Prevalence of respiratory syncytial virus infection among children hospitalized with acute lower respiratory tract infections in Southern India

2019-05-10 07:38SandeshKiniBhuvaneshSukhlalKalalSaraChandyRanjaniShamsundarAnitaShet
World Journal of Clinical Pediatrics 2019年2期
关键词:胡豆怪味烟熏

Sandesh Kini, Bhuvanesh Sukhlal Kalal, Sara Chandy, Ranjani Shamsundar, Anita Shet

Abstract

Key words: Respiratory syncytial virus; Acute lower respiratory infections; Children;Epidemiology; India; Respiratory viral infection

INTRODUCTION

Globally, acute lower respiratory infections (ALRI) are an important cause of morbidity and mortality in children < 5 years of age[1]. Molecular diagnostic methods have identified respiratory syncytial virus (RSV), as the most common viral cause of ALRI-related death; other prominent viruses are human metapneumovirus,parainfluenza viruses, influenza viruses A and B and adenoviruses[2,3]. In 2015, Shi et al[4]reported an estimated annual burden of RSV of 33.1 million globally (22% of all episodes of ALRI) resulting in 3.2 million hospitalizations and 59600 deaths of children < 5 years, with about 99% of RSV-related childhood mortality occurring in low and middle-income countries (LMICs)[4].

Recent literature on pediatric ALRI in LMICs highlights increasing incidence of RSV, a major cause of death of infants < 1 year of age and of ALRI during the first few months of an infant’s life[5]. RSV is also gaining prominence in India; recent hospitalbased studies indicate that RSV constitutes up to 16% of children hospitalized with acute lower respiratory tract infections (LRTIs), with incidence highest in infants aged below 6 mo[6]. The common respiratory symptoms are recurrent episodes of wheezing mimicking early childhood asthma and may persist as lung function abnormality till adolescence[7]. Known risk factors include low birth weight, smoking during pregnancy, attendance at a child care facility, crowded household, low parental education, exposure to second-hand smoke, history of atopy and lack of breastfeeding[8]. Furthermore, RSV infections tend to be associated with hospitalization and mortality in high-risk cases[7].

Detection of RSV using rapid, sensitive and specific diagnostic tests aids good clinical management. Viral isolation by tissue culture is regarded as the gold standard but has limited availability. Real-time reverse transcriptase PCR (RT-PCR) is more sensitive but not routinely performed in clinical diagnostic laboratories in LMICs due to high expense, the need for technical expertise and high laboratory standards to prevent contamination[9]. Direct fluorescent antibody assay (DFA) has been used as a simple detection tool for RSV antigen detection[10]. DFA has a sensitivity and specificity of 77.8% and 96.8% respectively and can detect RSV antigens even in conditions where the virus cannot be isolated[10,11].

怪味胡豆中不具有其他怪味食品的酸味,说明用“集酸、甜、麻、辣、咸、鲜、香七味于一体”的复合味并不能准确地描述怪味食品的风味特征。因此,有必要参考豆味、烟熏味和青草味的研究方法[28-30],通过对不同品种的怪味食品进行全面的定量描述分析,建立出怪味的感官描述词,对于理解怪味和开发怪味食品具有一定的参考意义。

The objective of the study was to investigate the proportion of RSV and non-RSV respiratory viral infections as a cause of ALRI among 1-59 mo old children admitted to a tertiary care hospital in southern India. The study also sought to assess the seasonality, clinical features, risk factors and outcome of RSV and non-RSV respiratory viral infections among these hospitalized children.

MATERIALS AND METHODS

Patients and settings

This prospective study was conducted at a tertiary care center in south India between August 2011 and August 2013, on children aged between 1 mo and 5 years,hospitalized for ALRI. The study site, St. John’s Medical College Hospital, Bengaluru,Karnataka, India center to local as well as to referred cases from neighboring states like Andhra Pradesh and Tamil Nadu[12]. ALRI was defined as acute respiratory infection with evidence of respiratory distress and age-specific fast breathing (≤ 2 mo age: ≥ 60 breaths/min; 2-12 mo, ≥ 50 breaths/min; 1-5 years, ≥ 40 breaths/min)[13].Features of respiratory distress include chest indrawing, stridor, nasal flaring or grunting, inability to breastfeed or drink, with or without danger signs such as central cyanosis, lethargy or unconsciousness. Bronchiolitis was defined as a viral LRTI in children < 2 years of age characterized byclinical features of small airways obstruction causing symptoms of ALRI. Bronchopneumonia was defined as symptoms of ALRI with chest X-ray findings of hyperinflation with bilateral interstitial infiltrates and peribronchial cuffing. Lobar pneumonia was defined as symptoms of ALRI with confluent lobar consolidation. Reactive airway disease was defined as respiratory illness associated with wheeze secondary to allergen exposure. The study excluded children with empyema, hydropneumothorax or tuberculosis and those with nonrespiratory causes of respiratory distress. Informed consent was obtained from the caregivers of eligible children. Detailed patient history and clinical observations were recorded. Vital signs and oxygen saturation were monitored and routine laboratory investigations were performed as indicated. Ethical clearance was obtained from the Institutional Ethics Committee (IRB No 134/2008) at St. Johns Medical College Hospital prior to initiating the study.

Sample collection

Nasopharyngeal (NP) wash were collected using a 5 French infant feeding tube cut to 4 cm length, 1.5 mL of sterile saline was quickly introduced into each nostril and immediately aspirated back into a 2 mL disposable sterile syringe. The aspirated sample was transferred into a sterile centrifuge tube, maintained at 4 ºC and transported to the microbiology laboratory immediately on an ice pack (4 °C) within 1 h of collection[14].

Slide preparation and direct immunofluorescence assay

The NP sample was centrifuged and the pallet was smeared on a slide, air dried and placed in cold acetone (-20 ºC) for a minimum of 30 min for fixation. Slides were stained using SimulFluor Respiratory Screen kit (Chemicon International, United States), in accordance with the manufacturer’s instructions.

Statistical analysis

The data was compiled in an excel spreadsheet. Descriptive statistics were reported using mean and standard deviation for variables with a normal distribution, and median for variables without a normal distribution. The association between the presence of RSV infection and RSV-related risk factors were assessed by χ2test or Fisher’s exact test (for categorical variables) and by independent t-test (for continuous variables). The analysis was done by using the Statistical software STATA/IC version 12.1 and P < 0.05 was considered significant.

RESULTS

Study population

Between August 2011 and August 2013, 9600 children were admitted to the inpatient ward; of these 408 were 1-59 mo old at the time of admission, had ALRI, and were considered eligible for the study. There were 20 caregivers of patients who declined consent citing reasons of non-interest or refusal of permission for the NP wash procedure, and 5 were excluded due to the presence of other diagnoses (2 were diagnosed with pulmonary tuberculosis, and 3 were diagnosed with bacterial pneumonia (one blood culture positive for Staphylococcus aureus and two bronchoalveolar lavage fluid positive for Pseudomonas aeuruginosa and Enterobacter species).The remaining 383 children were included in the study. The median age of subjects was 8 mo (inter quartile range 5-15 mo), and 89.0% were less than 2 years of age.There were 68.7% males, and the subjects resided in Karnataka (64.2%), Andhra Pradesh (19.1%) and Tamil Nadu (15.9%). The majority lived in urban areas (66.8%).

Etiology of respiratory illness

Viral etiology (RSV, influenza A or B, adenovirus, para influenza 1, 2 or 3) was confirmed in 130 (33.9%) of 383 children hospitalized for ALRI. RSV was positive in 94(24.5%), non-RSV viruses in 57 (14.8%), while co-infection with RSV and non-RSV viruses was seen in 21 (5.5%) children (Table 1). Among the children with RSV infection, 86 (91.5%) children were in the age group 1 mo to 24 mo, and 32 (34%) were children 1-6 mo of age. A peak of RSV positive cases was seen after the rainy season during the months of August through November (Figure 1). A smaller peak was also noted during January and February. The seasonality of other viruses mirrored the pattern of RSV infection.

Clinical features and correlates

The predominant physician-assigned clinical diagnosis was bronchiolitis (173/383,45.1%). Others were bronchopneumonia (135/383, 35.2%), lobar pneumonia (24/383,6.2%) and reactive airway disease (51/383, 13.3%). Those with RSV infection had fever(23.8%), rhinorrhea (24.6%), cough, (23.5%), chest retractions (25.6%), auscultatory wheeze (22.9%), and auscultatory crepitations (25.7%). Chest radiographs were obtained in 189 of 383 children who had severe ALRI at admission or those who did not respond to first-line treatment. Radiographic abnormalities were detected in 162 children; 135 had evidence of hyperinflation with bilateral interstitial infiltrates suggestive of bronchopneumonia, 24 had focal lung consolidative changes and 3 had evidence of cardiomegaly without lung field abnormalities.

In univariate analysis, RSV infection was significantly associated with being exclusively breastfed for less than 3 mo, compared to those exclusively breastfed for 3-12 mo (unadjusted OR 1.98, 95%CI: 1.69-3.22). There was no significant association between RSV infection and independent variables such as low birth weight,prematurity, complicated neonatal course, family history of asthma, household smoking or indoor wood fuel usage (Tables 2 and 3). There was no significant association between other viruses (influenza A or B, adenovirus, para influenza 1, 2 or 3) and risk factors mentioned in Table 2. Laboratory parameters including total white blood cell count, and absolute lymphocyte count was similar between RSV-positive and RSV-negative patients.

Outcome

Mean hospital stay was 4.6 d (SD 5.1); and 8.3 d (SD 6.5) in RSV-positive and RSVnegative children, respectively (P = 0.031) (Table 4). The length of PICU stay (P =0.547), oxygen use (P = 0.176), and qualitative antibiotic use (P = 0.110) were similar in both groups. Antibiotics were used among 56 (59.5%) and 21 (36.8%) of RSV-positive and non-RSV virus-positive children, respectively. Most commonly used first-line antibiotics were amoxicillin/amoxicillin-clavulanic acid/or ceftriaxone. Respiratory complications such as acute respiratory distress syndrome and respiratory failure requiring PICU admission took place among 13.8% (13/94) of RSV-positive, 8.7%(5/57) of non-RSV positive and 16.6% (42/253) of viral negative children. Of the 57 children admitted to PICU, 46 recovered well while 11 had residual respiratory symptoms including persistent tachypnea and persistent oxygen requirement. There was no mortality recorded in this study (Table 5).

DISCUSSION

Viral-associated respiratory illness among hospitalized children 1-59 mo old at our single center tertiary care hospital in southern India was seen among a third of thosewith ALRI. RSV was the predominant viral etiological agent, and over a quarter had evidence of mixed viral pathogens in the respiratory tract that may be etiologically linked to the respiratory illness.RSV and other respiratory viruses are a major cause of pediatric ALRI in India. ALRI constitutes one of the principal causes of death among children under-five of the developing countries[8,15]and RSV has been documented as an important cause of ALRI in pediatric age group[8,14]. In India, studies have shown high ALRI incidence rates of 15.0 per 1000 child years in the under-five age group with the incidence being 3.6 times higher among boys as compared to girls[16]. The highest rates of ALRI generally occur in the first year of life. RSV infection in the very young causes substantial complications such as respiratory failure, prolonged hospitalization, and high mortality similar to seasonal influenza. Previous hospitalbased studies from India reported hospital RSV prevalence of 11.4-26.0% (22.1%[14];20.2%[17]; 21.3%[18]; 12.0%[19]; 26.0%[20]), although the variability in these studies precludes any direct comparison with the present study. RSV-associated ALRI incidence ranging from 2.4% to 21.2% have been reported in different countries[21].Hospital-based studies have reported a significant association between being male and having RSV-related ALRI[22]. Nair et al[5]concluded in a recent meta-analysis that RSV is the most common cause of childhood LRTI and a major cause of admission to hospital as a result of severe LRTI and that 99.0% of the RSV-related deaths take place among resource-limited countries. The study showed that India, China, Nigeria,Pakistan, and Indonesia together account for a total of 16 million cases of RSV infections, accounting for half of the global cases of under-5 childhood deaths in the world[1].

Table 1 Respiratory syncytial virus and non-respiratory syncytial viruses associated with lower respiratory tract infection in young children

In India, routine laboratory diagnoses of viral ALRI remains unavailable and unexplored, even in tertiary care centers. Viral etiology of ALRI largely remains unknown and most cases are empirically treated with antibiotics. Gold standard test like viral isolation and RT-PCR are more sensitive but not routinely performed in clinical diagnostic laboratories in LMICs due to high expense LMICs due to high expense. However, in resource-limited settings, DFA still has value for the diagnosis of ALRI[23]. Compared to culture, DFA has sensitivities of 72% to 94% and specificities of 95% to 100%[24]. The DFA kit used in this study, SimulFluor Respiratory Screen Kit(Chemicon) was easy to perform and results were available within 4-5 h. It tested for a panel of seven respiratory viruses; RSV, Influenza A, and B, Parainfluenza 1 to 3 and Adenovirus[10,11]. Limitations of DFA include the degree of subjectivity in the evaluation of the result, as well as the need for a high level of technical skill and sample quality for the assay[25].

Early diagnosis facilitates early management and helps combat ALRIs. In India,antibiotics use in pediatric ALRI is very common even if a viral cause is suspected. A Cochrane review on the effectiveness of antibiotics in children fewer than two years old diagnosed with bronchiolitis did not f ind enough evidence to support the use of antibiotics[26]. Antibiotics can be used if there is clear documented evidence of secondary bacterial infections[8]. Early diagnosis of a viral respiratory infection has the potential to reduce the rampant use of antibiotics.

As established by the results, this study demonstrates that exclusive breastfeeding for over 3 mo of age, seems to have some protective effect against RSV and other respiratory viral infections. Significance between exclusive breastfeeding and decreased incidence of RSV positive illnesses have been reported[27]. However, there is no association between exclusive breastfeeding and wheezing illnesses associated with RSV as wheezing can be secondary to a maternal history of allergy and asthma or pet exposure[28]. This possibly can be explained by the fact that RSV is caused by infection and breastfeeding is often thought to confer some protection against it[29],whereas wheezing may be immune to any protective effects of breastfeeding since high IgE levels have been found to share an association with the presence of wheezing.

Figure 1 Seasonality patterns of respiratory syncytial virus-positive and non-respiratory syncytial virus viralassociated lower respiratory tract infection in young children.1Other viruses include infection with influenza A, B,para influenza 1, 2, 3 and adenovirus.

Our finding showed a high rate of respiratory complications in 13.8% (13/94), 8.7%(5/57) and 16.6% (42/253) of children with RSV positive, non-RSV positive and viral negative results. Out of these, 6 children were mechanically ventilated with a median of 4 d (range 3-5 d). Our findings were consistent with previous studies done by Kholy et al[30]in which 10% (24/240) of patients were admitted to PICU with a median duration of 6.5 d and 14 patients required mechanical ventilation.

Limitations of the study

In this study, we focused only on the viral causes of ALRI as they are the most common etiological agents and there are limited studies from south India. However,we did not address key questions about bacterial etiology and the possible role of viral and bacterial co-infections. We had a small sample size which was insufficient to make finer observations regarding differences in age, clinical profile, or factors determining severity between specific viral species.

We find that a significant proportion of young children hospitalized for acute LRTI is associated with RSV and other viral infections. Early diagnosis of viral infections using a simple test such as the RSV and viral DFA test, in settings where PCR is not feasible, would be useful in the timely institution of appropriate care, minimization of antibiotic overuse, and appropriate follow-up care for complications and sequelae,potentially leading to a reduction of costs of medical care.

Table 2 Risk factors for respiratory syncytial virus infection

Table 3 Risk factors among respiratory viral infection

Table 4 Comparison of outcome between respiratory syncytial virus positive and respiratory syncytial virus negative

Table 5 Association of signs and symptoms with respiratory syncytial virus infection

ARTICLE HIGHLIGHTS

Research background

Respiratory syncytial virus (RSV) is the most frequent agent of viral-associated acute lower respiratory diseases (ALRI) and is known to be associated with hospitalization and mortality among high-risk cases.

Research motivation

Early diagnosis of viral infections using a simple test such as the RSV and viral fluorescent antibody assay (DFA) test, in settings where PCR is not feasible, would be useful in the timely institution of appropriate supportive care, minimization of antibiotic overuse, and appropriate follow-up care for complications and sequelae, potentially leading to a reduction of costs of medical care.

Research objectives

The principal objective of the study was to investigate the proportion of RSV and non-RSV respiratory viral infections as a cause of ALRI among 1-59 mo old children admitted to a tertiary care hospital in India. The study also assesses the seasonality, clinical features, risk factors and outcome of RSV and non-RSV respiratory viral infections among these hospitalized children.

Research methods

The prospective study was conducted on hospitalized children aged < 5 years, with a diagnosis of acute lower respiratory infections (ALRI), admitted between August 2011-August 2013, were included. Nasopharyngeal (NP) swabs were obtained from eligible children, and transported to the laboratory in suitable media. Slides were prepared from the media, and DFA staining was performed using SimulFluor Respiratory Screen kit on NP wash samples.

Research results

The median age of subjects was 8 mo (inter quartile range 5-15 mo), and 89.0% were less than 2 years of age. Viral etiology (RSV, influenza A or B, adenovirus, para influenza 1, 2 or 3) was confirmed in 33.9% (130/383) of children hospitalized for ALRI. RSV was positive in 24.5%(94/383) non-RSV viruses in 14.8% (57/383) while co-infection with RSV and non-RSV viruses was seen in 5.5% (21/383) children. A peak of RSV positive cases was seen after the rainy season during the months of August through November. The RSV infection was significantly associated with being exclusively breastfed for less than 3 mo. There was no significant association between RSV infection and independent variables such as low birth weight, prematurity, complicated neonatal course, family history of asthma, household smoking or indoor wood fuel usage. Mean hospital stay was 4.6 ± 5.1 d and 8.3 ± 6.5 d in RSV-positive and RSV-negative children,respectively. The respiratory complications such as acute respiratory distress syndrome and respiratory failure requiring PICU admission, were 13.8% (13/94), 8.7% (5/57) and 16.6%(42/253) of children with RSV positive, non-RSV positive and viral negative results.

Research conclusions

A high proportion of RSV and other virus-associated ALRI were seen among hospitalized children in India. The study demonstrates that exclusive breastfeeding for over 3 mo of age, may have a protective effect against RSV and other respiratory viral infections. The viral DFA test was easy to perform and results were available within 4-5 h.

Research perspectives

Early diagnosis of viral infections using a simple test such as the RSV and would be useful in the timely institution of appropriate supportive care, minimization of antibiotic overuse, and appropriate follow-up care for complications and sequelae, potentially leading to a reduction of costs of medical care.

ACKNOWLEDGEMENTS

We thank all medical staff and faculty members from the Department of Paediatrics and Microbiology at St. John’s Medical College Hospital for extending their support for this study.

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