key: cord-0941755-pt9py4lj
authors: Akhras, Nour; Weinberg, Jason B.; Newton, Duane
title: Human metapneumovirus and respiratory syncytial virus: subtle differences but comparable severity
date: 2010-08-11
journal: Infect Dis Rep
DOI: 10.4081/idr.2010.e12
sha: c3d3ee0b012a09d8de42c13d046f42ebd291e76e
doc_id: 941755
cord_uid: pt9py4lj

Human metapneumovirus (hMPV) is a recently discovered virus that causes respiratory illness in children that can lead to hospitalization. Our study was undertaken to further understand hMPV-associated illness, compare clinical characteristics of hMPV and respiratory syncytial virus (RSV), and establish the utility of routine screening for hMPV. We retrospectively identified hMPV-associated illnesses described among children with respiratory symptoms admitted to a tertiary care center in southeast Michigan during the 2006–2007 respiratory viral season. A convenience sample of 256 nasopharyngeal specimens was subjected to nucleic acid extraction and amplification to identify those specimens positive for hMPV. A medical record review was undertaken to retrieve demographic and clinical data of patients with hMPV, comparing them to RSV-positive patients and patients evaluated for respiratory symptoms who were negative for hMPV and RSV. We found that hMPV was the second most commonly identified virus after RSV. hMPV-positive patients were older than RSV-positive patients. Among hMPV-positive patients, pneumonia was diagnosed in 37.5% and bronchiolitis in 31.2%, peribronchial cuffing was present on chest radiographs of 37.5%, antibiotic treatment was used in 81.2%, and admission to the ICU was seen in 37.5%. Finally, hMPV-positive patients were more likely to have fever than RSV-positive patients or patients negative for hMPV and RSV. We concluded that hMPV is a major pathogen associated with hospitalization of children and with the same severity of illness as RSV but in a slightly older population. Because of the apparent prevalence and severity of illness, routine screening should be implemented.

Human metapneumovirus (hMPV) is an RNA virus in the Pneumovirinae subfamily of the Paramyxoviridae family that was first isolated in the Netherlands in 2001 1 and has subsequently been identified worldwide. [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] It has been implicated as a significant cause of hospitalization for young children, 1 second only to respiratory syncytial virus (RSV) in infants hospitalized with acute respiratory infections (ARIs). 15 hMPV has been detected in 1.5-43.0% of patients with ARIs. 5 While it circulates predominantly in the winter, infections have been reported year-round [16] [17] [18] and the incidence varies yearly. 5, [18] [19] [20] [21] Seroprevalence studies have shown that almost all children over five years of age have evidence of past infection. 22 Past infection with hMPV is thought to confer only partial immunity to subsequent infections. 2, 13, 14 Clinical syndromes associated with hMPV infection are similar to those of RSV infection, 4, 23 ranging from mild upper respiratory tract infections to wheezing and severe lower respiratory tract infections requiring mechanical ventilation. 2, 11, [23] [24] [25] [26] Rare cases of fatalities have been associated with hMPV 11, [27] [28] [29] [30] and it has been implicated in a handful of cases of encephalitis. 12, 31, 32 Although hMPV infections have been diagnosed in adults, their greatest impact occurs in children. 33 A significant association with hMPV and wheezing is seen in young children, 23, 34, 35 and hMPV has been linked to apparent life-threatening events in infants. 25 hMPV has been associated with ARIs with super-infections as a result of Staphylococcus aureus and Streptococcus pneumoniae. 2 To begin to understand the impact of hMPV on our institution, we analyzed children admitted to our tertiary care center in southeast Michigan with respiratory symptoms during the respiratory season of 2006-2007 through an observational, retrospective study. The primary purposes of our study were to establish the utility of testing for hMPV in children who were admitted to our hospital during the respiratory virus season and to compare the impact of hMPV and RSV on the healthcare system.

We identified a convenience sample of 256 nasopharyngeal (NP) specimens from children younger than 18 years of age admitted with respiratory symptoms between November 1, 2006 and May 31, 2007 . The specimens were obtained by a NP wash or swab based on the admitting physician's discretion. After routine testing by direct fluorescent antibody (DFA) and/or culture for RSV, parainfluenza viruses 1-3, influenza viruses A and B, adenovirus, and rhinovirus, the NP specimens were frozen at -70°C and later subjected to nucleic acid extraction using the EasyMag system (bioMérieux, Durham, NC, USA) and following the manufacturer's protocol with slight modifications. Two hundred microliters of each specimen were pre-treated with 20 units of DNase (New England Biolabs, UK) at 37°C for 45 min before extraction. Extracts were used as the template for detection of hMPV using the NucliSense real-time analyte specific reagent (ASR) assay performed on the EasyQ instrument (bioMérieux). A proprietary internal control containing the same primer binding sites as the hMPV target with unique internal sequences targeted by a separate molecular beacon probe were spiked into each specimen before extraction to monitor amplification integrity.

Respiratory specimen testing data were linked to patient demographic and clinical data. Laboratory personnel were blinded to the clinical data and the clinical investigator was blinded to the laboratory results. Only the first specimen from which a virus was identified per admission was considered. The c 2 -test was used for analysis of categorical variables, comparing hMPV-positive patients to RSV-positive patients as well as patients who were negative for both hMPV and RSV. The Student's t-test was used for an analysis that compared continu ous variables. Data were analyzed using SPSS version 16.0 for Windows.

Of the 256 specimens, RSV was identified in 52 (20.3%), hMPV in 18 (7.0%), influenza in 9 (3.5%), rhinovirus in 5 (2.0%), parainfluenza in 8 (3.1%), and adenovirus in 4 (1.6%). Three specimens had co-infections: hMPV and RSV in two and RSV and influenza A in one. hMPV was detected primarily in specimens collected between January and March (83.4%), while RSV was uniformly detected in those from November through February and then decreased into May. No hMPV was detected in specimens obtained in April and May ( Figure  1 ). Because the primary goal of our study was to compare patients with hMPV to those with RSV, and because the number of patients with isolated viruses other than hMPV or RSV was low, cases with viruses other than hMPV or RSV and those with no specific virus isolated were combined as a separate group for the additional analyses detailed in the following section.

While several studies have shown that hMPV occurs more in older children than does RSV, other reports showed no difference in age predilection, gender predominance, or presence of underlying medical disorders. 23, 36 In our study, the majority of hMPV-positive patients were aged 13-24 months (n=7, 43.8%), whereas most RSV-positive patients (n=35; 71.4%) were younger than 12 months of age (P<0.01). No statistical significance in gender predomin ance was found. The proportion of children with underlying medical disorders was similar across all three groups. Underlying medical disorders considered were prematurity, chronic lung disease, bronchopulmonary dysplasia, asthma, congenital heart disease, congestive heart failure, immunosuppression, immunodeficiencies, hematological and solid organ malignancies, diabetes, and renal failure. We also found that children attending daycare or school were not at increased risk of being positive for hMPV or RSV or for having a respiratory illness not associated with either of these viruses (Table 1) .

hMPV has previously been reported to be a rare cause of community-acquired pneumonia. 37 We found that hMPV-positive patients were more likely to be diagnosed with pneumonia (37.5%) than were the other two groups (14%, P=0.04 for RSV-positive, P=0.02 for negative for both hMPV and RSV). In addition, hMPV-positive patients were equally likely to be diagnosed with bronchiolitis as were RSV-positive children (approximately 30%) but less likely than children with respiratory symptoms who were negative for hMPV and RSV (11%, P=0.02). In our study, the rate of abnormal chest radiographs was comparable in all three groups, but peribronchial cuffing was more likely to be present in hMPV-positive patients than in the other two groups ( Table 2) .

In order to compare severity of illness across the three patient populations, we examined their hospital course. Mean duration of hospital stay was 6 days (range 1-37 d) for hMPVpositive patients, 6 days (range 1-112 d) for RSV-positive patients, and 12 days (range 1-117 d) for patients negative for hMPV and RSV (P=0.83 for hMPV vs. RSV; P=0.06 for hMPV vs. negative for hMPV and RSV). hMPV-positive patients were more likely to be treated with antibiotics than were RSV-positive patients (81.2% vs. 51.0%, P=0.03) and were more likely to be admitted to the intensive care unit (ICU) (37.5% vs. 12.2%, P=0.02). hMPV-positive patients were as likely to require oxygen supplementation, mechanical ventilation, and steroid use as were RSV-positive patients ( Table 2) . Infections with hMPV and RSV have been reported to be clinically indistinguishable, 23, 36 but subtle differences were identified in our study. The most common presenting symptom for hMPV-positive patients was fever, which occurred more often in hMPV-positive patients than in the other two patient populations. hMPV-positive patients were also more likely than patients negative for hMPV and RSV to have decreased urine output (Table 3 ; 43.8% vs. 14.4%, P<0.01). On physical examination, hMPV-positive patients were more likely than RSV-positive patients to exhibit focal decreased breath sounds (18.8% vs. 2.0%, P=0.01) and were more likely than patients negative for hMPV and RSV to exhibit signs of otitis media (18.8% vs. 4.8%, P=0.02). Otherwise, there were no differences in the signs and symptoms noted in hMPV + and RSVpositive patients (Table 4 ).

hMPV was the second most commonly identified respiratory virus during the respiratory season of 2006-2007 in our study. Our results confirm the previous findings that children with symptomatic hMPV infection are older than those infected with RSV, 2,6 possibly because of differences in the upper respiratory tract or lung anatomy of older children that allow for hMPV acquisition. In our study, school and/or daycare attendance was not identified as a risk factor for hMPV acquisition.

Although a previous report 37 found that hMPV is a rare cause of community-acquired pneumonia among hospitalized patients (4.9%), 37.5% of our hMPV-positive patients were admitted with a diagnosis of pneumonia. This difference is likely because of a requirement of three independent radiologists' interpretations of the radiographs in the earlier study compared to the diagnosis of one admitting physician in our study. hMPV-positive patients were more likely than the other two groups to have peribronchial cuffing on their chest radiographs, evidence suggesting that these patients have interstitial edema, likely a result of the disruption of the respiratory epithelial structure and inflammation that hMPV has been shown to cause in animal studies. 38 hMPV may have a stronger predilection for the respiratory epithelial cells than RSV, corroborated by reports that hMPV-positive patients frequently exhibited signs of otitis media. 33 Further research is needed on the pathogenesis of hMPV in humans, specifically regarding the ability of hMPV to infect human respiratory epithelial cells compared to RSV and other viruses. The present study demonstrates, as previously reported, 23 that hMPVpositive patients were as likely to be severely ill as were RSV-positive patients. In fact, in our study, hMPV-positive patients were more likely than RSV-positive patients to be admitted to the ICU even though they were not more likely to have an underlying medical illness. In addition, hMPV-positive patients were more likely than were RSV-positive patients to receive antibiotics. During the study time period, our institution did not routinely test specimens for hMPV. Physicians may have used antibiotics more often in patients only retrospectively shown to be hMPV-positive because they were not aware of a specific virus contributing to these patients' illnesses. The finding of increased antibiotic use in children with other ARIs, most of whom had negative viral cultures, corroborates this suggestion. It is also possible that the increased diagnosis of pneumonia in the hMPV-positive patients contributed to the increased use of antibiotics. Routine diagnostic testing for hMPV therefore may reduce the use of unnecessary antibiotics. Previous reports have suggested that hMPV and RSV are clinically indistinguishable. 17, 21 This study, however, shows that there may be subtle differences in the clinical features of hMPV and RSV infections. As previously reported, 34 fever was the most common presenting symptom for hMPV-positive patients and was more common in hMPV-positive children than in the other two groups. hMPV-positive patients were also more likely to experience decreased urinary output than patients negative for hMPV and RSV. The raised fever may increase the likelihood of dehydration and decreased urinary output. More information is needed to compare the level of inflammation produced by hMPV with that of other viruses.

Our study was limited by extraction of the data from a convenience sample and by the fact that only one respiratory viral season was studied. In addition, the signs and symptoms associated with the studied viruses may have been exaggerated as only hospitalized patients were included. Lastly, we acknowledge the li mi tations associated with the use of different methods for detecting different viruses in our study. The real-time ASR assay that we used to detect hMPV was likely more sensitive than the DFA-and culture-based techniques used to detect RSV and other viruses. As such, it is possible that children infected with RSV were assigned to the group of patients not infected with hMPV or RSV. Even with this potential drawback, however, our data strongly suggest that hMPV was common in the patient population included in this study. Furthermore, as molecular methods gain more widespread use for the detection of many respiratory pathogens, continued studies assessing the correlation between laboratory and clinical information are warranted.

Our study confirms that hMPV is a significant pathogen particularly in young children and is frequently associated with respiratory symptoms resulting in hospitalization. In general, the clinical manifestations of hMPV-and RSV-associated infections in children are similar, although our data suggest subtle differences in illness presentation but not in severity. Our data also suggest that underidentification of children with hMPV may lead to inappropriate use of antibiotics. Therefore, considering the high prevalence of hMPV, the severity of hMPV illness, and the ease and accuracy of detection, 35 routine diagnostic testing for hMPV should be implemented. Increasingly, hMPV is being recognized as a significant cause of disease in other populations such as elderly patients 39 and immunocompromised cases, 40 highlighting other groups that would likely benefit from routine testing for hMPV. Future studies with expanded patient populations will help to determine how identifying cases with hMPV-associated disease will allow clinicians to anticipate the patient's clinical course, identify cohort patients appropriately, and decrease the use of unnecessary antibiotics.

A newly discovered human pneumovirus isolated from young children with respiratory tract disease

Virological features and clinical manifestations associated with human metapneumovirus: a new paramyxovirus responsible for acute respiratory-tract infections in all age groups

Metapneumovirus and acute wheezing in children

Human metapneumovirus infection in the United States: clinical manifestations associated with a newly emerging respiratory infection in children

Human metapneumovirus associated with respiratory tract infections in a 3-year study of nasal swabs from infants in Italy

Children with respiratory disease associated with metapneumovirus in Hong Kong

Human metapneumovirus genetic variability

Human metapneumovirus infections in Mexico: epidemiological and clinical characteristics

Human metapneumovirus

Human metapneumovirus infection among children in Taiwan: a comparison of clinical manifestations with other virus-associated respiratory tract infections

Airway epithelial cell response to human metapneumovirus infection

A fatal case of encephalopathy possibly associated with human metapneumovirus infection

Co-circulation of human metapneumovirus and SARSassociated coronavirus during a major nosocomial SARS outbreak in Hong Kong

Clinical findings and unusual epidemiologic characteristics of human metapneumovirus infections in children in the region of Basel, Switzerland

Human metapneumovirus in the community

Role of human metapneumovirus, human coronavirus NL63 and human bocavirus in infants and young children with acute wheezing

A 1-year experience with human metapneumovirus in children aged <5 years

Human metapneumovirus and lower respiratory tract disease in otherwise healthy infants and children

Human metapneumovirus in children tested at a tertiary-care hospital

Human metapneumovirus infection in young children hospitalized with respiratory tract disease

Human metapneumovirus infection in young children hospitalized with acute respiratory tract disease: virologic and clinical features

Human metapneumovirus infections in young and elderly adults

Human metapneumovirus infections cause similar symptoms and clinical severity as respiratory syncytial virus infections

The human metapneumovirus: biology, epidemiological features and clinical characteristics of infection

Severe human metapneumovirus infection in hospitalized children

Human metapneumovirus infections in

Respiratory tract reinfections by the new human metapneumovirus in an immunocompromised child

Fatal hemorrhagic pneumonia caused by human metapneumovirus in an immunocompetent child

Respiratory viruses in HIV-infected patients with suspected respiratory opportunistic infection

Human metapneumovirus in lung transplant recipients and comparison to respiratory syncytial virus

Beyond viruses: Clinical profiles and etiologies associated with encephalitis

Seasonal distribution and phylogenetic analysis of human metapneumovirus among children in Osaka City

Clinical impact and diagnosis of human metapneumovirus infection

Impact of human metapneumovirus in childhood: comparison with respiratory syncytial virus and influenza viruses

Evaluation of a commercial direct fluorescent-antibody assay for human metapneumovirus in respiratory specimens

Comparison of human metapneumovirus, respiratory syncytial virus and influenza A virus lower respiratory tract infections in hospitalized young children

Human metapneumovirus pneumonia in children: Results of an Italian study and minireview

Experimental human metapneumovirus of cynomolgus macaques (Macaca fascicularis) results in virus replication in ciliated epithelial cells and pneumocytes with associated lesions throughout the respiratory tract

Human metapneumovirus infections in adults: another piece of the puzzle

Brief communication: fatal human metapneumovirus infection in stem-cell transplant recipients