1.Central nervous system infections caused by pathogenic free-living amoebae: An Indian perspective
Raju, R. ; Khurana, S. ; Mahadevan, A. ; John, D.V.
Tropical Biomedicine 2022;39(No.2):265-280
Pathogenic free-living amoebae (FLA), namely Acanthamoeba sp., Naegleria fowleri and Balamuthia
mandrillaris are distributed worldwide. These neurotropic amoebae can cause fatal central nervous
system (CNS) infections in humans. This review deals with the demographic characteristics, symptoms,
diagnosis, and treatment outcomes of patients with CNS infections caused by FLA documented in India.
There have been 42, 25, and 4 case reports of Acanthamoeba granulomatous amoebic encephalitis
(GAE), N. fowleri primary amoebic meningoencephalitis (PAM), and B. mandrillaris meningoencephalitis
(BAE), respectively. Overall, 17% of Acanthamoeba GAE patients and one of the four BAE patients
had some form of immunosuppression, and more than half of the N. fowleri PAM cases had history
of exposure to freshwater. Acanthamoeba GAE, PAM, and BAE were most commonly seen in males.
Fever, headache, vomiting, seizures, and altered sensorium appear to be common symptoms in these
patients. Some patients showed multiple lesions with edema, exudates or hydrocephalus in their brain
CT/MRI. The cerebrospinal fluid (CSF) of these patients showed elevated protein and WBC levels. Direct
microscopy of CSF was positive for amoebic trophozoites in 69% of Acanthamoeba GAE and 96% of
PAM patients. One-fourth of the Acanthamoeba GAE and all the BAE patients were diagnosed only
by histopathology following autopsy/biopsy samples. Twenty-one Acanthamoeba GAE survivors were
treated with cotrimoxazole, rifampicin, and ketoconazole/amphotericin B, and all eleven PAM survivors
were treated with amphotericin B alongside other drugs. A thorough search for these organisms in CNS
samples is necessary to develop optimum treatment strategies.
2.Cerebrospinal fluid inflammatory cytokine profiles of patients with neurotropic parasitic infections
John, D.V. ; Sreenivas, N. ; Deora, H. ; Purushottam, M. ; Debnath, M. ; Mahadevan, A. ; Patil, S.A.
Tropical Biomedicine 2023;40(No.4):406-415
The pathogenesis of chronic parasitic central nervous system (CNS) infections, including granulomatous
amoebic meningoencephalitis (GAE), cerebral toxoplasmosis (CT), and neurocysticercosis (NCC), is
primarily due to an inflammatory host reaction to the parasite. Inflammatory cytokines produced by
invading T cells, monocytes, and CNS resident cells lead to neuroinflammation which underlie the
immunopathology of these infections. Immune molecules, especially cytokines, can therefore emerge
as potential biomarker(s) of CNS parasitic infections. In this study, cerebral spinal fluid (CSF) samples
from suspected patients with parasitic infections were screened for pathogenic free-living amoebae by
culture (n=2506) and PCR (n=275). Six proinflammatory cytokines in smear and culture-negative CSF
samples from patients with GAE (n = 2), NCC (n = 7), and CT (n = 23) as well as control (n = 7) patients
were measured using the Multiplex Suspension assay. None of the CSF samples tested was positive for
neurotropic free-living amoebae by culture and only two samples showed Acanthamoeba 18S rRNA by
PCR. Of the six cytokines measured, only IL-6 and IL-8 were significantly increased in all three infection
groups compared to the control group. In addition, TNFa levels were higher in the GAE and NCC groups
and IL-17 in the GAE group compared to controls. The levels of IL-1b and IFNg were very low in all the
infection groups and the control group. There was a correlation between CSF cellularity and increased
levels of IL-6, IL-8, and TNFa in 11 patients. Thus, quantifying inflammatory cytokine levels in CSF might
help with understanding the level of neuroinflammation in patients with neurotropic parasitic diseases.
Further studies with clinico-microbiological correlation in the form of reduction of cytokine levels with
treatment and the correlation with neurological deficits are needed.
3.Identification of microbial agents in culture-negative brain abscess samples by 16S/18S rRNA gene PCR and sequencing
John, D.V. ; Aryalakshmi, B. ; Deora, H. ; Purushottam, M. ; Raju, R. ; Mahadevan, A. ; Rao, M.B. ; Patil, S.A.
Tropical Biomedicine 2022;39(No.4):489-498
Despite clinical suspicion of an infection, brain abscess samples are often culture-negative in routine
microbiological testing. Direct PCR of such samples enables the identification of microbes that may be
fastidious, non-viable, or unculturable. Brain abscess samples (n = 217) from neurosurgical patients were
subjected to broad range 16S rRNA gene PCR and sequencing for bacteria. All these samples and seven
formalin-fixed paraffin-embedded tissue (FFPE) samples were subjected to species-specific 18S rRNA
PCR for neurotropic free-living amoeba that harbour pathogenic bacteria. The concordance between
smear and/or culture and PCR was 69%. One-third of the samples were smear- and culture-negative for
bacterial agents. However, 88% of these culture-negative samples showed the presence of bacterial 16S
rRNA by PCR. Sanger sequencing of 27 selected samples showed anaerobic/fastidious gram negative
bacteria (GNB, 38%), facultative Streptococci (35%), and aerobic GNB (27%). Targeted metagenomics
sequencing of three samples showed multiple bacterial species, including anaerobic and non-culturable
bacteria. One FFPE tissue revealed the presence of Acanthamoeba 18S rRNA. None of the frozen brain
abscess samples tested was positive for 18S rRNA of Acanthamoeba or Balamuthia mandrillaris. The
microbial 16/18S rRNA PCR and sequencing outperformed culture in detecting anaerobes, facultative
Streptococci and FLA in brain abscess samples. Genetic analyses of 16S/18S sequences, either through
Sanger or metagenomic sequencing, will be an essential diagnostic technology to be included for
diagnosing culture-negative brain abscess samples. Characterizing the microbiome of culture-negative
brain abscess samples by molecular methods could enable detection and/or treatment of the source
of infection.