Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Pieniazek NJ[original query] |
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The third described case of transfusion-transmitted Babesia duncani
Bloch EM , Herwaldt BL , Leiby DA , Shaieb A , Herron RM , Chervenak M , Reed W , Hunter R , Ryals R , Hagar W , Xayavong MV , Slemenda SB , Pieniazek NJ , Wilkins PP , Kjemtrup AM . Transfusion 2011 52 (7) 1517-22 BACKGROUND: Almost all of the reported US tick-borne and transfusion-associated Babesia cases have been caused by Babesia microti, which is endemic in the Northeast and upper Midwest. We investigated a case caused by B. duncani (formerly, the WA1-type parasite), in a 59-year-old California resident with sickle cell disease (HbSS) whose only risk factor for infection was receipt of red blood cell transfusions. CASE REPORT: The patient's case was diagnosed in September 2008: intraerythrocytic parasites were noted on a blood smear, after a several-month history of increasing transfusion requirements. Molecular and indirect fluorescent antibody (IFA) analyses were negative for B. microti but were positive for B. duncani (IFA titer, 1:1024). The complete 18S ribosomal RNA gene of the parasite was amplified from a blood specimen; the DNA sequence was identical to the sequence for the index WA1 parasite isolated in 1991. The patient's case prompted a transfusion investigation: 34 of 38 pertinent blood donors were evaluated, none of whom tested positive by B. microti IFA. The implicated donor-a 67-year-old California resident-had a B. duncani titer of 1:4096; B. duncani also was isolated by inoculating jirds (Mongolian gerbils) with a blood specimen from March 2009, more than 10 months after his index donation in April 2008. The patient's case was diagnosed more than 4 months after the implicated transfusion in May 2008. CONCLUSIONS: This patient had the third documented transfusion case caused by B. duncani. His case underscores the fact that babesiosis can be caused by agents not detected by molecular or serologic analyses for B. microti. |
Tubulinosema sp. microsporidian myositis in immunosuppressed patient
Choudhary MM , Metcalfe MG , Arrambide K , Bern C , Visvesvara GS , Pieniazek NJ , Bandea RD , Deleon-Carnes M , Adem P , Zaki SR , Saeed MU . Emerg Infect Dis 2011 17 (9) 1727-30 The Phylum Microsporidia comprises >1,200 species, only 15 of which are known to infect humans, including the genera Trachipleistophora, Pleistophora, and Brachiola. We report an infection by Tubulinosema sp. in an immunosuppressed patient. |
Identification of Leishmania spp. by molecular amplification and DNA sequencing analysis of a fragment of rRNA internal transcribed spacer 2.
de Almeida ME , Steurer FJ , Koru O , Herwaldt BL , Pieniazek NJ , da Silva AJ . J Clin Microbiol 2011 49 (9) 3143-9 Isoenzyme analysis of cultured parasites is the conventional approach for Leishmania species identification. Molecular approaches have the potential to be more sensitive and rapid. We designed polymerase chain reaction (PCR) generic primers to amplify a segment of the rRNA Internal Transcribed Spacer 2 (ITS2) from multiple Leishmania species. To validate the selected ITS2 fragment, we tested clinical specimens and compared the species results obtained by the molecular approach (PCR, followed by DNA sequencing analysis) with those from the parasitologic approach (in vitro culture, followed by isoenzyme analysis). Among the 159 patients with clinical specimens positive by both approaches, a total of 8 Leishmania species were identified. The species results were concordant for all but two patients: for one patient, the results were L. (Viannia) guyanensis by the molecular approach versus L. (V.) braziliensis by the parasitologic approach; for the other patient, the results were L. (Leishmania) tropica versus L. (L.) major, respectively. ITS2 PCR, followed by sequencing analysis, can be used to detect and discriminate among Leishmania species. The results confirmed our hypothesis that a region of the ITS2 gene can complement the characterization of Leishmania parasites at the species level. The approach we developed can be used as a diagnostic tool in reference laboratories with adequate infrastructure to perform molecular characterization of pathogens. |
Paravahlkampfia francinae n. sp. masquerading as an agent of primary amoebic meningoencephalitis
Visvesvara GS , Sriram R , Qvarnstrom Y , Bandyopadhyay K , Da Silva AJ , Pieniazek NJ , Cabral GA . J Eukaryot Microbiol 2009 56 (4) 357-66 Paravahlkampfia francinae n. sp., a new species of the free-living amoeba genus Paravahlkampfia, designated as CDC:V595, was isolated from the cerebrospinal fluid of a patient with headache, sore throat, and vomiting, typical symptoms of primary amoebic meningoencephalitis (PAM) caused by Naegleria fowleri. The isolate grew at 33 degrees C, 37 degrees C, 40 degrees C, and 42 degrees C and destroyed mammalian cell cultures. However, it did not kill young mice upon intranasal inoculation. P. francinae does not produce flagellates and does not grow on agar plates coated with Gram-negative bacteria such as Escherichia coli, the usual food source of Paravahlkampfia ustiana, the type species of the genus. The trophozoite at light microscopy exhibited eruptive locomotion and possessed a single vesicular nucleus. Ultrastructurally, the trophozoites had numerous mitochondria with discoidal cristae but did not have a Golgi apparatus. The trophozoites differentiated into cysts after consuming most of the monolayer. The cyst had an inner well-differentiated endocyst and an outer thin, wrinkled, and wavy ectocyst with no pores. During excystation trophozoites ruptured the cyst wall and emerged from the cysts. A unique feature seen in the cysts was the presence of bacterial endosymbionts, both in the endoplasm and within the cyst wall. Full-length sequencing analysis of the 18S and 5.8S RNA genes of P. francinae showed that they were distinct from those of other Paravahlkampfia species. The patient recovered within a few days indicating that some of the previously reported cases of PAM that survived may have been due to P. francinae. |
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