus pneumoniae meningoencephalitis with unusual and widespread white matter lesions. Eur J Paediatr Neurol 2008; 12 (2) 127-132
- 22 Kastenbauer S, Pfister HW. Pneumococcal meningitis in adults: spectrum of complications and prognostic factors in a series of 87 cases. Brain 2003; 126 (Pt 5) 1015-1025
- 23 Rul B, Carnevale F, Estournet B, Rudler M, Hervé C. Tracheotomy and children with spinal muscular atrophy type 1: ethical considerations in the French context. Nurs Ethics 2012; 19 (3) 408-418