Human metapneumovirus infections in hospitalized children (1). (Research).We evaluated the percentage of hospitalizations for acute respiratory tract infections in children <3 years of age attributable to human metapneumovirus (HMPV) and other respiratory viruses in a prospective study during winter and spring 2002. We used real-time polymerase chain assays and other conventional diagnostic methods to detect HMPV, human respiratory syncytial virus Human respiratory syncytial virus (RSV) is a negative-sense, single-stranded RNA virus of the family Paramyxoviridae, which includes common respiratory viruses such as those causing measles and mumps. (HRSV HRSV Human Respiratory Syncytial Virus ), and influenza viruses in nasopharyngeal nasopharyngeal pertaining to the nasal and pharyngeal cavities. nasopharyngeal meatus see nasopharyngeal meatus. nasopharyngeal spasm see reverse sneeze. aspirates of children. HMPV was detected in 12 (6%) of the 208 children hospitalized for acute respiratory tract infections, HRSV in 118 (57%), and influenza A influenza A n. Influenza caused by infection with a strain of influenza virus type A. influenza A Infectious disease An avian virus, especially of ducks–which in China live near the pig reservoir and 'vector'; in 49 (24%). Bronchiolitis Bronchiolitis Definition Bronchiolitis is an acute viral infection of the small air passages of the lungs called the bronchioles. Description Bronchiolitis is extremely common. was diagnosed in 8 (68%) and pneumonitis pneumonitis /pneu·mo·ni·tis/ (noo?mo-ni´tis) inflammation of the lung; see also pneumonia. hypersensitivity pneumonitis in 2 (17%) of HMPV-infected children; of those with HRSV infection, bronchiolitis was diagnosed in 99 (84%) and pneumonitis in 30 (25%). None of the HMPV-infected children was admitted to an intensive-care unit, whereas 15% of those with HRSV or influenza A infections were admitted. HMPV is an important cause of illness in young children with a similar, although less severe, clinical presentation to that of HRSV. ********** The human metapneumovirus (HMPV) is the first member of the new Metapneumovirus genus (Paramyxoviridae family) that infects humans (1,2). The human respiratory syncytial virus (HRSV) belongs to a separate genus within the same family (3). HMPV has been recently identified in nasopharyngeal aspirates of children and adults with acute respiratory tract infections (ARTI) in various parts of the world (1,4-7). The clinical syndrome of the infected children ranges from mild respiratory problems to bronchiolitis and pneumonitis (1,7-9). When reverse-transcription polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) has been used, the proportion of HMPV detected in nasopharyngeal aspirate as·pi·rate v. To take in or remove by aspiration. n. A substance removed by aspiration. Aspirate The removal by suction of a fluid from a body cavity using a needle. samples from children with unexplained ARTI has varied from 1.5% to 10% (1,4,7). However, most retrospective studies had limitations: for example, they were small, excluded patients who tested positive for other viruses, only superficially described the clinical features of the disease, and lacked data on illness severity and death. Moreover, in the absence of a control group, these studies could not differentiate whether HMPV was a colonizing or a pathogenic virus. More recently, Stockton et al. identified HMPV RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic in 2.2% of 405 specimens from patients with influenzalike illnesses who consulted general practitioners in England, although few swabs were collected from children <5 years of age (6). The objectives of this study were to estimate the relative contribution of HMPV in children's hospitalization for ARTI and to define its clinical features and seasonal pattern relative to other common respiratory viruses over a single winter season. Materials and Methods Study Design Participants were children [less than or equal to] 3 years of age who were hospitalized from December 15, 2001, to April 20, 2002, at Laval University Laval University, at Quebec, Que., Canada; Roman Catholic, coeducational, French language; chartered 1852, an outgrowth of a seminary established 1663 by Bishop Laval. In 1876 a branch was established in Montreal, which in 1919 became independent as the Univ. Hospital Center in Quebec City, Quebec, Canada. Case-patients were children admitted for an ARTI (mostly bronchiolitis, pneumonitis, and laryngotracheobronchitis) who had a nasopharyngeal aspirate collected as part of the investigation of their illness (in this hospital, collecting such samples is standard practice to assess the presence of HRSV in children). The research nurse at the microbiology laboratory that received the nasopharyngeal aspirate specimens identified eligible case-patients. Case-patients hospitalized twice were counted as two cases. A specific questionnaire for the study was completed at admission by a single research nurse with the parents. At the end of the hospitalization, the children's charts were reviewed to collect clinical and laboratory data by using a standardized protocol. Eligible controls were children hospitalized for any elective surgery elective surgery Surgery Any operation that can be performed with advanced planning–eg, cholecystectomy, hernia repair, colonic resection, coronary artery bypass who had no respiratory symptoms or fever. At admission, the nurse obtained a signed consent from parents and collected a nasopharyngeal aspirate (1-2 mL). The study was approved by the Centre Hospitalier Universitaire de Quebec research ethics Research ethics involves the application of fundamental ethical principles to a variety of topics involving scientific research. These include the design and implementation of research involving human participants (human experimentation); animal experimentation; various aspects of board. Laboratory Testing For this study, all specimens from case-patients and controls were tested by RT-PCR for HMPV, influenza A and B, and HRSV. Antigen detection for HRSV was performed for all case-patients immediately at admission. Viral cultures and other antigen detection assays were performed on request of the treating physician. The rest of the specimen was then frozen at -80[degrees]C until subsequent RTPCR RTPCR Reverse Transcriptase Polymerase Chain Reaction studies. RNA Extraction and RT-PCR Studies Viral RNA was extracted from 200 [micro]L of nasopharyngeal aspirate specimens by using the QIAamp viral RNA Mini Kit (QIAGEN, Inc., Mississauga, ON, Canada). Complementary cDNA was synthesized by using 10 [micro]L of eluted RNA and the Omniscript Reverse Transcriptase Reverse transcriptase Any of the deoxyribonucleic acid (DNA) polymerases present in particles of retroviruses which are able to carry out DNA synthesis using an RNA template. (QIAGEN). Random hexamer primers (Amersham Pharmacia Biotech, Bale d'Urfe, Quebec, Canada) were used in the RT step of all PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) assays, except for HMPV, in which a specific primer (5'-TGGGACAAGTGAAAATGTC-3') served to synthesize HMPV cDNA. PCR assays were designed to amplify conserved regions of influenza A (10), influenza B influenza B n. Influenza caused by infection with influenza virus type B. influenza B Infectious disease An influenza virus which causes epidemics in 3-5 yr cycles. Cf Influenza A, Influenza C. (11), and HRSV (12) genes. New PCR primers were designed for amplification of the HMPV N (nucleoprotein nucleoprotein Macromolecular complex consisting of a protein linked to a nucleic acid, either DNA or RNA. The proteins that combine with DNA are generally of characteristic types called histones and protamines. ) gene. The sequences of the forward and reverse primers were respectively 5'-GAGTCTCAGTACACAATTAA-3' and 5'-GCATTTCCGAGAACAACAC-3'. Complementary DNA complementary DNA n. cDNA. was amplified for all respiratory viruses by using a standardized RT-PCR protocol with the LC Faststart DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. Master SYBR Green SYBR Green I (SG) is an asymmetrical cyanine dye used as a nucleic acid stain in molecular biology. SYBR Green I binds to double-stranded DNA. The resulting DNA-dye-complex absorbs blue light (λmax = 498 nm) and emits green light (λmax 1 Kit (Roche Diagnostics Roche Diagnostics Division is a subsidiary of Hoffmann-La Roche which manufactures equipment and reagents for research and medical diagnostic applications. Internally, it is organized into six major business areas: Roche Applied Science, Roche Centralized Diagnostics, Roche , Laval, Quebec Laval (pronounced  ) is a city and a region in southwestern Quebec, Canada in the Greater Montreal Area. It is located on Île Jésus, across the Rivière des Prairies from Montreal. , Canada) in a LightCycler instrument (Roche Diagnostics). The
melting curve analysis program of the LightCycler was used to identify
specific PCR products. Each PCR assay could detect at least 50 copies of
viral target. For phylogenetic phy·lo·ge·net·icadj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. studies, nucleotide sequences were determined from amplified HMPV F (fusion) gene products, then analyzed by using the neighbor-joining algorithm and Kimura-2 parameters (9). Standard Viral Cultures and Antigenic Assays Specimens were injected onto 96-well plates containing l0 cell lines (MDCK MDCK Madin-Darby Canine Kidney Cells (virus tissue culture) , LLC-MK2, Hep-2, human foreskin foreskin /fore·skin/ (-skin) prepuce. hooded foreskin absence of the ventral foreskin, usually associated with hypospadias. fore·skin n. fibroblast fibroblast /fi·bro·blast/ (fi´bro-blast) 1. an immature fiber-producing cell of connective tissue capable of differentiating into chondroblast, collagenoblast, or osteoblast. 2. , Vero, mink lung, A-549, rhabdomyosarcoma rhabdomyosarcoma /rhab·do·myo·sar·co·ma/ (mi?o-sahr-ko´mah) a highly malignant tumor of striated muscle derived from primitive mesenchymal cells. , 293, and HT-29) and then incubated for 21 days. A positive cytopathic effect Cytopathic effect (CPE) refers to degenerative changes in cells (especially in tissue culture) associated with the multiplication of certain viruses. When in tissue culture, the spread of virus is restricted by an overlay of agar (or other suitable substance) and thus the was confirmed by immunofluorescence Immunofluorescence A technique that uses a fluorochrome to indicate the occurrence of a specific antigen-antibody reaction. The fluorochrome labels either an antigen or an antibody. testing with monoclonal antibodies This is a list of monoclonal antibodies, antibodies which are clones of a single parent cell. When used as medications, the generic names end in -mab (see "Nomenclature of monoclonal antibodies"). or by RT-PCR (HMPV) (9). Detection of HRSV and influenza antigens was performed directly on nasopharyngeal aspirate samples by using commercially available immunoenzymatic assays (RSV RSV respiratory syncytial virus; Rous sarcoma virus. RSV abbr. respiratory syncytial virus RSV 1 Respiratory syncytial virus, see there 2 Rous sarcoma virus, see there TestPack, Abbott Laboratories Abbott Laboratories (NYSE: ABT) is a diversified pharmaceuticals and health care company. It has over 65,000 employees and operates in 130 countries. The corporate headquarters are in Abbott Park, Illinois, a neighborhood of North Chicago, Illinois. , Abbott Park, IL; Directigen Flu A + B, Becton Dickinson BD (NYSE: BDX), is a medical technology company that manufactures and sells medical devices, instrument systems and reagents. Founded in 1897 and headquartered in Franklin Lakes, New Jersey, BD employs 27,000 people in nearly 50 countries. Microbiology Systems, Sparks, MD). Viral antigens for adenoviruses and parainfluenza viruses 1-3 were sought in specimens by an immunofluorescence method with specific monoclonal antibodies (9). HMPV in the General Population To further assess the seasonal distribution, affected age groups, and frequency of HMPV, we compared data from this study with data from the general population using positive viral cultures reported by our regional virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression diagnostic laboratory, the only one performing viral cultures for the Quebec City area (population 600,000). Isolation of HMPV was achieved by observing typical cytopathic effect on LLC-MK2 cells, followed by PCR confirmation on infected cell culture supernatants (9). Statistical Analyses The Wilcoxon nonparametric test was used to compare the age distribution of case-patients and controls and period of hospitalization. The proportion of cases and controls with HMPV infections and the clinical features of children infected with HMPV versus those infected with other respiratory viruses were compared by the chi-square test chi-square test: see statistics. or the Fisher exact test. Analyses were performed by using SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. software version 8.02 (SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. , Inc., Cary, NC). Results Study Population and Viral Etiologic Agents The study population included 208 hospitalized case-patients with ARTI (including 8 children who were admitted twice) and 51 children who served as controls. The age distribution of case-patients and controls is presented in Figure 1. Infants [less than or equal to] 3 months of age were most likely to be hospitalized, and the rate of hospitalizations steadily decreased in children >3 months. The mean age was slightly younger for case-patients than for controls (mean 9 months vs. 12 months, Wilcoxon test Wilcoxon test a test used in statistics to compare paired data. Has the advantage of incorporating the size of the difference between the two sets of data in the comparison. p=0.06). Among cases with ARTI, 56% were male as were 57% of controls (p=0.88). The date of hospitalization was similar for case-patients and controls (p=0.84) (Figure 2). Most children (90%) had no underlying medical conditions at admission. [FIGURES 1-2 OMITTED] A nasopharyngeal aspirate sample was taken for all 208 case-patients and 51 controls. For case-patients, the mean delay between the onset of symptoms and collection of nasopharyngeal aspirates was 6 days (median 4 days) (Table 1). This delay did not differ for the different viruses detected. Samples from all 208 case-patients were tested by PCR for HMPV, HRSV, and influenza A and B; 204 samples were tested for HRSV antigen; 172 were assayed for other viral antigens; and 145 were tested by viral culture for the whole panel of respiratory viruses (as ordered by the treating physician). At least one respiratory virus was detected by one of the above methods in 164 (78.8%) cases, whereas none was detected in 44 (21.2%). Combining these diagnostic techniques, 12 cases (5.8%) were positive for HMPV, 118 (56.7%) for HRSV, 49 (23.6%) for influenza A, and none for influenza B (Table 1). In contrast, a virus was not detected by PCR in any of the control samples (p=0.067 for HMPV, one-sided Fisher exact test). PCR testing was not done for adenoviruses and parainfluenza viruses, but these viruses were respectively found in 6/145 (4.1%) and 2/145 (1.3%) of tested case-patients by the use of viral cultures or antigenic assays. Single virus infections occurred in 141 (86.0%) of the 164 positive case-patients, and mixed infection was found in 23 (14.0%). Two of the 12 HMPV infections were mixed (HMPV-influenza and HMPV-HRSV). The other combinations were HRSV--influenza A (18 cases), HRSV-adenovirus (2), and influenza A-adenovirus (1). Among the 208 case-patients tested by PCR for HMPV, HRSV, and influenza A and B viruses, the positivity rates were 5.8%, 51.0%, 21.6%, and 0%, respectively (Table 1). In addition, 16 other case-patients had one of these four respiratory viruses identified only by culture (one influenza A and one HRSV), only by an antigen detection test (nine HRSV and three influenza A), or by both culture and antigen detection test (two HRSV). Among the eight children who were hospitalized twice, none had the same viral infection viral infection, n an infection by a pathogenic virus. A virus acts on the cell nucleus, taking over the genetic material within the nucleus and replicating itself. at both admissions. The specific combinations observed were HMPV-HRSV (two), HMPV--no virus (one), HRSV--no virus (two), HRSV-influenza (two), no virus-no virus (one). The biweekly distribution of cases with respiratory tract respiratory tract n. The air passages from the nose to the pulmonary alveoli, including the pharynx, larynx, trachea, and bronchi. Respiratory tract viruses is shown in Figure 2. HRSV and influenza A infections occurred predominantly from January to March, whereas HMPV infections occurred mostly in March and April. The proportion of children with virologically confirmed respiratory tract infections decreased after February. Clinical Features of Cases Given the small number of HMPV cases, the results only suggest trends, as no statistical comparison reached significance. The peak age for hospitalized HMPV infection was 3-5 months, whereas it was 0-2 months for HRSV infection (Figure 1). Influenza A virus infection occurred evenly throughout the first year of life. The peak age for mixed infection was 6-11 months; the frequency of such infections decreased thereafter. Gender was distributed evenly within each virus group, but more males (70%) had mixed viral infections. Most (75% with HMPV, 93% with HRSV, 90% with influenza A virus infection) of the children in the etiologic agent groups had no underlying medical conditions. Three (25%) children with HMPV infection had a cardiac disorder, including one child with multiple medical problems. Signs and symptoms recorded with the different respiratory viruses were similar (Table 2). The median duration of hospitalization was similar for HMPV, HRSV, and influenza A viruses being respectively 4.5, 5.0, and 4.0 days (p=0.85). Of note, four (33.3%) HMPV-infected children were hospitalized for >7 days, including one child with underlying conditions. None of the children with HMPV infection was admitted to the intensive-care unit (ICU ICU intensive care unit. ICU abbr. intensive care unit ICU see intensive care unit. ICU ) in contrast to 15% (p=0.22) with HRSV and 16% (p=0.34) with influenza A infections. None of the children in this study died. The duration of the hospitalization for children with no detectable virus was shorter than that for children with single or mixed infection (Wilcoxon test, p <0.001). Two thirds of the children were given antibiotics during their hospitalization, although almost none had specimens collected for bacterial cultures. At hospital discharge, a final diagnosis of bronchiolitis was given to 67% of children with HMPV, 84% with HRSV, and 51% with influenza A (p <0.001) (Table 3). Otitis media Otitis Media Definition Otitis media is an infection of the middle ear space, behind the eardrum (tympanic membrane). It is characterized by pain, dizziness, and partial loss of hearing. occurred in about half of the children with HMPV, HRSV, and influenza A virus infections. Pneumonitis was less frequently diagnosed in children with HMPV compared to those with HRSV or influenza A (17%, 25%, and 37%; p=0.22). Definitive clinical diagnoses were similar with single and mixed infections. HMPV in the General Population The regional virology laboratory received 1,505 respiratory specimens for viral culture from January 1 to June 30, 2002. In total, 36 (including 2 study participants) or 2.9% were positive for HMPV: 24 (67%) in children <2 years of age, 5 (14%) in those 2 to 4 years of age, 4 (11.1%) in adults 30-49 years of age, and 3 (8%) in those [greater than or equal to] 70 years of age. No clinical information was available from these cases. Most isolates (81%) were recovered over a 2-month period (from March 23 to May 18). When the seasonal distributions of HMPV in hospitalized children (study population) and in the general population were compared, we found that the study did not cover the entire HMPV season and that it had been stopped just after the peak time of HMPV transmission (April 6-20) (Figure 3). [FIGURE 3 OMITTED] Phylogenetic Analyses of HMPV Strains The 12 HMPV strains detected in hospitalized children (study population) clearly clustered into two F lineages as previously reported (1,5,9); nine strains belonged to group 1 (which includes the prototype strain from the Netherlands, GenBank accession no. af371337) and three to group 2 (Figure 4). Seven of the nine group 1 strains had identical F gene sequences although they were not temporally related. At the nucleotide level, similarity between groups was 84% to 85%, compared to 98% to 100% within group 1 and 93% to 99% similarity within group 2, respectively. [FIGURE 4 OMITTED] Discussion Our prospective study has shown important clinical and epidemiologic features of HMPV infection. First, our data indicate that HMPV is really a respiratory pathogen with an epidemic behavior. Second, we found that HMPV substantially contributes to ARTI that leads to children's hospitalization, although in smaller proportion than HRSV and influenza viruses. Although all specimens from this study were tested by PCR, only a subset was studied by viral culture. However, such incomplete virologic testing should not have significantly affected the rate of HMPV infection as evidenced by the absence of additional cases detected by culture. Third, the clinical features associated with HMPV were found to be similar to those of HRSV. Finally, our results suggest that the seasonal pattern of HMPV infection in children may differ from that of HRSV and influenza viruses although additional studies are needed because of our relatively short period of observation. Recent studies by our group (8,9)and others (1,4,6,7) have suggested that HMPV should be added to the list of human respiratory viral pathogens (13-18) affecting mainly children, but also other age groups as well. Although the difference in HMPV positivity between our 208 case-patients and 51 controls was not statistically significant (p=0.067), the absence of other respiratory viruses such as HRSV and influenza viruses in 83% of the HMPV-infected children and the severity of the symptoms (bronchiolitis, pneumonitis, or both) suggest that HMPV is a pathogenic respiratory virus. The absence of underlying medical conditions in 75% of the HMPV-infected children further illustrates the pathogenicity of HMPV. The use of PCR was particularly advantageous for HMPV detection because this virus is fastidious fas·tid·i·ous adj. 1. Possessing or displaying careful, meticulous attention to detail. 2. Difficult to please; exacting. 3. Having complex nutritional requirements. Used of microorganisms. and difficult to grow in most cell lines (9); in addition, rapid antigenic detection tests are not currently available. Our prospective study provides for the first time an estimate of the proportion of ARTI hospitalizations attributable to HMPV in a well-defined pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. population. From December 15 to April 20, 2002, HMPV was detected in 12 (6%) of 208 children [less than or equal to] 3 years of age who were hospitalized for respiratory tract infections. This probably underestimates the real impact of this virus because our hospitalization study was stopped before the end of HMPV transmission in the community. However, the percentage of hospitalizations caused by HMPV during the study period was much smaller than that attributable to HRSV or influenza A. Our data are comparable to those of a recent small study from Finland in which HMPV was detected in 8% of children (age range, 4 months to 13.5 years) admitted for acute wheezing Wheezing Definition Wheezing is a high-pitched whistling sound associated with labored breathing. Description Wheezing occurs when a child or adult tries to breathe deeply through air passages that are narrowed or filled with mucus as a (7). Our study found that HMPV disease cannot be distinguished from HRSV and influenza A on clinical findings. However, HMPV disease tended to be somewhat less severe with fewer cases of pneumonia, no admission in the ICU, and a greater proportion of underlying diseases (25%) among infected patients compared with <10% for HRSV or influenza. Nevertheless, HMPV infection was associated with a substantial clinical and economic impact as shown by a median hospital stay of 4.5 days and by the observation that one-third of HMPV-infected case-patients were hospitalized for >7 days. A small serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. study from the Netherlands showed that all children >5 years of age had HMPV antibodies, which suggests a high level of transmission (1). While our study data were limited to children <3 years of age, they suggest that illness caused by HMPV is greatest in children <2 years of age because they represented 10 (83%) of our 12 hospitalized case-patients and 24 (66%) of the 36 HMPV isolates recovered in our diagnostic virology laboratory. This finding suggests that, similar to other paramyxoviruses such as HRSV, the most severe HMPV infections occur through primary infection in young children. In contrast to HRSV, which peaked during the first 2 months of life, HMPV hospitalizations seem to peak in children at a slightly older age, i.e., between the third and fifth month of life. However, given the small number of HMPV cases, this observation needs to be confirmed in a larger study. Should the same trend be observed, this difference may depend on a longer persistence of maternal antibodies or a less efficient transmission mode in the case of HMPV. Both hypotheses would require additional studies. During the 4-week period from mid-March to mid-April, HMPV infections clustered (11/12 cases) and were associated with 18.9% of all hospitalizations for ARTI in children at our institution. These findings contrast with those for HRSV and influenza A infections, which occurred mostly in January and February. On the basis of passive surveillance data from our regional virology laboratory, the peak time of HMPV transmission in the community occurred between April 6 and 20, 2002, and continued beyond the conclusion of our study in hospitalized children until the end of May. Although incomplete, such data suggest that seasonal outbreaks of HMPV may differ from those of other common respiratory viruses. As described for HRSV (12), several strains of HMPV circulated during a very brief period (1 month) in our study area. The HMPV strains segregated into two F subgroups, in agreement with previous studies (1,5,9), although one strain clearly predominated, accounting for 58.3% of all infections. Because of the small number of HMPV strains belonging to one of the F subgroup, we did not attempt to correlate HMPV genotype with clinical outcome. Such viral heterogeneity may allow multiple reinfections throughout life, especially in elderly persons and immunocompromised immunocompromised /im·mu·no·com·pro·mised/ (-kom´pro-mizd) having the immune response attenuated by administration of immunosuppressive drugs, by irradiation, by malnutrition, or by certain disease processes (e.g., cancer). patients, as we previously reported (8,9). In conclusion, our study supports the concept of the epidemic nature of HMPV infection and its role as a significant pathogen in severe ARTI of children. Year-long active surveillance studies on consecutive years and in different geographic regions are needed to better define the epidemiology of HMPV.
Table 1. Type of laboratory confirmation by type of infection
HMPV (a) HRSV
No. Positive No. Positive
Laboratory test tests (%) tests (%)
PCR 208 12 (5.8) 208 106 (51.0)
Culture 145 2 (1.4) 145 37 (25.5)
Antigen detection NA NA 204 94 (46.1)
Total (+) in at least one test 12 (5.8%) 118 (56.7)
Delay between onset of symptoms
and NPA, days; mean/median 6.3/5.0 5.2/4.0
Influenza Adenovirus
No. Positive No. Positive
Laboratory test tests (%) tests (%)
PCR 208 45 (21.6) NA NA
Culture 145 10 (6.9) 145 6 (4.1)
Antigen detection 172 19 (11.0) 81 1 (1.2)
Total (+) in at least one test 49 (23.6) 6 (4.1)
Delay between onset of symptoms
and NPA, days; mean/median 8.7/5.0 6.0/6.5
PIV 2
Test Positive
Laboratory test done (%)
PCR NA NA
Culture 145 1 (0.7%)
Antigen detection 76 1 (1.3%)
Total (+) in at least one test 2 (1.3%)
Delay between onset of symptoms
and NPA, days; mean/median 3.0/3.0
(a) HMPV, human metapneumovirus; HRSV, human respiratory syncytial
virus; PIV, parainfluenza virus; NPA, nasopharyngeal aspirate; PCR,
polymerase chain reaction; NA, not applicable.
Table 2. Signs and symptoms by type of viral infection
% Influenza % Single
Signs and % HMPV (a), % HRSV, A, virus,
symptoms n=12 n=118 n=49 n=141
Fever 67 57 78 60
Cough 100 99 96 98
Rhinorrhea 92 91 84 87
Retractions 92 95 82 89
Wheezing 83 65 57 59
Lacrymation 25 31 31 33
Diarrhea 8 17 27 17
Vomiting 25 8 10 7
Other 0 26 18 23
% Multiple % No virus
Signs and viruses, detected, % Total,
symptoms n=23 n=44 n=208
Fever 74 57 61
Cough 100 90 97
Rhinorrhea 96 96 90
Retractions 96 89 89
Wheezing 83 71 64
Lacrymation 26 25 30
Diarrhea 22 23 19
Vomiting 17 2 7
Other 17 21 22
(a) HMPV, human metapneumovirus; HRSV, human respiratory syncytial
virus. Given the small number of HMPV cases, the results only suggest
trends, as no statistical comparison reached significance.
Table 3. Definitive clinical diagnoses by type of viral infection
% Single
% HMPV, (a) % HRSV, % Influenza virus,
Complication n=12 n=118 A, n=49 n=141
Bronchiolitis 67 84 51 70
Pneumonia 17 25 37 28
Laryngotracheobronchitis 0 10 12 8
Otitis 50 59 55 55
Sinusitis 0 3 6 1
Pharyngitis 0 1 0 1
Flu syndrome 0 2 0 1
Other 8 3 6 6
% Multiple % No virus
viruses, detected, % Total,
Complication n=23 n=44 n=208
Bronchiolitis 83 57 68
Pneumonia 30 27 28
Laryngotracheobronchitis 17 5 8
Otitis 65 55 56
Sinusitis 9 2 2
Pharyngitis 0 5 2
Flu syndrome 0 9 3
Other 0 11 7
(a) HMPV, human metapneumovirus; HRSV, human respiratory syncytial
virus. Given the small number of HMPV cases, the results only suggest
trends, as no statistical comparison reached significance.
Acknowledgments We acknowledge the Regional Virology Laboratory of Laval University for providing viral culture results. This study was supported by the Canadian Institutes of Health Research Canadian Institutes of Health Research (CIHR) is the major federal agency responsible for funding health research in Canada. It is the successor to the Medical Research Council of Canada. (DOP-52190) and by the "Fonds de la recherche en sante du Quebec" (FRSQ FRSQ Fonds de la Recherche en Santé du Québec )---Respiratory Health Network. Guy Boivin and Gaston De Serres are senior and junior FRSQ research scientists, respectively. None of the authors had a conflict of interest. (1) This study was presented in part at the 42nd International Conference on Antimicrobial Agents and Chemotherapy Antimicrobial Agents and Chemotherapy (print-ISSN 0066-4804, CODEN AMACCQ; canceled ISSN 0074-9923, canceled CODEN AACHAX) is an academic journal published by the American Society for Microbiology. , September 27, 2002, San Diego, California “San Diego” redirects here. For other uses, see San Diego (disambiguation). San Diego is a coastal Southern California city located in the southwestern corner of the continental United States. As of 2006, the city has a population of 1,256,951. . References (1.) van den Hoogen BG, de Jong JC, Groen J, Kuiken T, de Groot R, Fouchier RA, et al. A newly discovered human pneumovirus isolated from young children with respiratory tract disease. Nat Med 2001;7:719-24. (2.) van den Hoogen BG, Bestebroer TM, Osterhaus AD, Fouchier RA. Analysis of the genomic sequence of a human metapneumovirus. Virology 2002;295:119-32. (3.) Taxonomy V. Seventh report of the International Committee on Taxonomy of Viruses The International Committee on Taxonomy of Viruses (ICTV) is a committee which authorizes and organizes the taxonomic classification of viruses. They have developed a universal taxonomic scheme for viruses and aim to describe all the viruses of living organisms. . San Diego: Academic Press; 2000. 4. Nissen MD, Siebert DJ, Mackay IM, Sloots TP, Withers withers the region over the backline where the neck joins the thorax and where the dorsal margins of the scapulae lie just below the skin. fistulous withers see fistulous withers. SJ. Evidence of human metapneumovirus in Australian children. Med J Aust 2002;176:188. (5.) Peret TC, Boivin G, Li Y, Couillard M, Humphrey C, Osterhaus AD, et al. Characterization of human metapneumoviruses isolated from patients in North America. J Infect Dis 2002; 185:1660-3. (6.) Stockton J, Stephenson I, Fleming D, Zambon M. Human metapneumovirus as a cause of community-acquired respiratory illness. Emerg Infect Dis 2002;8:897-901. (7.) Jartti T, van den Hoogen B, Garofalo RP, Osterhaus AD, Ruuskanen O. Metapneumovirus and acute wheezing in children. Lancet 2002;360:1393-4. (8.) Pelletier G, Dery P, Abed Y, Boivin G. Respiratory tract reinfections by the new human metapneumovirus in an immunocompromised child. Emerg Infect Dis 2002;8:976-8. (9.) Boivin G, Abed Y, Pelletier G, Ruel L, Moisan D, Cote S, et al. Virological virological pertaining to viruses. features and clinical manifestations associated with the human metapneumovirus, a new paramyxovirus Paramyxovirus A subgroup of myxoviruses that includes the viruses of mumps, measles, parainfluenza, respiratory syncytial (RS) disease, and Newcastle disease. responsible for acute respiratory tract infections in all age groups. J Infect Dis 2002; 186:1330-4. (10.) Fouchier RA, Bestebroer TM, Herfst S, Van Der Kemp L, Rimmelzwaan GF, Osterhaus AD. Detection of influenza A viruses from different species by PCR amplification of conserved sequences in the matrix gene. J Clin Microbiol2000;38:4096-101. (11.) Li J, Chen S, Evans DH. Typing and subtyping influenza virus using DNA microarrays and multiplex reverse transcriptase PCR RT-PCR is a one or two-step process for converting RNA to DNA and the subsequent amplification of the reversely-transcribed DNA. In the first step of RT-PCR, called the “first strand reaction,” complementary DNA (cDNA) is made from an mRNA template using . J Clin Microbiol2001;39:696-704. (12.) Mazzulli T, Peret TC, McGeer A, Cann D, MacDonald KS, Chua R, et al. Molecular characterization of a nosocomial nosocomial /noso·co·mi·al/ (nos?o-ko´me-il) pertaining to or originating in a hospital. nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. outbreak of human respiratory syncytial virus on an adult leukemia/lymphoma ward. J Infect Dis 1999; 180:1686-9. (13.) Dowell SF, Anderson LJ, Gary HE, Jr., Erdman DD, Plouffe JF, File TM, Jr., et al. Respiratory syncytial virus respiratory syncytial virus (sĭnsĭsh`əl): see cold, common. is an important cause of community-acquired lower respiratory infection Noun 1. lower respiratory infection - infection of the lower respiratory tract respiratory infection, respiratory tract infection - any infection of the respiratory tract among hospitalized adults. J Infect Dis 1996;174:456-62. (14.) Simonsen L, Fukuda K, Schonberger LB, Cox NJ. The impact of influenza epidemics on hospitalizations. J Infect Dis 2000;181:831-7. (15.) Han LL, Alexander JP, Anderson LJ. Respiratory syncytial virus pneumonia among the elderly: an assessment of disease burden. J Infect Dis 1999;179:25-30. (16.) Neuzil KM, Mellen BG, Wright PF, Mitchel EF, Jr., Griffin MR. The effect of influenza on hospitalizations, outpatient visits, and courses of antibiotics in children. N Engl J Med 2000;342:225-31. (17.) Simoes EA. Respiratory syncytial virus infection Respiratory Syncytial Virus Infection Definition Respiratory syncytial virus (RSV) is a virus that can cause severe lower respiratory infections in children under the age of two, and milder upper respiratory infections in older children and adults. . Lancet 1999;354:847-52. (18.) Treanor JJ. Respiratory Infections. In: Richman DD, Whitley, RJ, Hayden FG, editors. Clinical virology. Vol. 1. Washington: ASM (1) (Association for Systems Management) An international membership organization based in Cleveland, Ohio. Founded in 1947 and disbanded in 1996, it sponsored conferences in all phases of administrative systems and management. Press; 2002. p.7-26. Address for correspondence: Guy Boivin, Centre Hospitalier Universitaire de Quebec (CHUL CHUL Centre Hospitalier de l'Université Laval (Québec, Canada) ), Room RC-709, 2705 Blvd. Laurier, Sainte-Foy, QC, Canada, G1V 4G2; fax: (418) 654-2715; email: Guy. Boivin@crchul.ulaval.ca Guy Boivin, * [dagger] Gaston De Serres, [dagger][double dagger] Stephanie Cote, * [dagger] Rodica Gilca, [dagger][double dagger] Yacine Abed, * [dagger] Louis Rochette, [dagger][double dagger] Michel G. Bergeron, * [dagger] and Pierre Dery * [dagger] * Centre Hospitalier Universitaire de Quebec, Ouebec City, Quebec, Canada; [dagger] Laval University, Quebec City, Quebec, Canada; [double dagger] Quebec Institute of Public Health, Quebec City, Quebec, Canada Dr. Boivin is an infectious disease Infectious disease A pathological condition spread among biological species. Infectious diseases, although varied in their effects, are always associated with viruses, bacteria, fungi, protozoa, multicellular parasites and aberrant proteins known as prions. specialist and virologist virologist microbiologist specializing in virology. at the Centre Hospitalier Universitaire de Queebec. He is also an associate professor of microbiology at Laval University, Quebec City, Quebec, Canada. His main research interests include the rapid diagnosis of respiratory viruses and the mechanisms of antiviral drug resistance for herpesviruses Herpesviruses A family of viruses responsible for cold sores, chicken pox, and genital herpes. Mentioned in: Skin Resurfacing . |
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