Maurizia Debiaggi scite author profile

A prospective 2-year analysis including 322 infant patients with acute respiratory disease (ARD) hospitalized in a pediatric department in northern Italy was carried out to evaluate the role as respiratory pathogens or co-pathogens of recently identified viruses. The presence of respiratory syncitial virus (RSV), human Metapneumoviruses (hMPVs), human Bocaviruses (hBoVs), and human Coronaviruses (hCoVs) was assayed by molecular detection and clinical symptoms evaluated. Nasopharyngeal aspirates from 150 of the 322 infants (46.6%) tested positive for at least one pathogen. Ninety samples (28.0%) tested positive for RSV RNA (61.5% genotype A and 38.5% genotype B), 46 (14.3%) for hMPV RNA (71.7% subtype A and 28.3% subtype B), 28 (8.7%) for hCoV RNA (39.3% hCoV-OC43, 35.7% hCoV-NL63, 21.4% hCoV-HKU1, and 3.6% hCoV-229E), and 7 (2.2%) for hBoV DNA (of the 6 typed, 50% subtype 1 and 50% subtype 2); 21/150 samples revealed the presence of 2 or more viruses. Co-infection rates were higher for hMPVs, hCoVs, and hBoV (38.3%, 46.4%, and 57.1%,) and lower for RSV (23.3%). RSV was associated with the presence of complications (P < 0.001) and hypoxia (P < 0.015). When the presence of RSV alone and the RSV-hMPV co-infections were considered, RSV mono-infected patients resulted to have longer hospitalization and higher hypoxia (P < 0.001). The data highlight that (i) RSV has a central role as a respiratory pathogen of infants, (ii) the wide circulation of recently identified viruses does not reduce the clinical and epidemiological importance of RSV, and that (iii) recently identified agents (hMPVs, hBoVs, and hCoVs) act as primary pathogens or co-pathogens.

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The role of infections and coinfections with newly identified and emerging respiratory viruses in children

Debiaggi¹,

Canducci

Ceresola

et al. 2012

Virol J

110

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Acute respiratory infections are a major cause of morbidity in children both in developed and developing countries. A wide range of respiratory viruses, including respiratory syncytial virus (RSV), influenza A and B viruses, parainfluenza viruses (PIVs), adenovirus, rhinovirus (HRV), have repeatedly been detected in acute lower respiratory tract infections (LRTI) in children in the past decades. However, in the last ten years thanks to progress in molecular technologies, newly discovered viruses have been identified including human Metapneumovirus (hMPV), coronaviruses NL63 (HcoV-NL63) and HKU1 (HcoV-HKU1), human Bocavirus (HBoV), new enterovirus (HEV), parechovirus (HpeV) and rhinovirus (HRV) strains, polyomaviruses WU (WUPyV) and KI (KIPyV) and the pandemic H1N1v influenza A virus. These discoveries have heavily modified previous knowledge on respiratory infections mainly highlighting that pediatric population is exposed to a variety of viruses with similar seasonal patterns. In this context establishing a causal link between a newly identified virus and the disease as well as an association between mixed infections and an increase in disease severity can be challenging. This review will present an overview of newly recognized as well as the main emerging respiratory viruses and seek to focus on the their contribution to infection and co-infection in LRTIs in childhood.

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Persistent Symptomless Human Metapneumovirus Infection in Hematopoietic Stem Cell Transplant Recipients

Debiaggi¹,

Canducci²,

Sampaolo³

et al. 2006

J INFECT DIS

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Sequential nasopharyngeal aspirates from patients without respiratory symptoms undergoing hematopoietic stem cell transplantation (HSCT) were tested for genomic RNA of human metapneumovirus (hMPV). Persistent hMPV infection was documented in most of them and confirmed by virus isolation. hMPV infection etiology was also evaluated during the same period in samples from pediatric patients with acute respiratory diseases (ARDs). Sequence analysis of hMPV in HSCT recipients documented infection by hMPV genotype A and strong interhost similarity; this pattern differs from that observed in pediatric patients with ARDs. The data indicate that HSCT recipients may frequently develop symptomless hMPV infection.

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Influence of lingual bracket position on microbial and periodontal parameters in vivo

et al. 2012

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ObjectiveLingual orthodontics is becoming more popular in dental practice. The purpose of the present investigation was to compare plaque formation on teeth bonded with the same bracket onto buccal or lingual surface, with non-bonded control teeth, via an in vivo growth experiment over a 30-day period. Material and MethodsA randomized controlled trial with split-mouth design was set up enrolling 20 dental students. Within each subject sites with buccal and lingual brackets and control sites were followed. Clinical periodontal parameters (periodontal pocket depth: PPD; bleeding on probing: BOP) were recorded at baseline and on days 1, 7 and 30. Microbiological samples were taken from the brackets and the teeth on days 1, 7 and 30 to detect colony-forming units (CFU). Total CFU, streptococci CFU and anaerobe CFU were measured. ResultsNo significant differences (P>0.05) were found between buccal and lingual brackets in terms of clinical periodontal parameters and microbiological values. ConclusionBracket position does not have significant impact on bacterial load and on periodontal parameters.

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Dominant Role of Host Selective Pressure in Driving Hepatitis C Virus Evolution in Perinatal Infection

Manzin

Solforosi

Debiaggi³

et al. 2000

J Virol

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The dynamics of the genetic diversification of hepatitis C virus (HCV) populations was addressed in perinatal infection. Clonal sequences of hypervariable region 1 of the putative E2 envelope protein of HCV were obtained from four HCV-infected newborns (sequential samples spanning a period of 6 to 13 months after birth) and from their mothers (all samples collected at delivery). The data show that the variants detected between birth and the third month of life in samples from the four newborns were present in the HCV populations of their mothers at delivery. In the newborns, a unique viral variant (or a small group of closely related variants) remained stable for weeks despite active viral replication. Diversification of the intrahost HCV population was observed 6 to 13 months after birth and was substantially higher in two of the four subjects, as documented by the intersample genetic distance (GD) (P ‫؍‬ 0.007). Importantly, a significant correlation between increasing GD and high values for the intersample K a /K s ratio (the ratio between antonymous and synonymous substitutions; an index of the action of selective forces) was observed, as documented by the increase of both parameters over time (P ‫؍‬ 0.01). These data argue for a dominant role of positive selection for amino acid changes in driving the pattern of genetic diversification of HCV populations, indicate that the intrahost evolution of HCV populations is compatible with a Darwinian model system, and may have implications in the designing of future antiviral strategies.The high rate of persistent infections distinguishes hepatitis C virus (HCV) from other members of the family Flaviviridae. Since a large proportion of subjects infected with HCV develop clinical syndromes ranging from asymptomatic infection to chronic hepatitis, liver cirrhosis, and primary hepatocellular carcinoma (1,19,38), virus persistence is considered to be crucial for the pathogenic potential of HCV, but the mechanisms connected with this event have not yet been completely elucidated.In persistently infected hosts, the HCV genome is described as a dynamic population of heterogeneous, closely related variants designated quasispecies (13,15,17,26), suggesting that its intrahost variability is associated with virus persistence (35). Indeed, amino acid substitutions in crucial portions of the HCV envelope proteins may allow virus variants to evade the host's immune surveillance (12,15,39,42). Two hypervariable regions (HVR), designated HVR-1 and HVR-2, have been identified in the putative envelope-encoding E2 region of the HCV genome (5, 13, 17), and direct and indirect evidence suggests that the 27-amino-acid HVR-1 sequence located in the N-terminal portion of the HCV envelope protein is a dominant neutralizing epitope (8,33,45,46). Thus, the presence of populations of virions heterogeneous for the HVR-1 sequence within an infected individual may be a reason for the failure of specific anti-HCV antibodies and virus-specific cytotoxic T lymphocytes to clear the virus (7).Although...

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