Maria Cristina Arcangeletti

Development of a Real-Time PCR Assay for Detection of Plasmodium falciparum, Plasmodium vivax, and Plasmodium ovale for Routine Clinical Diagnosis

ABSTRACT A TaqMan-based real-time PCR qualitative assay for the detection of three species of malaria parasites—Plasmodium falciparum, P. ovale, and P. vivax—was devised and evaluated using 122 whole-blood samples from patients who had traveled to areas where malaria is endemic and who presented with malaria-like symptoms and fever. The assay was compared to conventional microscopy and to an established nested-PCR assay. The specificity of the new assay was confirmed by sequencing the PCR products from all the positive samples and by the lack of cross-reactivity with Toxoplasma gondii and Leishmania infantum DNA. Real-time PCR assay showed a detection limit (analytical sensitivity) of 0.7, 4, and 1.5 parasites/μl for P. falciparum, P. vivax, and P. ovale, respectively. Real-time PCR, like nested PCR, brought to light errors in the species identification by microscopic examination and revealed the presence of mixed infections (P. falciparum plus P. ovale). Real-time PCR can yield results within 2 h, does not require post-PCR processing, reduces sample handling, and minimizes the risks of contamination. The assay can therefore be easily implemented in routine diagnostic malaria tests. Future studies are warranted to investigate the clinical value of this technique.

Broadly Reactive Nested Reverse Transcription-PCR Using an Internal RNA Standard Control for Detection of Noroviruses in Stool Samples

ABSTRACT We developed a nested reverse transcription-PCR (nRT-PCR) for the detection of noroviruses in stools, using random primers for RT, the JV12/JV13 primer pair in the first round of nPCR, and a set of nine inner primers for the second, comprising the reverse sequences of primers SR46, SR48, SR50, and SR52, and five novel oligonucleotide sequences (113-1, 113-2, 115-1, 115-2, and 115-3). The specificity of the nRT-PCR was confirmed by testing 61 stools containing enteric viruses other than noroviruses. In comparative assays on either stools or RNA dilutions from two genogroup I and three genogroup II (GII) norovirus-positive samples, nRT-PCR was always at least as sensitive as RT-PCR and Southern hybridization. With some of the samples tested, the increase in sensitivity was 10-fold or higher. For GII viruses, the detectable range of nRT-PCR was estimated to be 8.4 × 104 to 2 RNA viral particles. When used on 85 stools from pediatric patients with acute gastroenteritis negative for viruses by electron microscopy and cell culture, the nRT-PCR detected norovirus in 19 samples (22.3%), while it failed to detect one reference RT-PCR-positive sample containing a Desert Shield strain. Sixteen of the 19 nRT-PCR-positive samples gave concordant results with reference RT-PCR and Southern hybridization, and all with sequence analysis. Partial sequencing of the polymerase region revealed that from January to April 2000 all GII strains except two (Rotterdam- and Leeds-like viruses) formed a tight cluster related to Hawaii virus. The nRT-PCR described could prove suitable for large epidemiological studies and for specialized clinical laboratories performing routine molecular testing.

Identification of the novel Kawasaki 2014 GII.17 human norovirus strain in Italy, 2015

Surveillance of noroviruses in Italy identified the novel GII.17 human norovirus strain, Kawasaki 2014, in February 2015. This novel strain emerged as a major cause of gastroenteritis in Asia during 2014/15, replacing the pandemic GII.4 norovirus strain Sydney 2012, but being reported only sporadically elsewhere. This novel strain is undergoing fast diversification and continuous monitoring is important to understand the evolution of noroviruses and to implement the future strategies on norovirus vaccines.

MALDI-TOF MS analysis of human and animal Brachyspira species and benefits of database extension.

Spirochaetes belonging to the genus Brachyspira are anaerobic bacteria that colonize the large intestine of humans and animals, mainly pigs. The main species are namely, B. hyodysenteriae, the etiological agent of swine dysentery, B. pilosicoli, a zoonotic agent causing colonic spirochaetosis both in humans and different animal species, B. aalborgi, exclusively infecting humans causing colonic spirochaetosis, B. intermedia, a potential animal pathogen, B. innocens and B. murdochii, generally commensal of pigs, and B. alvinipulli, found in egg laying hens with diarrhea. In this study, for the first time, MALDI-TOF MS was applied on Brachyspira strains of human and animal origins, supplementing the existing database, limited to the species B. murdochii only, with spirochaetal protein profiles and demonstrating its usefulness in the rapid, cheap and reliable identification of Brachyspira strains at the species level, overcoming the problems previously encountered in the identification of these spirochaetes when using biochemical and genetic-based methods. Moreover, a dendrogram based on protein profiles of the different spirochaetal species was generated reflecting their host spectrum, showing in the same branch the only two species able to infect humans (B. aalborgi and B. pilosicoli) and in the other branch the spirochaetes infecting exclusively animals.

Accurate identification of the six human Plasmodium spp. causing imported malaria, including Plasmodium ovale wallikeri and Plasmodium knowlesi

BackgroundAccurate identification of Plasmodium infections in non-endemic countries is of critical importance with regard to the administration of a targeted therapy having a positive impact on patient health and management and allowing the prevention of the risk of re-introduction of endemic malaria in such countries. Malaria is no longer endemic in Italy where it is the most commonly imported disease, with one of the highest rates of imported malaria among European non-endemic countries including France, the UK and Germany, and with a prevalence of 24.3% at the University Hospital of Parma. Molecular methods showed high sensitivity and specificity and changed the epidemiology of imported malaria in several non-endemic countries, highlighted a higher prevalence of Plasmodium ovale, Plasmodium vivax and Plasmodium malariae underestimated by microscopy and, not least, brought to light both the existence of two species of P. ovale (Plasmodium ovale curtisi and Plasmodium ovale wallikeri) and the infection in humans by Plasmodium knowlesi, otherwise not detectable by microscopy.MethodsIn this retrospective study an evaluation of two real-time PCR assays able to identify P. ovale wallikeri, distinguishing it from P. ovale curtisi, and to detect P. knowlesi, respectively, was performed applying them on a subset of 398 blood samples belonging to patients with the clinical suspicion of malaria.ResultsThese assays revealed an excellent analytical sensitivity and no cross-reactivity versus other Plasmodium spp. infecting humans, suggesting their usefulness for an accurate and complete diagnosis of imported malaria. Among the 128 patients with malaria, eight P. ovale curtisi and four P. ovale wallikeri infections were detected, while no cases of P. knowlesi infection were observed.Discussion and conclusionsReal-time PCR assays specific for P. ovale wallikeri and P. knowlesi were included in the panel currently used in the University Hospital of Parma for the diagnosis of imported malaria, accomplishing the goal of adhering to the recommendations of the World Health Organization to countries that are malaria-free to include the improvement of the early diagnosis of all cases of imported malaria.

Rapid detection and identification of Brachyspira aalborgi from rectal biopsies and faeces of a patient

This study reports for the first time the detection of Brachyspira aalborgi in faeces and rectal biopsies of a female suffering for 3-4 months of abdominal pain with long-standing mucosal diarrhoea, rectal bleeding and suspected carcinoma of the rectum. After pre-treatment of samples (faeces and biopsies) with a liquid medium (trypticase soy broth-TSB) containing foetal calf serum (FCS, 10%) and spectinomycin and rifampicin (TSB-SR) the first detection of B. aalborgi isolate HBS1 was observed after 48 h in the primary plates of selective blood agar modified medium (BAM) containing spectinomycin and rifampicin (BAM-SR), where growth zones were signalled by a small weakly beta-haemolytic halo. Attempts to subculture spirochaetes in agar media failed. The new HBS1 isolate was only propagated in TSB broth and at electron microscopy it showed 4 endoflagella inserted at each tapered end. The phenotypic characterization of HBS1 demonstrated absence of hippurate hydrolysis, indole production, alpha-galactosidase, alpha- and beta-glucosidase activities in accordance with the B. aalborgi type strain. Rapid identification of B. aalborgi isolate HBS1 was performed directly from faeces and rectal biopsies and subsequently from pure cultures by a genetic method based on 16S DNA restriction fragment length polymorphism (RFLP)-polymerase chain reaction (PCR). The sequence of 16S DNA amplicon of the isolate HBS1 was found 99.2% corresponding to that of the B. aalborgi type strain. Our results encourage further investigations for the development of a suitable selective agar medium for the isolating and cultivating B. aalborgi from human specimens.

Identification of Borrelia species after creation of an in-house MALDI-TOF MS database.

Lyme borreliosis (LB) is a multisystemic disease caused by Borrelia burgdorferi sensu lato (sl) complex transmitted to humans by Ixodes ticks. B. burgdorferi sl complex, currently comprising at least 19 genospecies, includes the main pathogenic species responsible for human disease in Europe: B. burgdorferi sensu stricto (ss), B. afzelii, and B. garinii. In this study, for the first time, MALDI-TOF MS was applied to Borrelia spp., supplementing the existing database, limited to the species B. burgdorferi ss, B . spielmanii and B. garinii, with the species B. afzelii, in order to enable the identification of all the species potentially implicated in LB in Europe. Moreover, we supplemented the database also with B. hermsii, which is the primary cause of tick-borne relapsing fever in western North America, B. japonica, circulating in Asia, and another reference strain of B. burgdorferi ss (B31 strain). The dendrogram obtained by analyzing the protein profiles of the different Borrelia species reflected Borrelia taxonomy, showing that all the species included in the Borrelia sl complex clustered in a unique branch, while Borrelia hermsii clustered separately. In conclusion, in this study MALDI-TOF MS proved a useful tool suitable for identification of Borrelia spp. both for diagnostic purpose and epidemiological surveillance.

Novel recombinant GII.P16_GII.13 and GII.P16_GII.3 norovirus strains in Italy.

Novel norovirus strains are continuously emerging worldwide. Molecular investigation and phylogenetic analysis identified GII.P16 recombinant noroviruses from the stools of four Italian children with gastroenteritis. The capsid gene was characterized as either GII.13 or GII.3. The GII.P16_GII.13 Italian strains were closely related to German strains involved in a large outbreak in the second half of 2012 and the Italian strains are the first recorded occurrence of GII.P16_GII.13 in Europe.

Susceptibility of frequent urinary pathogens to fosfomycin trometamol and eight other antibiotics: results of an italian multicenter survey

SummaryIn order to assess the resistance profile for fosfomycin trometamol after several years of clinical use in Italy, this study has explored the susceptibility to fosfomycin and eight other antibacterial drugs of 6,021 strains isolated from 23,816 urines during 1990 in three teaching hospitals located in Genoa, Parma and Catania. Gram-negative strains, notablyEscherichia coli (41.6%), were primarily involved. Amoxicillin was the least active compound with resistance in 41.4% of the isolates. Fosfomycin showed the lowest rate of resistance in both gram-negative (2.8%) and gram-positive (2.1%) pathogens. This was followed by norfloxacin with a resistance rate of 11.8% and netilmicin with 12.2%. These results indicate that fosfomycin-trometamol may continue to be used in single-dose treatment of urinary tract infections even in the absence of microbiological data since the prevalence of resistance to the drug is, at present, so low that therapeutic failure is highly improbable.ZusammenfassungFosfomycin Trometamol wird in Italien seit mehreren Jahren klinisch eingesetzt. Eine Studie, die 1990 an drei akademischen Lehrkrankenhäusern in Genua, Parma und Catania durchgeführt wurde und 6.021 Bakterienstämme aus 23.816 Urinkulturen umfaßte, sollte die Resistenzsituation gegenüber Fosfomycin Trometamol im Vergleich zu acht anderen Antibiotika bestimmen. Es handelte sich vorwiegend um gramnegative Erreger, vor allemEscherichia coli (41,6%). Amoxicillin erwies sich als die am wenigsten wirksame Substanz mit einer Resistenzrate von 41,4% der Stämme. Fosfomycin wies mit 2,8% Resistenzen bei gramnegativen und 2,1% bei grampositiven Isolaten die niedrigste Resistenzrate auf. Es folgten Norfloxacin mit einer Resistenzrate von 11,8% und Netilmicin mit 12,2% Resistenzen unter den getesteten Isolaten. Diese Ergebnisse zeigen, daß Fosfomycin Trometamol auch weiterhin für die Einmaldosis-Therapie bei Harnwegsinfektionen eingesetzt werden kann, auch wenn kein mikrobiologischer Befund vorliegt. Die Resistenzrate gegen dieses Antibiotikum ist bei den Erregern von bakteriellen Harnwegsinfektionen derzeit so gering, daß ein Therapieversagen sehr unwahrscheinlich ist.

Host-cell-dependent role of actin cytoskeleton during the replication of a human strain of influenza A virus

This study was aimed at investigating the possible involvement of the actin cytoskeleton in the modulation of host permissiveness to A/NWS/33 human influenza virus infection in two mammalian (MDCK and LLC-MK2) cell lines in vitro. During the early stages of infection, no appreciable association between incoming NWS/33 virions and cortical actin was detectable in the permissive MDCK model by confocal microscopy, while extensive colocalization and a slower infection progression were observed in LLC-MK2 cells. In the latter model, we also demonstrated the inability of the virus to carry out multiple replication cycles, irrespective of the presence of cleaved HA subunits in the released virions. Treatment with the actin-depolymerizing agent cytochalasin D significantly increased the infection efficiency in LLC-MK2 cells, while a detrimental effect was observed in the MDCK cell line. Our data suggest a selective role of the actin network in inducing a restriction to influenza virus replication, mostly depending on its molecular organization, the host cell type and virus replication phase.