The free-living amoeba Balamuthia mandrillaris can cause fatal encephalitis in humans and other mammals. The organism is associated with soils, and soil exposure has been identified as a risk factor for this pathogen. However, B. mandrillaris has been isolated only once from soils believed to be the source of the infection in child from California, USA who died of Balamuthia amoebic encephalitis and once from another unrelated soil source. We report for a third time the isolation of B. mandrillaris from the environment and for the second time its isolation from a sample not known to be involved with pathogenicity. We have established the new clonal B. mandrillaris strain (ID-19) in axenic media. The identity of our isolate was originally by morphology using a light microscope and this has been confirmed by 16S rRNA gene PCR. The new strain ID-19 groups with others of the species. The fact that our isolate came from dust particles deposited on surfaces from the air in an urban environment may suggest that it is not just soil exposure that constitutes a risk factor for Balamuthia infection. This is the first report of this organism from Iran.
Serum samples, 100 in the total number, were collected from different laboratories in Tehran, Iran and tested for anti-Toxoplasma specific IgG and IgM antibodies using indirect immunofluorescent antibody test (IFAT). Using the IgG (chronic) and IgM (acute) positive samples, the IgG avidity test was performed by ELISA in duplicate rows of 96-well microtiter plates. One row was washed with 6 M urea and the other with PBS (pH 7.2), then the avidity index (AI) was calculated. Sixteen out of 18 (88.9%) sera with acute toxoplasmosis showed low avidity levels (AI≤50), and 76 out of 82 (92.7%) sera in chronic phase of infection showed high avidity index (AI>60). Six sera had borderline ranges of AI. The results showed that the IgG avidity test by ELISA could distinguish the acute and chronic stages of toxoplasmosis in humans.
The continuous increase in Acanthamoeba keratitis, a severe corneal infection, worldwide is mainly due to the increase in the number of soft contact lens users. In the present study, which involves a 5-year study, a total of 138 corneal scraps and contact lenses together with their paraphernalias were obtained from suspected amoebic keratitis patients. All samples were cultured using culture-enrichment method. Pathogenic assay, using thermotolerance and osmotolerance tests were also performed on the positive strains. Sequencing of the isolated strains was done by targeting the DF3 region of 18s rRNA gene. The results revealed that 18 (13 %) of patients were infected with Acanthamoeba spp. As expected, T4 genotype was the most common genotype among the clinical samples; however, in three cases, Acanthamoeba belonging to T11 and T9 were detected. Interestingly, T9 genotype, commonly classified as non-pathogenic amoebae, was identified as a causal agent of a patient with amoebic keratitis. From the pathogenic assay, four strains belonging to T4 genotypes were highly pathogenic. This is the first report of Acanthamoeba T9 genotypes isolated in Iran and the first report of T9 type occurring in amoebic keratitis patients worldwide. Due to the increasing trend of amoebic keratitis (AK) and the identification of new genotypes, such as T9 as the causative agent of AK, more researches in this field are necessary in the region and the world at large.
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