key: cord-300711-yibdumij
authors: Shatizadeh, Somayeh; Yavarian, Jila; Rezaie, Farhad; Mahmoodi, Mahmood; Naseri, Maryam; Mokhtari Azad, Talat
title: Epidemiological and clinical evaluation of children with respiratory virus infections
date: 2014-09-22
journal: Med J Islam Repub Iran
DOI: nan
sha: 
doc_id: 300711
cord_uid: yibdumij

Background: Respiratory viruses are the leading cause of respiratory tract infections among children and are responsible for causing morbidity and mortality worldwide. This study was performed to detect viruses in children with respiratory infections and describe their epidemiology and clinical characteristics. Methods: In this descriptive cross sectional study, throat swabs and wash specimens from 202 children younger than six years of age with diagnosis of a respiratory tract infection from a total of 897 specimens were evaluated using multiplex PCR method. Results: Respiratory viruses were detected in 92 children: respiratory synsytial virus, 16.8%; influenza virus, 5.4%; parainfluenza virus, 8.4%; adenovirus, 14.4% and human metapneumo virus 0.49% with male predominance and higher distribution in children younger than 1 year of age with preference in the cold months of year. The clinical presentations of all detected viruses were almost similar. Conclusion: In the present study, nine different respiratory viruses were detected. RSV causes the great majority of respiratory virus infections in children. There was no significant difference in epidemiologic patterns of these viruses in comparison to other studies.

Among children, respiratory tract infections (RTI) are a major cause of morbidity and mortality worldwide especially in developing countries (1, 2) . Respiratory syncytial virus (RSV), influenza virus (IFV), parainfluenza virus (PIV), adenovirus (AdV) and the recently discovered human metapneumovirus (hMPV) likely account for a majority of respiratory tract illnesses (3) . The most prevalent presentations in RTI include sore throat, headache and my-algia (4) . Studies assessing the relationship between clinical symptoms and respiratory infections yielded conflicting results (5) . In temperate climate regions, RTI display a defined seasonality occurring mainly during the winter (2) .

The aim of this study was to determine, by a sensitive method, the frequency, epidemiology and clinical characteristics of respiratory viruses among young children. This might help towards better management and treatment of infected children. MJIRI 

This cross sectional study was performed on specimens collected between 2008 and 2009 in National Influenza Center of Iran. Throat swabs and washes were collected from 897 patients with respiratory illness and transported to the National Influenza Center, School of Public Health, Tehran University of Medical Sciences. A questionnaire was alsocompleted. Two hundred and two, out of 897, specimens belonged to children less than 6 years of age were selected.

Nucleic Acid extraction RNA extraction and cDNA synthesis: RNA was extracted from 150 μL of samples using the Neucleospin viral RNA (Neucleospin RNA extraction kit, Macherey-Nagel) according to the manufactures instruction. cDNA synthesis was carried out in 30 μl reaction mixture containing 6 μL of 5X RT Buffer, 2.5 μL of mixed dNTPs (2.5μm each), 1 μL of RT-MULV enzyme (Fermentase), 2.5 μL Random hexamer (Fermentase), 0.5 μL RNase Inhibitor (Fermentase) and 17.5 μL RNA template, the mixture was incubated in 22° C for 10 min, 37° C for 45 min and 94° C for 5 min.

DNA extraction DNA was extracted from 150 μL of samples using the Neucleospin viral DNA (Neucleospin DNA extraction kit, Macherey-Nagel) according to the manufactures instruction.

Primers targeted specifically the nucleocapsid gene of RSV(6), the Matrix protein gene of hMPV (7), the hemagglutinin and neuraminidase gene of PIV-1,2 (8) and PIV-3 (9) the phosphoprotein gene of PIV-4 (10) hemagglutinin (HA) gene of IFV A and B (11) and hexon gene of AdV (12) .

Three multiplex RT-PCR methods, targeting eight respiratory viruses, were developed. Multiplex PCR I for RSV and hMPV, multiplex PCR II for PIV1-4 and multiplex PCR III for Flu A and B were performed. The protocols are available upon request.

Uniplex hemi nested PCR was done for detection of adenovirus. Briefly, 5 μL of the nucleic acid extraction was added to 45 μL of reaction mixture containing 10X PCR buffer, 4μL of Mgcl2 (50mM), 2.5μL of dNTP mix (10mM), 20 pmol of each degenerate primer pair and 0.4μL of taq polymerase. Temperature and time profiles were as follows: 1 cycle at 94° C for 3 min, followed by 30 cycles of 94° for 1 min, 50°C for 1 min, 68° C for 1 min, and final incubation at 68°C for 50 min. Then nested reaction was performed with 20 pmol of the another degenerate primer pair as above. 

The proportions of the patients aged <12, 12-24, 25-36, 37-48, 49-60 and 61-72 months were 16.3, 10.89, 2.97, 4.45, 3.46 and 6.93% respectively. Figure 1 shows age distribution of the children according to the different viruses. Among the patients there were 47(23.26%) males and 45(22.27%) females with a sex ratio of 1.04:1. Female sex was more frequently associated with RSV, PIV-1, IFV and hMPV in contrast AdV was detected mostly in males (Fig. 2) . Figure 3 and figure 4 show seasonal and monthly distribution according to the different viruses, respectively. In analyses of the clinical signs and symptoms in affected children, fever (53.6%) myalgia (49.8%) and cough (38.4%) were common clinical findings. Sore throat was observed in 25.3% of the patients. There were no headache and malaise found in these patients (Fig. 5 ).

The circulation of different respiratory viruses during the same period of the year makes it very difficult to detect their individual contribution to the global respiratory disease. Moreover, the pattern of the respiratory virus activity seems to change within the different age groups with different demographic characteristics (13) . In each community, the epidemiology of respiratory viruses has to be determined prior to the implementation of novel and costly therapies. In the present study RSV was the most frequently demonstrated virus accounted for 16.8% of all viruses detected. Our results were similar to those from other countries (14,15) and emphasize the role of RSV as the leading cause of ARTI in infants and young children. Meanwhile RSV was mostly found in female infants less than one year of age with the typical seasonal pattern with a peak incidence during February (16) . Fever, cough and myalgia were the common clinical signs and symptoms in these patients. One study in the united states showed RSV is responsible for 1% child hospitalization, 70% of which during the first year of life (17).

Adenoviruses produce lower respiratory illness in all seasons with a tendency to peak in mid-winter (18,19) . In this study, AdVs followed by RSV were the most frequently detected viral agents in our patients (14.4%) which occurred mostly in the summer and winter months (August, September and February) in male children in all age groups. Fever, cough, sore throat and myalgia were the common clinical characteristics of them.

Human parainfluenza viruses are important respiratory pathogens and a major cause of croup and pneumonia in infants (20) . Herein, hPIV1 and 3 were the most prevalent hPIVs similar to other studies (21) and had high peak between January and February at children younger than 2 years of age which showed preference in females. The most frequently symptoms were fever and myalgia.

Among all respiratory virus infections because of the pandemics and annual epidemics, influenza viruses are a center of concern. In the present study influenza viruses were detected in 5.4% of the children and similar to the other studies they were in all age groups during the cold months (December to March) (22) . Female dominance had been seen in these children with fever, myalgia and cough. HMPV was first identified in 2001 in children with respiratory tract disease (23). We detected 1 hMPV in 2 year old female child with RSV infection who had Kawasaki syndrome and hospitalized in the pediatric ward. Studies have reported high coinfection rates with these two viruses (24). Similar to the Catherine M. report, which showed hMPV distribution frequently in the winter months (25), we detected the only hMPV of this study on February. Fever and cough were the clinical signs and symptoms of this child. RTIs are common in young children, decrease in frequency with age, and predominate in boys (26, 27) . This age distribution was the same in the present study which demonstrated a higher incidence of RTI in children younger than 1 year old. There was male predominance in this study but it was not significant. The relative frequency of each viral agent and the pattern of occurrence were similar to those described in previous reports (28, 29) . It is difficult to formulate a single theory to explain the epidemiology of viral infections at different times of the year. The most appropriate theory may be that, by staying indoors in cold weather, families promote the spread of virus infections which rely on the droplet transmission within confined spaces (30). Susceptible children could acquire the virus from older children in whom manifestations of viral respiratory tract infections are mild (31) .

In summary, respiratory virus infections (RVI) are a common cause of morbidity and mortality worldwide. Viral co infections and recently discovered viruses are involved in a significant percentage of acute RVI. Studies are being conducted to determine whether dual respiratory virus infections carry an increased risk for adverse outcomes or increased hospital stays for pediatric patients. Better understanding of the epidemiology of RVI may be used for timely specific antiviral therapy, prophylactic and vaccination. This study described the demographic and clinical presentations of specific RVI in 202 children under the 6 years of age in Iran. Monitoring is necessary in a broader population and for a longer period of time in order to better delineate the clinical and epidemiological behavior of respiratory viruses in children. Although routine surveillance of respiratory viruses might not seem to be MJIRI, Vol. 28 

Peres Cd Cde A. Factors associated to hospitalization of children under five years of age

Epidemiology and seasonality of respiratory tract virus infections in the tropics

Human bocavirus infection in young children in the united states: molecular epidemiological profile and clinical characteristics of a newly emerging respiratory virus

Epidemiology and clinical characteristics of respiratory syncytial virus infections in Jordan

Molecular Evolution and Circulation Patterns of Human Respiratory Syncytial Virus Subgroup A: Positively Selected Sites in the Attachment G Glycoprotein

Development of three multiplex RT-PCR assays for the detection of 12 respiratory RNAviruses

Rapid and Sensitive Method Using Multiplex Real-Time PCR for Diagnosis of Infections by Influenza A and Influenza B Viruses, Respiratory Syncytial Virus, and Parainfluenza Viruses 1, 2, 3, and 4

GeneScan Reverse Transcription-PCR Assay for Detection of Six Common Respiratory Viruses in Young Children Hospitalized with Acute Respiratory Illness

Detection and Identification of Human Parainfluenza Viruses 1, 2, 3, and 4 in Clinical Samples of Pediatric Patients by Multiplex Reverse Transcription-PCR

Comparison of Multiplex Nested RT-PCR with Virus Isolation for Detection of Influenza Viruses A and B

Molecular Identification of Adenoviruses in Clinical Samples by Analyzing a Partial Hexon Genomic Region

Simultaneous Detection of Fourteen Respiratory Viruses in Clinical Specimens by Two Multiplex Reverse Transcription Nested-PCR Assays

Multiple viral respiratory pathogens in children with bronchiolitis

Clinicalepidemiological evaluation of respiratory syncytial virus infection in children attended in a public hospital in midwestern Brazil

Role of Respiratory Viruses in Acute Upper and Lower Respiratory Tract Illness in the First Year of Life: A Birth Cohort Study

Molecular detection of respiratory viruses in children with acute respiratory disease in Iran

Seasonal Trends of Human Parainfluenza Viral Infections: United States

Prevalence of respiratory viruses, including newly identified viruses, in hospitalized children in Austria

Epidemiological and clinical features of hMPV, RSV and RVs infections in young children

Respiratory viral infections among pediatric inpatients and outpatients in Taiwan from 1997 to 1999

Respiratory Viral Infections among Pediatric Inpatients and Outpatients in Taiwan from 1997 to 1999

The pathogenesis of respiratory syncytial virus disease in childhood

We would like to thank the entire staff of the National Influenza centre, School of Public Health Tehran University of Medical Sciences. This study is funded by Tehran University of Medical Sciences (Number: 240.2694).This study is funded by Tehran University of Medical Sciences (Number: 240. 2694).