SciELO - Scientific Electronic Library Online

 
vol.43 issue6Neurological involvement in visceral leishmaniasis: case reportSubdoses of primaquine in overweight patients and malaria vivax relapses: report of two cases in the Federal District, Brazil author indexsubject indexarticles search
Home Pagealphabetic serial listing  

Services on Demand

Journal

Article

  • English (pdf)
  • Article in xml format
  • How to cite this article
  • SciELO Analytics
  • Curriculum ScienTI
  • Automatic translation

Indicators

Related links

Share


Revista da Sociedade Brasileira de Medicina Tropical

Print version ISSN 0037-8682

Rev. Soc. Bras. Med. Trop. vol.43 no.6 Uberaba Nov./Dec. 2010

https://doi.org/10.1590/S0037-86822010000600032 

CASE REPORT RELATO DE CASO

 

Cryptococcus gattii molecular type VGII as agent of meningitis in a healthy child in Rio de Janeiro, Brazil: report of an autochthonous case

 

Cryptococcus gattii tipo molecular VGII como agente causador de meningoencefalite em criança saudável no Rio de Janeiro, Brasil: relato de um caso autóctone

 

 

Vitor Laerte Pinto JuniorI, II; Marcos Vinicius da Silva PoneIII; Sheila Moura PoneIII; João Maurício Scarpellini CamposIII; José Roberto Pereira GarridoIII; Ana Cláudia Mamede Wiering de BarrosIII; Luciana TrillesIV; Gláucia Gonçalves BarbosaIV; Bernardina Penarrieta MoralesIV; Cláudia de Carvalho Falci BezerraIV; Márcia dos Santos LazéraIV

IOswaldo Cruz Foundation, Brasília, DF, Brazil
IISchool of Medicine, Catholic University of Brasília, Brasília, DF, Brazil
IIIFernandes Figueira Institute, Oswaldo Cruz Foundation, Rio de Janeiro, RJ, Brazil
IVEvandro Chagas Clinical Research Institute, Oswaldo Cruz Foundation, Rio de Janeiro, RJ, Brazil

Address to

 

 


ABSTRACT

Cryptococcus gattii causes meningoencephalitis in immunocompetent hosts, occurring endemically in some tropical and subtropical regions. Recently, this fungus was involved in an outbreak in Vancouver Island and British Columbia (Canada). In this temperate region, the VGII type is predominant. The paper describes an autochthonous case of meningoencephalitis by C. gattii VGII in a previously health child in Rio de Janeiro, considered nonendemic region of Brazil. The fungus was identified by biochemical tests and the molecular type was determined by URA5-RFLP. The present report highlights the need for clinical vigilance for primary cryptococcal meningitis in nonendemic areas.

Key-words: Meningoencephalitis. Immunocompetent. Cryptococcus gattii.


RESUMO

Cryptococcus gattii é causa de meningoencefalite em hospedeiros imunocompetentes, ocorrendo endemicamente em regiões tropicais e subtropicais. Recentemente foi causador de surtos na Ilha de Vancouver e na Columbia Britânica (Canadá). Nesta região de clima temperado, o tipo VGII é predominante. Relatamos um caso de meningoencefalite pelo C.gattii tipo VGII acometendo criança previamente saudável autóctone do Rio de Janeiro, região não endêmica do Brasil. O agente foi identificado por testes bioquímicos e o tipo molecular determinado através de URA5-RFLP. O presente relato enfatiza a necessidade de vigilância clínica para a meningite criptocóccica primária em áreas não endêmicas.

Palavras-chaves: Meningoencefalite. Imunocompetente. Cryptococcus gattii.


 

 

INTRODUCTION

Cryptococcus gattii is an agent of life-threatening disseminated infections in healthy, immunocompetent hosts. The most common clinical manifestations are meningoencephalitis and pulmonary disease, occurring mainly as endemic mycosis in tropical and subtropical regions. This primary emerging pathogen has attracted special attention during an outbreak of pulmonary and disseminated infection in Vancouver Island since 19991.

Using specific primers for the minisatellite-specific core sequence of the wild-type phage M13 and/or URA5-RFLP analysis2, four molecular types VGI-VGIV are identified and used for epidemiological studies for this species. VGII type is the principal agent, which caused human cases in Vancouver1. Infantile cryptococcosis is a rare event, but it has been frequently diagnosed in healthy children in the north and northeast regions of Brazil3,4.

Considering the unexpected occurrence of meningitis caused by C. gattii type VGII in an immunocompetent child born and resident in the State of Rio de Janeiro, the clinical-epidemiological features of this case are discussed.

Clinical and epidemiological data were obtained from analysis of the patient's medical records, outpatient follow-up, domiciliary visits and interviews with family members. The family of the patient signed a consent form authorizing this report.

The primary isolate obtained from cerebrospinal fluid (CSF) seeded on Sabouraud dextrose agar 2% medium was identified by morphological and physiological tests, including phenol oxidase production on niger seed agar medium (NSA), cycloheximide sensitivity, assimilation of C and N sources (Vitek ICB, bioMerieux, Durham, USA), and the canavanine-glycine-bromothymol blue medium (CGB test) to identify the species.

High molecular weight DNA was extracted, according to Ferrer et al5, and the molecular type was identified by URA5-RFLP, according to Meyer et al2. The RFLP patterns were assigned visually by comparison with the patterns obtained from the reference strains.

 

CASE REPORT

A five years-old boy, born and resident in the Metropolitan area of Rio de Janeiro, was admitted to a medical facility near his residence on January 3rd 2005 complaining of an abrupt onset of fever, malaise, frontal headache, abdominal pain and post alimentary vomiting for two days. These unspecific manifestations were treated with oral amoxicillin and symptomatic medication. After four days, with improvement of his symptoms, he was discharged to continue treatment at home.

During the following two weeks, the patient remained well, but in the fourth week of January, recurrence of fever, malaise and headache occurred. He was readmitted in a municipal hospital presenting hepatomegaly and a right convergent strabismus without consciousness disturbance or meningeal signs during clinical examination. Computerized tomography (CT) scans of the brain revealed hypodense areas in the right basal ganglia and subcortical region, with ring enhancement after iodine contrast infusion, strongly suggestive of neurotoxoplasmosis (Figure 1). Sulfadiazine and pyrimethamine administration were initiated. After a short stay, the patient was transferred to the Fernandes Figueira Institute (IFF).

 

 

Upon admission to IFF, laboratorial tests were negative for HIV (ELISA) and IgG and IgM serology for Toxoplasma gondii. A spinal tap was performed and showed 62 leukocytes/mm³ with 92% of mononuclear cells, protein levels of 70mg/dl and glucose levels of 63mg/dl. All bacteriological tests were negative, including tuberculosis investigation (direct bacterioscopy and culture). Antimicrobial drugs for neurotoxoplasmosis were discontinued and vancomycin, ceftriaxone and metronidazole were initiated to treat a possible cerebral abscess. Dexamethasone was also added to ameliorate the cerebral edema. Improvement in the patient's clinical condition was observed.

On day 10 of admission to IFF, the patient presented worsening of intracranial hypertension (ICH) along with meningeal irritation and tonic-clonic seizures. CSF culture was positive for Cryptococcus sp and following this result, a latex agglutination test also proved positive. As a consequence, all antibiotics were interrupted and 1mg/kg/d of amphotericin B deoxycholate was initiated. A new CT scan of the brain presented dilatations of the ventricular system

(Figure 1) and another spinal tap was performed. The CSF revealed 19 leukocytes, 97% mononuclear cells, protein of 45mg/dL and glucose of 46mg/dL. The patient evolved with fluctuation of mental status. After failure of ICH control with serial lumbar punctures, a peritoneal shunt was implanted.

On day 18 of admission the patient presented with bilateral blindness and severe motor deficits, mainly limbs. Negative results of CSF cultures for fungus and of direct examination for Cryptococcus sp occurred on day 22 following the onset of treatment. Other complications observed during inpatient stay were arterial hypertension, salt waste syndrome and low potassium levels as a consequence of amphotericin B administration.

The patient was discharged after 95 days with accumulated amphotericin B dosage of 400mg, over a six week period. The remainder of treatment was achieved with fluconazole at a daily dose of 12mg/kg for four weeks.

Outpatient follow-up continues, showing the persistence of neurological sequelae, mainly hypotonus of the leg muscles, two seizure episodes (controlled with anticonvulsant drugs) and bilateral blindness, during the initial visits. At present, the patient presents expressive improvement of motor disability and attends a school for the visually handicapped.

 

DISCUSSION

Cryptococcosis meningoencephalitis affecting an immunocompetent child represents a diagnostic puzzle, mainly because C. gattii is not a typical etiological agent of meningitis, but also because of its nonspecific clinical manifestations. Consequently, delay in the diagnosis and in the onset of specific treatment is frequently observed4.

Studies involving infantile cryptococcosis in Brazil demonstrated that the most common manifestations are fever, headache, neck stiffness and vomiting3; in this case, these suggestive manifestations occurred after the second week of onset.

Cranial CT scans can also cause confusion, since the aspect of the lesion is very similar to other diseases, such as neurotoxoplasmosis and cerebral abscess. In a study of tomographic alterations in 11 children with meningitis by C. gattii in the State of Pará, Brazil, all cases presented hypodense nodules, most of them located in the basal ganglia6. The same study also described hydrocephalus and diffuse cortical atrophy.

In the present case, the cryptococcal isolate from CSF was only identified at a species level by a reference laboratory. The fact that the commercially available kits for yeast identification do not discriminate C. neoformans from C. Gattii, must be taken into account. This fact, together with the absence of case surveillance, limit current knowledge regarding C. gattii epidemiology in Brazil.

In the north and northeast regions of Brazil, encompassing the Brazilian Amazon forest and the semiarid savanna areas, the high proportion of HIV-negative children with cryptococcal meningitis configure an unique epidemiological picture in the world. In the State of Pará, it an infantile cryptococcal meningitis frequency of 18.6% was verified for 43 cases diagnosed from 2003 to 20076 and 24.3% in 78 cases diagnosed from 1992 to 1998 in the same state3. A frequency of 33% of cases in children was observed in the State of Amazonas7 and 21% in the State of Piaui8. Epidemiological studies in these regions show that the molecular type VGII is the main agent for cryptococcal meningitis in young adults and children9,10. The previous few VGII cases identified in the State of Rio de Janeiro were from patients who came from the northeast of the country9. The epidemiological data of the present case were reassessed and a domiciliary visit was conducted. The family reported no travel history and the child was born and has always lived in a poor community within the metropolitan area of Rio de Janeiro in an area of ongoing deforestation. Future environmental studies are necessary in this region to identify potential sources of human infection. Besides colonization of hollow trees and wood decay substrata, deforestation may also be related to C. gattii infections in Brazil. Subtyping and genetic studies comparing C. gattii isolates from Rio de Janeiro to those from other regions are also necessary to verify possible variants in the molecular type VGII.

An autochthonous case in Rio de Janeiro caused by C. gattii VGII type demands attention. The same molecular type is endemic in the north and northeast regions and seems to be spreading to Southeastern Brazil. The adaptive potential and expansive behavior of VGII has been observed in North America, where this agent is responsible for the ongoing outbreak of meningoencephalitis in Vancouver and is spreading into Pacific Northwest Region of the United States1.

It is necessary to include this agent as a potential etiological agent of meningitis in clinical practice in all regions of Brazil, to increment laboratorial conditions for storage and identification of cryptococcal isolates and to establish surveillance concerning cryptococcal infection in our country.

 

FINANCIAL SUPPORT

FAPERJ, Rio de Janeiro, Brazil, for the financial support provided (grant E-26/110.486/2007).

 

REFERENCES

1. Kidd SE, Hagen F, Tscharke RL, Huynh M, Bartlett KH, Fyfe M, et al. A rare genotype of Cryptococcus gattii caused the cryptococcosis outbreak on Vancouver Island (British Columbia, Canada). Proc Natl Acad Sci USA 2004; 101:17258-17263.         [ Links ]

2. Meyer W, Castañeda A, Jackson S, Huynh M, Castañeda E. Molecular typing of Ibero American Cryptococcus neoformans isolates. Emerging Infect Dis 2003; 9:189-195.         [ Links ]

3. Corrêa MDP, Oliveira EC, Duarte RR, Pardal PP, Oliveira FDM, Severo LC. Cryptococcosis in children in the State of Pará, Brazil. Rev Soc Bras Med Trop 1999; 32:505-508.         [ Links ]

4. Severo CB, Xavier MO, Gazzoni AF, Severo LC. Cryptococcosis in children. Paediatr Respir Rev 2009;10:166-171.         [ Links ]

5. Ferrer C, Colom F, Frasés S, Mulet E, Abad JL, Alió JL. Detection and identification of fungal pathogens by PCR and by ITS2 and 5.8S ribosomal DNA typing in ocular infections. J Clin Microbiol 2001; 39:2873-2879.         [ Links ]

6. Correa MDPSC, Severo LC, Oliveira FDM, Irion K, Londero AT. The spectrum of computerized tomography (CT) findings in central nervous system (CNS) infection due to Cryptococcus neoformans var. gattii in immunocompetent children. Rev Inst Med Trop Sao Paulo 2002; 44:283-287.         [ Links ]

7. Santos L. Criptococose no estado do Amazonas: estudo de 75 casos diagnosticados na Fundação de Medicina Tropical (1988-1998) [dissertation]. [Rio de Janeiro]: Instituto Oswaldo Cruz; 2000. 154p.         [ Links ]

8. Martins L. Epidemiologia da criptococose em crianças e adultos jovens e diversidade de Cryptococcus neoformans no meio Norte do Brasil [dissertation]. [Rio de Janeiro]: Instituto Oswaldo Cruz; 2003. 78p.         [ Links ]

9. Trilles L, Lazéra MDS, Wanke B, Oliveira RV, Barbosa GG, Nishikawa MM, et al. Regional pattern of the molecular types of Cryptococcus neoformans and Cryptococcus gattii in Brazil. Mem Inst Oswaldo Cruz 2008; 103:455-462.         [ Links ]

10. Santos WRAD, Meyer W, Wanke B, Costa SPSE, Trilles L, Nascimento JLMD, et al. Primary endemic Cryptococcosis gattii by molecular type VGII in the state of Pará, Brazil. Mem Inst Oswaldo Cruz 2008; 103:813-818.         [ Links ]

 

 

Address to:
Dr. Vitor Laerte Pinto Junior
FIOCRUZ Brasília
PO Box 04311
ZIP 70904-970 Brasília, DF, Brazil
Phone: 55 61 3329-4600
e-mail: vitorlaerte@fiocruz.br

Received in 16/06/2010
Accepted in 20/08/2010

Creative Commons License All the contents of this journal, except where otherwise noted, is licensed under a Creative Commons Attribution License