Respiratory syncytial virus and parainfluenza virus

Inhibition of respiratory syncytial virus infection with the CC chemokine RANTES (CCL5)

Respiratory syncytial virus (RSV) is a major cause of respiratory tract disease in infants, aged adults, and immunosuppressed patients. The only approved medicines for RSV disease are administration of prophylatic antibodies or treatment with a synthetic nucleoside. Both approaches are expensive and the latter is not without risk and of controversial benefit. The present investigation studied whether pharmaceutical or biologic compounds based upon chemokines might be useful in preventing RSV disease. Of interest was RANTES/CCL5, which inhibits infection by HIV strains that use chemokine receptor (CCR)-5 as co-receptor. Herein, we report that prior or simultaneous treatment of HEp-2 cells with recombinant human CCL5 provides dose-dependent inhibition of infection with RSV. Other recombinant chemokines (MIP-1alpha/CCL3, MIP-1beta/CCL4, MCP-2/CCL8, eotaxin/CCL11, MIP-1delta/CCL15, stromal cell derived factor (SDF)-1alpha/CXCL12) were not inhibitory. The data suggested that CCL5 might inhibit infection by blocking fusion (F) protein-epithelial cell interactions. Infections by mutant RSV strains deleted of small hydrophobic and/or attachment proteins and only expressing F protein in the envelope were inhibited by prior treatment with CCL5 or a biologically inactive N-terminally modified met-CCL5. Inhibition was also observed when virus adsorption and treatment with CCL5 were performed at 4 degrees C. Flow cytometry further revealed that epithelial cells were positive for CCR3, but not CCR1 or CCR5. Thus, novel mimetics of CCL5 may be useful prophylatic agents to prevent respiratory tract disease caused by RSV.

Contribution of respiratory syncytial virus G antigenicity to vaccine-enhanced illness and the implications for severe disease during primary respiratory syncytial virus infection

BACKGROUND

Immunization of BALB/c mice with vaccinia virus expressing the G glycoprotein (vvG) of respiratory syncytial virus (RSV) or with formalin-inactivated alum-precipitated RSV (FI-RSV) predisposes for severe illness, type 2 cytokine production and pulmonary eosinophilia after challenge with live RSV. This similar disease profile has led to the proposal that the presence of the G glycoprotein in the FI-RSV preparation was the immunologic basis for the vaccine-associated enhancement of disease observed in the failed clinical trials of the 1960s. However, processes of disease pathogenesis observed in FI-RSV- and vvG-immunized mice suggest that FI-RSV and vvG immunizations induce immune responses of different compositions and requirements that converge to produce similar disease outcomes upon live virus challenge.

METHODS

The potential role of RSV G present in FI-RSV preparations in increasing postimmunization disease severity was explored in mice.

RESULTS

The absence of RSV G or its immunodominant epitope during FI-RSV immunization does not reduce disease severity after RSV challenge. Furthermore although depletion of V beta 14+ T cells during RSV challenge modulates disease in G-primed mice, minimal impact on disease in FI-RSV-immunized mice is observed.

CONCLUSION

FI-RSV vaccine-enhanced illness is not attributable to RSV G. Furthermore formulation of a safe and effective RSV vaccine must ensure RSV antigen production, processing and presentation via the endogenous pathways. Thus gene delivery by vector, by DNA or by live attenuated virus are attractive vaccine approaches.

Cytokine pattern is solely influenced by priming vaccine but immunity and disease by both priming and boosting vaccines in mice challenged with respiratory syncytial virus

Vaccine formulation can influence cytokine and disease patterns in mice following respiratory syncytial virus (RSV) challenge. The influence of different live and killed dual-vaccine combinations on subsequent immune responses was investigated. BALB/c mice received either killed followed by killed (KV/KV), killed followed by live (KV/LV), live followed by killed (LV/KV), or live followed by live (LV/LV) RSV vaccines intramuscularly. Mouse weight loss, viral replication, cytokine expression patterns, immunoglobulin isotype antibody profiles, neutralizing antibody responses, and cytotoxicity T lymphocyte (CTL) activities in lungs were compared on subsequent live RSV challenge. On challenge, mice vaccinated initially with KV and boosted with either KV or LV expressed significantly skewed ratios of IL-4 to IFN-gamma mRNA and IgG1 to IgG2a antibody, when compared to those vaccinated initially with LV. Low levels of RSV replication were detected in lungs of mice vaccinated with KV/KV, KV/LV, and LV/KV, but not in mice vaccinated with LV/LV. Mice vaccinated with KV/LV, LV/KV, or LV/LV had RSV-specific CTL activity in lungs six days after RSV challenge, while no CTL activity was detected in KV/KV-vaccinated mice. Mice vaccinated with KV/KV had the greatest weight loss, while LV/LV-vaccinated mice resulted in the least. Mice vaccinated with either KV/LV or LV/KV had intermediate weight loss after challenge. These data indicate that an original antigenic sin-like phenomenon was exhibited in cytokine and immunoglobulin isotype responses in mice after challenge. T helper (Th)-like immune responses were determined solely by the initial vaccination, while weight loss, viral replication, neutralizing antibody responses, and CTL activities were also influenced by boosted vaccinations.

Respiratory syncytial virus: the virus, the disease and the immune response

RSV is the primary cause of hospitalisation in the first year of life for children in most parts of the world, and nearly 100% of children in the USA are infected with the virus by 2 to 3 years of age. The agent is an enveloped RNA virus with a non-segmented single-stranded negative-sense genome. The viral genome encodes 8 structural and 2 non-structural proteins. Important structural proteins include the fusion (F) protein and the attachment (G) protein which are essential for viral penetration and attachment to the host cells. Both proteins are important in development of immune responses. The virus is estimated to cause 3000 to 4000 deaths annually. Primary infections are as a rule symptomatic. The spectrum of clinical manifestations ranges from mild upper tract illness, infection in middle ear which progresses to acute otitis media, croup, to apnoea in premature infants, pneumonia and bronchiolitis. Premature babies born at 30-35 weeks of gestation, infants with cyanotic congenital heart disease, HIV-infected subjects, and patients on intensive immunosuppressive therapy especially after bone marrow transplant are considered to be at risk for increased mortality and morbidity during RSV infection. The virus does not normally replicate outside of the bronchopulmonary tree and the infection is exquisitely restricted to the respiratory mucosa. However, development of extrapulmonary disease has been observed in certain T and B cell immunodeficiency states. The association of RSV with asthma and reversible reactive airway disease in early childhood has attracted significant attention. Recurrent wheezing for up to 5 to 7 years of age and established airway disease has been observed in a significant number of children with a strong family history of allergy, after primary infection or reinfection with RSV. Immune response to primary infection is relatively small but on reinfection, a significant booster effect with sustained immunologic reactivity is observed in serum and respiratory mucosa. Both CD(4)- and CD(8)-specific as well as Th(1)- and Th(2)-cell specific immune responses have been observed during human infection. In addition, proinflammatory as well as immunoregulatory cytokines and chemokines are induced in the respiratory tract after natural and induced (in vitro) infection. Significant progress has been made in understanding the role of Th(1) vs. Th(2), IgE, viral induced cytokines and chemokines in the mechanisms of pathogenesis of the disease, development of wheezing and in the prevention and treatment of the infection and its sequelae. Respiratory syncytial virus (RSV) is one of the commonest human viral infections, and virtually every child is infected by the third birthday. Because of its restricted mucosal immunopathology, and frequent association with bronchial hyperreactivity and development of wheezing, RSV has served as an important model to investigate mechanisms of mucosal immune responses and development of mucosal disease following infection. The importance of RSV in bronchopulmonary disease and development of bronchial hyperreactivity has been the focus of several recent symposia [Kimpen JL, Simoes EAF. Am J Respir Crit Care Med 2001; 163:S1-S6]. This brief report will only summarise, based on selected references, the historical landmarks of its discovery and current understanding of the mechanisms of immunity, and their possible role in the pathogenesis of bronchopulmonary disease.

The clinical and health economic burden of respiratory syncytial virus disease among children under 2 years of age in a defined geographical area

AIMS

To describe the clinical and health economic impact of respiratory syncytial virus (RSV) disease in children under 2 years of age.

METHODS

Hospitalised children less than 2 years of age with a respiratory illness were studied over three consecutive RSV seasons (1996-99).

RESULTS

The rates (per 1000 infants under 1 year of age) of hospitalisations from bronchiolitis and RSV illness were 30.8 and 24.4 respectively. The rates of death, intensive care admission, and need for ventilatory assistance during RSV related hospitalisation were 0.2%, 2.7%, and 1.5% respectively. From a cohort of 841 preterm infants, 6.3% had an RSV related hospitalisation during the study period, with the rate rising to 9.2% among those who were either born before 36 weeks gestation and were under 6 months of age at the onset of the RSV seasons, or were less than 2 years of age with chronic lung disease needing home oxygen therapy. Eight of 25 children on home oxygen therapy had RSV related rehospitalisation. Need for assisted ventilation during the neonatal period and discharge home on oxygen therapy were significantly associated with the risk of subsequent RSV related hospitalisation in preterm infants less than 6 months of age. The direct health authority cost of all RSV hospitalisations was pound 542 203, while the currently recommended immunoprophylaxis for the high risk infants would have cost pound 652 960.

CONCLUSIONS

Preterm infants receiving assisted ventilation and those on home oxygen therapy are particularly at risk of RSV related hospitalisation. Serious adverse outcomes are however uncommon even among these high risk infants.

Bronchiolitis caused by respiratory syncytial virus in an area of portugal: epidemiology, clinical features, and risk factors

The aim of the present study was to analyse the clinical and epidemiological characteristics of bronchiolitis caused by respiratory syncytial virus (RSV) in 225 children observed in a paediatric hospital in Lisbon, Portugal, and to determine the clinical, epidemiological, or laboratory parameters that correlate with greater severity of the disease. This prospective study included hospitalised and ambulatory children younger than 36 months of age with a diagnosis of bronchiolitis and was conducted during two consecutive RSV epidemiological seasons (November-March 2000/01 and 2001/02). The median age of the patients was 5 months, and the male-to-female ratio was 1.6:1. RSV was isolated in 60.9% of patients, predominantly in the hospitalised group. The subtype A:B ratio was 7.4:1 and was similar in both seasons. RSV-positive patients were younger, had more severe clinical forms of bronchiolitis, and fewer changes in leucocyte total and differential counts. Among infected patients, higher clinical severity scores occurred in association with first wheezing episodes, overcrowded households, attendance at day-care centres, or prematurity (<36 weeks). This first prospective study of RSV epidemiology in Portugal provides a foundation for appropriate surveillance programmes of RSV infection in this country. A multicentre study is desirable in order to delineate optimal prophylactic and therapeutic guidelines for RSV infection in Portugal.

Complications in infants hospitalized for bronchiolitis or respiratory syncytial virus pneumonia

OBJECTIVE

To characterize complications among infants hospitalized for bronchiolitis or respiratory syncytial virus (RSV).

STUDY DESIGN

Retrospective data from 684 infants with bronchiolitis or RSV pneumonia, < or =1 year old, admitted to 10 children's hospitals from April 1995 to September 1996. Outcomes included complication rates and effects on hospital and pediatric intensive care unit (PICU) length of stay (LOS) and hospital costs.

RESULTS

Most infants (79%) had one or more complication, with serious complications in 24%. Even minor complications were associated with significantly longer PICU and hospital LOS and higher costs (P<.001). Respiratory complications were most frequent (60%), but infectious (41%), cardiovascular (9%), electrolyte imbalance (19%), and other complications (9%) were common. Complication rates were higher in former premature infants (87%), infants with congenital heart disease (93%), and infants with other congenital abnormalities (90%) relative to infants without risk factors (76%). Infants 33 to 35 weeks gestational age (GA) had the highest complication rates (93%), longer hospital LOS, and higher costs (P<.004) than other former premature infants.

CONCLUSIONS

Complications were common in infants hospitalized for bronchiolitis or RSV pneumonia and were associated with longer LOS and higher costs. Former premature infants and infants with congenital abnormalities are at significantly greater risk for complications. Broader use of RSV prevention should be considered for these higher-risk infants.

Environmental and demographic risk factors for respiratory syncytial virus lower respiratory tract disease

OBJECTIVE

To critically review the literature examining risk factors for development of severe respiratory syncytial virus lower respiratory tract infection (RSV LRI).

STUDY DESIGN

A literature review was performed with the use of a MedLine search strategy. Clinical evidence of putative risk factors was rated by means of the US Preventive Services Task Force recommendations, and the quality of the data was critically assessed. Nonmedical risk factors examined included race/ethnicity, age of acquisition of RSV, sex, birth during the first half of the RSV season, breast-feeding, malnutrition, maternal education, socioeconomic status, crowding/siblings, day care, and tobacco smoke exposure.

RESULTS

There was sufficient evidence available to conclude that (1) male sex, (2) age <6 months, (3) birth during the first half of the RSV season, (4) crowding/siblings, and (5) day care exposure are significant risk factors for severe RSV LRI. There was insufficient evidence to evaluate the effect of race/ethnicity on severe RSV LRI. The evidence for tobacco smoke exposure is mixed. Low maternal education (as a proxy for lower socioeconomic status), lack of breast-feeding, and malnutrition did not appear to increase the risk of severe RSV LRI or RSV hospitalization.

CONCLUSIONS

Male sex, young age, birth in the first half of the RSV season, day care attendance, and crowding/siblings are independent risk factors for the development of severe RSV LRI.

Effects of human metapneumovirus and respiratory syncytial virus antigen insertion in two 3' proximal genome positions of bovine/human parainfluenza virus type 3 on virus replication and immunogenicity

A live attenuated bovine parainfluenza virus type 3 (PIV3), harboring the fusion (F) and hemagglutinin-neuraminidase (HN) genes of human PIV3, was used as a virus vector to express surface glycoproteins derived from two human pathogens, human metapneumovirus (hMPV) and respiratory syncytial virus (RSV). RSV and hMPV are both paramyxoviruses that cause respiratory disease in young children, the elderly, and immunocompromised individuals. RSV has been known for decades to cause acute lower respiratory tract infections in young children, which often result in hospitalization, while hMPV has only been recently identified as a novel human respiratory pathogen. In this study, the ability of bovine/human PIV3 to express three different foreign transmembrane surface glycoproteins and to induce a protective immune response was evaluated. The RNA-dependent RNA polymerase of paramyxoviruses binds to a single site at the 3' end of the viral RNA genome to initiate transcription of viral genes. The genome position of the viral gene determines its level of gene expression. The promoter-proximal gene is transcribed with the highest frequency, and each downstream gene is transcribed less often due to attenuation of transcription at each gene junction. This feature of paramyxoviruses was exploited using the PIV3 vector by inserting the foreign viral genes at the 3' terminus, at position 1 or 2, of the viral RNA genome. These locations were expected to yield high levels of foreign viral protein expression stimulating a protective immune response. The immunogenicity and protection results obtained with a hamster model showed that bovine/human PIV3 can be employed to generate bivalent PIV3/RSV or PIV3/hMPV vaccine candidates that will be further evaluated for safety and efficacy in primates.

Real-time PCR to improve the diagnosis of respiratory syncytial virus infection

Respiratory syncytial virus (RSV) is one of the most important virus respiratory pathogens in infants and young children. A rapid and sensitive diagnosis is essential to focus any outbreak due to this virus. A real-time RT-PCR method was designed using a primer/probe pair from the F gene. Simultaneously with nested RT-PCR and antigen ELISA, 71 consecutive specimens from hospitalized children with clinical symptoms of acute respiratory distress were evaluated to confirm the incidence of RSV infection. RSV was detected in 25 (35.2 %) specimens by real-time RT-PCR and in 19 (26.7 %) by nested RT-PCR. The assay was specific for RSV. The procedure offers a rapid and sensitive alternative to conventional RT-PCR. Closed-tube detection eliminates the risk of contamination.

Admission to the intensive care unit for respiratory syncytial virus bronchiolitis: a national survey before palivizumab use

OBJECTIVE

Preterm infants, especially those with chronic lung disease (CLD), are considered more susceptible to severe respiratory illness from respiratory syncytial virus (RSV) infection than healthy term infants, and are therefore targeted for prophylactic administration of immune globulins. The impact of this practice on the more severe cases of bronchiolitis (i.e., pediatric intensive care unit [PICU] admission, mechanical ventilation, mortality) has not been reported to date. The aim of this study was to evaluate PICU admissions, need for mechanical ventilation, and mortality attributable to RSV bronchiolitis in Israel before the introduction of RSV prophylaxis to the country.

DESIGN AND SETTING

Prospective survey of 11 PICUs in Israel during the RSV season (November 2000-March 2001).

PATIENTS

All patients admitted to the PICU because of bronchiolitis, and the subgroups who needed mechanical ventilation or who died, were analyzed for known risk factors, namely, prematurity, CLD, and chronic oxygen dependence.

RESULTS

A total of 105 patients with RSV bronchiolitis met the inclusion criteria, of whom 33 were mechanically ventilated. Most of the patients (84% total admission, 88% ventilated) were born after 32 weeks' gestation, and 89% and 88%, respectively, did not have CLD. Only 16% and 9%, respectively, met any of the American Academy of Pediatrics criteria for RSV prophylaxis, such that 84% of the whole sample and 91% of the ventilated patients were not candidates for RSV prophylaxis. Five patients died, 2 of them with cyanotic heart disease.

CONCLUSIONS

Most of the infants with severe RSV bronchiolitis were born at term and did not have CLD. The great majority of patients admitted to the PICU for bronchiolitis were not candidates for RSV prophylaxis. Administration of RSV prophylaxis to the predefined high-risk population could be expected to yield no significant change in PICU admissions or number of infants needing mechanical ventilation. New risk-stratified guidelines for RSV prophylaxis are needed.

Comparison of quantitative reverse transcription-PCR to viral culture for assessment of respiratory syncytial virus shedding

Respiratory syncytial virus (RSV) has recently been recognized as a serious pathogen in elderly and immunocompromised adults. Diagnosis of acute infection in adults is often difficult due to the insensitivity of viral culture, and reverse transcription-PCR (RT-PCR) is a more sensitive alternative. The relationship of quantitative RT-PCR to viable virus has never been studied for RSV. Therefore, we compared a quantitative real-time RT-PCR with viral culture to assess viral load in adult volunteers challenged with the RSV A2 strain. Twelve of 13 volunteers were infected, and there was a high correlation (r = 0.84) between quantitative RT-PCR and viral titer by cell culture. However, RT-PCR was more sensitive, with 73 of 169 (43%) samples positive compared to 58 (34%) samples positive by culture. The correlation between the two tests was highest early in the course of viral shedding (r = 0.91, days 0 to 6), whereas during days 7 to 13, there was more variability (r = 0.70). All subjects were culture negative by day 11, whereas one subject remained RT-PCR positive on day 12. All subjects were RT-PCR negative at day 28 postinfection. Quantitative RT-PCR has an excellent correlation with viral titers, as measured by culture, and should be a useful tool for future studies addressing viral load and disease pathogenesis.

Bovine parainfluenza virus type 3 (PIV3) expressing the respiratory syncytial virus (RSV) attachment and fusion proteins protects hamsters from challenge with human PIV3 and RSV

Parainfluenza virus type 3 (PIV3) and respiratory syncytial virus (RSV) are the main causes of ubiquitous acute respiratory diseases of infancy and early childhood, causing 20-25 % of pneumonia and 45-50 % of bronchiolitis in hospitalized children. The primary goal of this study was to create an effective and safe RSV vaccine based on utilizing attenuated bovine PIV3 (bPIV3) as a virus vector backbone. bPIV3 had been evaluated in human clinical trials and was shown to be attenuated and immunogenic in children as young as 2 months of age. The ability of bPIV3 to function as a virus vaccine vector was explored further by introducing the RSV attachment (G) and fusion (F) genes into the bPIV3 RNA genome. The resulting virus, bPIV3/RSV(I), contained an insert of 2900 nt, comprising two translationally competent transcription units. Despite this increase in genetic material, the virus replicated to high titres in Vero cells. This recombinant virus expressed the RSV G and F proteins sufficiently to evoke a protective immune response in hamsters upon challenge with RSV or human PIV3 and to elicit RSV neutralizing and PIV3 haemagglutinin inhibition serum antibodies. In effect, a bivalent vaccine was produced that could protect vaccinees from RSV as well as PIV3. Such a vaccine would vastly reduce the respiratory disease burden, the associated hospitalization costs and, most importantly, decrease morbidity and mortality of infants, immunocompromised individuals and the elderly.

Development of respiratory syncytial virus "bronchiolitis" in guinea pigs does not reflect an allergic predisposition in the host

BACKGROUND

Respiratory syncytial virus (RSV) infection causes bronchiolitis in a minority of children. Using a guinea pig model to determine if an allergic predisposition in the host increases permissiveness to RSV infection or severity of experimental "bronchiolitis," we compared the effects of RSV inoculation between strain 2 (allergy-resistant) and strain 13 (allergy-susceptible) inbred animals.

METHODS

One month-old, juvenile guinea pigs were classified into four groups (eight guinea pigs per group): (group 1) strain 2, uninfected; (group 2) strain 13, uninfected; (group 3) strain 2, RSV infected; and (group 4) strain 13, RSV infected. Seven days after inoculation, the animals were studied by the following: viral plaque assays for quantification of intrapulmonary RSV; immunohistochemical localization of RSV antigens in lung tissue sections; physiologic assessment of airway obstruction and nonspecific bronchial hyperresponsiveness; quantitative histology of airway T lymphocytes, neutrophils, and eosinophils; and semiquantitative reverse transcriptase-polymerase chain reaction for levels of messenger RNA expression of a panel of proinflammatory cytokines and chemokines.

RESULTS

Significantly higher titers of replicating RSV were isolated from the lungs of strain 13 vs strain 2 animals (p < or = 0.001). The two guinea pig strains showed similar cell types with positive viral immunostaining; RSV-associated changes in airway obstruction and nonspecific bronchial hyperresponsiveness; airway T cells, neutrophils, and eosinophils; and messenger RNA expression of cytokines and chemokines.

CONCLUSIONS

Strain 13 guinea pigs show increased pulmonary RSV replication than strain 2 animals, but this increased permissiveness to the virus is not reflected by more severe virus-induced changes in airway obstruction, nonspecific bronchial hyperresponsiveness, airway inflammation, or gene expression of proinflammatory cytokines and chemokines.

Rehospitalization for respiratory syncytial virus infection in infants with extremely low gestational age or birthweight in Denmark

AIM

To determine the risk of rehospitalization for respiratory syncytial virus (RSV) infection during the first 2 y of life in extremely preterm infants.

METHODS

Records on all rehospitalizations during the first 2 living years of all infants born with gestational age <28 wk or birthweight <1,000g during 1994 and 1995 in Denmark were retrospectively reviewed.

RESULTS

Among 240 eligible infants, 43 (18%) had been rehospitalized 48 times owing to RSV. In infants (n = 210) without CLD the risk of rehospitalization for RSV was 16%, whereas in infants with CLD (n = 30) it was 30% (p = 0.065). Eighteen infants (38%) required respiratory support (supplemental oxygen only 3, continuous positive airway pressure 14, mechanical ventilation 1). Apart from CLD the only factor that could be associated with increased risk of hospitalization for RSV was discharge during autumn (p = 0.05). No infant died from RSV infection.

CONCLUSION

The high rate of rehospitalization for RSV in extremely preterm infants in Denmark, especially in infants with CLD, should lead to considerations concerning more widespread use of prophylaxis against RSV in these infants.

Winter respiratory viruses and health care use: a population-based study in the northwest United States

To quantify health care use among adults during influenza and respiratory syncytial virus (RSV) seasons, we identified a cohort of veterans aged >or=18 years who used Department of Veterans Affairs (VA) facilities in Oregon and Washington states as their source of health care. During 1998-2000, veterans accrued 237,159 person-years of follow-up. Using VA data sources, we measured acute cardiopulmonary hospitalizations and primary care and urgent care visits. Differences between rates of study events when influenza and/or RSV were circulating and event rates when neither virus was circulating were used to calculate winter virus-attributable morbidity. Inpatient and outpatient event rates were consistently higher during winter virus season, compared with non-winter virus season. Annual rates of cardiopulmonary hospitalizations attributable to influenza or RSV infection ranged from 0.8 (95% confidence interval [CI], 0.1-1.5) per 1000 low-risk individuals aged 18-49 years, to 10.6 (95% CI, 7.5-13.6) per 1000 high-risk individuals aged >or=65 years. Each year, circulation of influenza and RSV coincide with predictable increases in medical care use.

Mature CD8(+) T lymphocyte response to viral infection during fetal life

Immunization of newborns against viral infections may be hampered by ineffective CD8(+) T cell responses. To characterize the function of CD8(+) T lymphocytes in early life, we studied newborns with congenital human cytomegalovirus (HCMV) infection. We demonstrate that HCMV infection in utero leads to the expansion and the differentiation of mature HCMV-specific CD8(+) T cells, which have similar characteristics to those detected in adults. High frequencies of HCMV-specific CD8(+) T cells were detected by ex vivo tetramer staining as early as after 28 weeks of gestation. During the acute phase of infection, these cells had an early differentiation phenotype (CD28(-)CD27(+)CD45RO(+), perforin(low)), and they acquired a late differentiation phenotype (CD28(-)CD27(-)CD45RA(+), perforin(high)) during the course of the infection. The differentiated cells showed potent perforin-dependent cytolytic activity and produced antiviral cytokines. The finding of a mature and functional CD8(+) T cell response to HCMV suggests that the machinery required to prime such responses is in place during fetal life and could be used to immunize newborns against viral pathogens.

Recent advances in the chemistry of parainfluenza-1 (Sendai) virus inhibitors

Purine and pyrimidine derivatives, antioxidants, fusion inhibitors, statins, prostaglandins, antibiotic nucleosides, inhibitors of Ca(2+) homeostasis, carbohydrate derivatives, antisense polynucleotides and chimeras, are described as inhibitors of parainfluenza-1 (Sendai) viral infections.

Sendai virus vectors as an emerging negative-strand RNA viral vector system

The power to manipulate the genome of negative-strand RNA viruses, including the insertion of additional non-viral genes, has led to the development of a new class of viral vectors for gene transfer approaches. The murine parainfluenza virus type I, or Sendai virus (SeV), has emerged as a prototype virus of this vector group, being employed in numerous in vitro as well as animal studies over the last few years. Extraordinary features of SeV are the remarkably brief contact time that is necessary for cellular uptake, a strong but adjustable expression of foreign genes, efficient infection in the respiratory tract despite a mucus layer, transduction of target cells being independent of the cell cycle, and an exclusively cytoplasmic replication cycle without any risk of chromosomal integration. In this review we describe the current knowledge of Sendai virus vector (SeVV) development as well as the results of first-generation vector applications under both in vitro and in vivo conditions. So far, Sendai virus vectors have been identified to be a highly efficient transduction tool for a broad range of different tissues and applications. Future directions in vector design and development are discussed.

Progress towards achieving new vaccine and vaccination goals

Abstract Viral and bacterial vaccines, especially for childhood use, are one of the most successful public health measures of the last two centuries and have a good safety record. However, there are still many diseases that are caused by infectious agents for which vaccines are not available. Our increasing ability to manipulate the immune system offers hope that, in the future, at least some of these infections may be prevented by vaccination. A surprising recent development is the use of vaccine technology to test whether a range of other generally non-communicable diseases can be prevented (or at least controlled) in this way. Investigation of these diseases is still mainly at the experimental level, however the list includes different types of cancers, allergies, drug addiction and neurodegenerative diseases.

Respiratory syncytial virus in blood and marrow transplant recipients

Nurses caring for blood and bone marrow transplant recipients need to understand the effects that respiratory syncytial virus (RSV) infection can have on transplant recipients, family members, and healthcare providers. With knowledge about the virulence and transmission of RSV, nurses are in a position to educate patients and family, reduce nosocomial spread of the infection, and influence clinical practice. By recognizing specific risk factors for infection, nurses can act as gatekeepers who identify candidates to screen and enhance early detection of infection. Nurses need to possess knowledge of early detection, implement clinical management strategies and precautions, and optimize delivery of appropriate therapy while maintaining a safe environment for all people involved. This article reviews RSV's clinical risk factors, transmission, signs and symptoms, diagnosis, treatment options, and impact on transplant recipients and candidates.

Infection of murine precision cut lung slices (PCLS) with respiratory syncytial virus (RSV) and chlamydophila pneumoniae using the Krumdieck technique

The Krumdieck technique allows the investigation of the so-called precision cut lung slices (PCLS) with a special microtome. It is thus possible to evaluate morphologic changes over a longer period of time using only a small group of animals. Chlamydophila pneumoniae (Cp) and respiratory syncytial virus (RSV) proved to be important causes of pneumonia, rhinitis and exacerbations of asthma bronchiale, as well as of lower respiratory tract infections in young children. PCLS should be tested for their suitability as an in vitro model for these infections. The PCLS were infected with Cp and RSV over different periods of time. Investigations were carried out by light and transmission electron microscopy (TEM). Furthermore, immunofluorescence (IF) studies with antibodies against bacterial or viral proteins and cell-specific markers were done using confocal laser scanning microscopy (CLSM). Non-infected and infected PCLS showed a well-preserved morphology up to 72 hours. After short infection intervals, typical inclusions of Cp or RSV were detected in vacuoles of different cell types. Infection and cell types could be verified using IF. Cytopathic effects were not prominent. Ciliary beat was detectable up to 96 hours after infection. This in vitro technique offers the possibility of studying mechanisms and effects of bacterial and viral infections on viable tissue complexes.

The G glycoprotein of respiratory syncytial virus depresses respiratory rates through the CX3C motif and substance P

Respiratory syncytial virus (RSV) infection in the neonate can alter respiratory rates, i.e., lead to episodes of apnea. We show that RSV G glycoprotein reduces respiratory rates associated with the induction of substance P (SP) and G glycoprotein-CX3CR1 interaction, an effect that is inhibited by treatment with anti-G glycoprotein, anti-SP, or anti-CX3CR1 monoclonal antibodies. These data suggest new approaches for treating some aspects of RSV disease.

Mature CD8(+) T lymphocyte response to viral infection during fetal life

Immunization of newborns against viral infections may be hampered by ineffective CD8(+) T cell responses. To characterize the function of CD8(+) T lymphocytes in early life, we studied newborns with congenital human cytomegalovirus (HCMV) infection. We demonstrate that HCMV infection in utero leads to the expansion and the differentiation of mature HCMV-specific CD8(+) T cells, which have similar characteristics to those detected in adults. High frequencies of HCMV-specific CD8(+) T cells were detected by ex vivo tetramer staining as early as after 28 weeks of gestation. During the acute phase of infection, these cells had an early differentiation phenotype (CD28(-)CD27(+)CD45RO(+), perforin(low)), and they acquired a late differentiation phenotype (CD28(-)CD27(-)CD45RA(+), perforin(high)) during the course of the infection. The differentiated cells showed potent perforin-dependent cytolytic activity and produced antiviral cytokines. The finding of a mature and functional CD8(+) T cell response to HCMV suggests that the machinery required to prime such responses is in place during fetal life and could be used to immunize newborns against viral pathogens.

Interaction between respiratory syncytial virus and particulate matter in guinea pig alveolar macrophages

Alveolar macrophages (AM) play a pivotal role in host lung defense mechanisms. Respiratory syncytial virus (RSV) stimulates secretion of proinflammatory cytokines in AM while it suppresses the cell's phagocytic ability. However, exposure of AM to ambient particulate matter (PM10) has been reported to inhibit RSV uptake. The mechanisms involved in the interaction between RSV and PM10 in AM are not known. We hypothesize that the cellular response of AM to RSV and PM10 is dependent on the sequence in which AM are exposed to these agents. In this study, we compared the sequential effect of RSV and PM10 exposure in vitro on the phagocytic function of guinea pig AM, the RSV Yield in AM, and the production of proinflammatory cytokines (interleukin [IL]-6, IL-8, and tumor necrosis factor [TNF]-alpha). The ability of AM to phagocytose PM10 was not affected by sequential exposure to RSV and PM10. RSV Yield was severely decreased in PM10-exposed AM, regardless of sequence of exposure, compared with AM that were not exposed to PM10 (P < 0.004). Exposure of AM to RSV and/or PM10 resulted in enhanced secretion of bioactive TNF-alpha compared with controls (P < 0.02), without synergistic or inhibitory interaction of these agents on TNF-alpha production. By contrast, exposure of AM to PM10 significantly decreased the production of RSV-induced IL-6 (P < 4 x 10(-6)) and IL-8 (P < 0.003). In summary, our findings suggest that PM10 exposure may interfere with mechanisms of RSV replication and viral-induced cytokine production in guinea pig AM, independent of the sequence of exposure to these agents.

Common community respiratory viruses in patients with cancer: more than just "common colds"

Community respiratory viruses long have been recognized as primary respiratory pathogens among infants and young children. More recently, it has become clear that these viruses cause a considerable disease burden throughout life. The consequences of repeated infections are most evident in elderly and immunocompromised persons. Even in otherwise healthy persons, reinfections often require medical attention but generally are undiagnosed and unrecognized. These reinfections may spread from healthy persons to those at highest risk. Control requires a multifaceted approach combining vaccination, chemoprophylaxis, and aggressive early antiviral treatment of high-risk individuals, as well as education of all populations affected by these viruses.

Ribavirin treatment up-regulates antiviral gene expression via the interferon-stimulated response element in respiratory syncytial virus-infected epithelial cells

Respiratory syncytial virus (RSV) is a mucosa-restricted virus that is a leading cause of epidemic respiratory tract infections in children. RSV replication is a potent activator of the epithelial-cell genomic response, influencing the expression of a spectrum of cellular pathways, including proinflammatory chemokines of the CC, CXC, and CX(3)C subclasses. Ribavirin (1-beta-D-ribofuranosyl-1,2,4-triazole-3-carboxamide) is a nontoxic antiviral agent currently licensed for the treatment of severe RSV lower respiratory tract infections. Because ribavirin treatment reduces the cytopathic effect in infected cells, we used high-density microarrays to investigate the hypothesis that ribavirin modifies the virus-induced epithelial genomic response to replicating virus. Ribavirin treatment administered in concentrations of 10 to 100 micro g/ml potently inhibited RSV transcription, thereby reducing the level of RSV N transcripts to approximately 13% of levels in nontreated cells. We observed that in both the absence and the presence of ribavirin, RSV infection induced global alterations in the host epithelial cell, affecting approximately 49% of the approximately 6,650 expressed genes detectable by the microarray. Ribavirin influences the expression of only 7.5% of the RSV-inducible genes (total number of genes, 272), suggesting that the epithelial-cell genetic program initiated by viral infection is independent of high-level RSV replication. Hierarchical clustering of the ribavirin-regulated genes identified four expression patterns. In one group, ribavirin inhibited the expression of the RSV-inducible CC chemokines MIP-1 alpha and -1 beta, which are important in RSV-induced pulmonary pathology, and interferon (IFN), a cytokine important in the mucosal immune response. In a second group, ribavirin further up-regulated a set of RSV- and IFN-stimulated response genes (ISGs) encoding antiviral proteins (MxA and p56), complement products, acute-phase response factors, and the STAT and IRF transcription factors. Because IFN-beta expression itself was reduced in the ribavirin-treated cells, we further investigated the mechanism for up-regulation of the IFN-signaling pathway. Enhanced expression of IFI 6-16, IFI 9-27, MxA/p78, STAT-1 alpha, STAT-1 beta, IRF-7B, and TAP-1-LMP2 transcripts were independently reproduced by Northern blot analysis. Ribavirin-enhanced TAP-1-LMP2 expression was a transcriptional event where site mutations of the IFN-stimulated response element (ISRE) blocked RSV and ribavirin-inducible promoter activity. Furthermore, ribavirin up-regulated the transcriptional activity of a reporter gene selectively driven by the ISRE. In specific DNA pull-down assays, we observed that ribavirin enhanced RSV-induced STAT-1 binding to the ISRE. We conclude that ribavirin potentiates virus-induced ISRE signaling to enhance the expression of antiviral ISGs, suggesting a mechanism for the efficacy of combined treatment with ribavirin and IFN in other chronic viral diseases.

CXCR2 regulates respiratory syncytial virus-induced airway hyperreactivity and mucus overproduction

Severe inflammation and mucus overproduction are partially responsible for respiratory syncytial virus (RSV)-induced disease in infants. Using a murine model, we characterized the virally induced chemokine receptors responsible for mediating the pathophysiological response to RSV infection, we found that CXCR2 mRNA was induced at 4 days after RSV infection. Immunohistochemical staining demonstrated that CXCR2 protein was expressed on alveolar macrophages. Immunoneutralization of CXCR2 resulted in decreased airway hyperreactivity relative to the RSV-infected controls. In addition, there was decreased mucus in the bronchoalveolar lavage fluid, decreased periodic-acid Schiff staining, and significantly less mucus-associated gob-5 mRNA and protein in anti-CXCR2-treated mice. The effects of anti-CXCR2 treatment were not a result of differences in viral clearance or neutrophil influx, as these parameters were comparable in both groups of animals. To confirm our immunoneutralization studies, we performed experiments in CXCR2(-/-) mice. Results in CXCR2(-/-) mice recapitulated results from our immunoneutralization studies. However, CXCR2(-/-) mice also showed a statistically significant decrease in muc5ac, relative to RSV-infected wild-type animals. Thus, CXCR2 may be a relevant target in the pathogenesis of RSV bronchiolitis, since it contributes to mucus production and airway hyperreactivity in our model of RSV infection.

Infectious etiology of bronchiolitis obliterans: the respiratory viruses connection - myth or reality?

A variety of viruses, such as the influenza viruses A and B, the human respiratory syncytial virus, the parainfluenza viruses, and the adenoviruses, cause seasonal respiratory tract infections in young children and adults. Also, studies indicate that these viruses are an important group of pathogens in pediatric and adult lung transplant recipients. More importantly, accumulating data on these infections among lung transplant patients suggest that these illnesses may have immediate and long-term implications for the function of the transplanted lung, including the development of bronchiolitis obliterans. This is important because patient survival and allograft function in lung transplantation remain limited by the development of bronchiolitis obliterans. Models of lung transplantation indicate that respiratory viral infections cause acute and chronic airway damage after transplantation. The mechanism leading to allograft damage by respiratory viruses may be related to the production of alloreactive cytokines such as interleukin (IL)-1, tumor necrosis factor, IL-6 and IL-8 during viral replication. Current clinical data are suggestive of a possible role for respiratory viruses in the development of bronchiolitis obliterans, but further control studies are required to evaluate the significance of respiratory virus infections as a causal factor in the development of bronchiolitis obliterans in lung transplantation.

Nebulized 3% hypertonic saline solution treatment in hospitalized infants with viral bronchiolitis

OBJECTIVE

To determine the utility of inhaled hypertonic saline solution to treat infants hospitalized with viral bronchiolitis.

DESIGN

Randomized, double-blind, controlled trial. Fifty-two hospitalized infants (mean +/- SD age, 2.9 +/- 2.1 months) with viral bronchiolitis received either inhalation of epinephrine, 1.5 mg, in 4 mL of 0.9% saline solution (group 1; n = 25) or inhalation of epinephrine, 1.5 mg, in 4 mL of 3% saline solution (group 2; n = 27). This therapy was repeated three times every hospitalization day until discharge.

RESULTS

The percentage improvement in the clinical severity scores after inhalation therapy was not significant in group 1 on the first, second, and third days after hospital admission (3.5%, 2%, and 4%, respectively). In group 2, significant improvement was observed on these days (7.3%, 8.9%, and 10%, respectively; p < 0.001). Also, the improvement in clinical severity scores differed significantly on each of these days between the two groups. Using 3% saline solution decreased the hospitalization stay by 25%: from 4 +/- 1.9 days in group 1 to 3 +/- 1.2 days in group 2 (p < 0.05).

CONCLUSIONS

We conclude that in nonasthmatic, nonseverely ill infants hospitalized with viral bronchiolitis, aerosolized 3% saline solution/1.5 mg epinephrine decreases symptoms and length of hospitalization as compared to 0.9% saline solution/1.5 mg epinephrine.

Parainfluenza virus infection in adult lung transplant recipients: an emergent clinical syndrome with implications on allograft function

Parainfluenza virus is a common cause of seasonal upper respiratory tract infections in children and adults. Studies indicate that parainfluenza virus may play an important role in the etiology of respiratory tract infections in lung transplant recipients with an estimated incidence of 5.3 per 100 patients. Parainfluenza virus type 3 is the most frequent serotype in lung transplant patients. The rate of lower respiratory tract infections with parainfluenza virus among lung transplant recipients is between 10 and 66% of cases. In addition, trans-bronchial biopsy at the time of parainfluenza infection shows signs of acute allograft rejection. Subsequently, 32% of patients have been found to have active bronchiolitis obliterans at a median time of 6 months (range 1-14) postviral infection. These findings indicate that parainfluenza virus infections may have long-term implications for lung transplant recipients. Further studies are required to identify the mechanisms of immunomodulation of parainfluenza virus among these patients. In addition, controlled studies are needed to evaluate the efficacy of aerosolized ribavarin in the treatment of parainfluenza virus infection and to determine whether vaccines may be effective in these high-risk patients.

Origins of reactive airways disease in early life: do viral infections play a role?

There is mounting evidence suggesting that infection with respiratory syncytial virus (RSV) in early life increases the risk of developing reactive airway disease (RAD) later in childhood. A recent prospective study demonstrated that children hospitalized with RSV bronchiolitis in infancy face a significantly increased risk of recurrent wheezing and allergy at least until the age of 7 y that is independent of hereditary factors. Proposed mechanisms for this link include immune dysregulation, in which RSV-specific IgE or an imbalance between T-lymphocyte-dependent immune pathways may be involved, and abnormal neural control, in which the non-adrenergic, non-cholinergic pathways are altered by RSV infection. More recent studies suggest that immune and neural mechanisms may be linked and that post-RSV airway inflammation may be explained, at least in part, on the basis of these neuroimmune interactions.

CONCLUSION

Passive immunoprophylaxis may protect against persistent viral-induced inflammation of the respiratory tract, long-term changes in pulmonary function and increased frequency of RAD episodes.

Detection of human respiratory syncytial virus in respiratory samples by LightCycler reverse transcriptase PCR

Laboratory diagnosis of human respiratory syncytial virus (hRSV) infections has traditionally been performed by virus isolation in cell culture and the direct fluorescent-antibody assay (DFA). Reverse transcriptase PCR (RT-PCR) is now recognized as a sensitive and specific alternative for detection of hRSV in respiratory samples. Using the LightCycler instrument, we developed a rapid RT-PCR assay for the detection of hRSV (the LC-RT-PCR) with a pair of hybridization probes that target the hRSV L gene. In the present study, 190 nasopharyngeal aspirate samples from patients with clinically recognized respiratory tract infections were examined for hRSV. The results were then compared to the results obtained with a testing algorithm that combined DFA and a culture-augmented DFA (CA-DFA) assay developed in our laboratory. hRSV was detected in 77 (41%) specimens by LC-RT-PCR and in 75 (39%) specimens by the combination of DFA and CA-DFA. All specimens that were positive by the DFA and CA-DFA testing algorithm were positive by the LC-RT-PCR. The presence of hRSV RNA in the two additional LC-RT-PCR-positive specimens was confirmed by a conventional RT-PCR method that targets the hRSV N gene. The sensitivity of LC-RT-PCR was 50 PFU/ml; and this, together with its high specificity and rapid turnaround time, makes the LC-RT-PCR suitable for the detection of hRSV in clinical specimens.

Nebulized 3% hypertonic saline solution treatment in ambulatory children with viral bronchiolitis decreases symptoms

OBJECTIVE

To determine the utility of inhaled hypertonic saline solution to treat ambulatory infants with viral bronchiolitis.

DESIGN

Randomized, double-blind, controlled trial. Sixty-five ambulatory infants (mean +/- SD age, 12.5 +/- 6 months) with viral bronchiolitis received either of the following: inhalation of 0.5 mL (5 mg) terbutaline added to 2 mL of 0.9% saline solution as a wet nebulized aerosol (control; group 1; n = 32) or 0.5 mL (5 mg) terbutaline added to 2 mL of 3% saline solution administered in the same manner as above (treatment; group 2; n = 33). This therapy was repeated three times every day for 5 days.

RESULTS

The clinical severity (CS) scores at baseline on the first day of treatment were 6.4 +/- 1.8 in group 1 and 6.6 +/- 1.5 in group 2 (not significant). After the first day, the CS score was significantly lower (better) in group 2 as compared to group 1 on each of the treatment days (p < 0.005; Fig 1 ). On the first day, the percentage decrease in the CS score after inhalation therapy was significantly better for group 2 (33%) than for group 1 (13%) [p < 0.005; Fig 1 ]. On the second day, the percentage improvement was better in the hypertonic saline solution-treated patients (group 2) as compared to the 0.9% saline solution-treated patients (group 1) [p = 0.01; Fig 1 ].

CONCLUSIONS

We conclude that in nonasthmatic, nonseverely ill ambulatory infants with viral bronchiolitis, aerosolized 3% saline solution plus 5 mg terbutaline is effective in decreasing symptoms as compared to 0.9% saline solution plus 5 mg terbutaline.

Age at first viral infection determines the pattern of T cell-mediated disease during reinfection in adulthood

Infants experiencing severe respiratory syncytial virus (RSV) bronchiolitis have an increased frequency of wheeze and asthma in later childhood. Since most severe RSV infections occur between the 8th and 24th postnatal week, we examined whether age at first infection determines the balance of cytokine production and lung pathology during subsequent rechallenge. Primary RSV infection in newborn mice followed the same viral kinetics as in adults but was associated with reduced and delayed IFN-gamma responses. To study rechallenge, mice were infected at 1 day or 1, 4, or 8 weeks of age and reinfected at 12 weeks. Neonatal priming produced more severe weight loss and increased inflammatory cell recruitment (including T helper 2 cells and eosinophils) during reinfection, whereas delayed priming led to enhanced interferon gamma production and less severe disease during reinfection. These results show the crucial importance of age at first infection in determining the outcome of reinfection and suggest that the environment of the neonatal lung is a major determinant of cytokine production and disease patterns in later life. Thus, simply delaying RSV infection beyond infancy might reduce subsequent respiratory morbidity in later childhood.

Palivizumab in the prevention of respiratory syncytial virus disease

Respiratory syncytial virus (RSV) infection is the leading cause of lower respiratory tract infection in infants and young children. Premature infants and infants with underlying lung disease are at increased risk for severe RSV infection in the first 1 - 2 years of life. Monthly prophylaxis with palivizumab (Synagis) during RSV season has been proven safe and effective in this population and these effects have persisted over the 4 years since the drug was approved by the US FDA in 1998. Issues remain regarding the optimal candidates for palivizumab prophylaxis and whether additional groups of high-risk individuals, for example infants with congenital heart disease or cystic fibrosis, and immunocompromised hosts, might benefit from such preventive therapy. It is possible that palivizumab in combination with antiviral or anti-inflammatory agents might also prove to be beneficial in the treatment of RSV disease. Newer monoclonal antibodies to RSV in development may offer the potential for less frequent dosing, increased efficacy and a role in treatment of RSV disease, but pending further evaluation of such products palivizumab provides significant protection for high-risk infants against a major pathogen.

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

The human Metapneumovirus (HMPV), a new member of the Paramyxoviridae family, has been recently associated with respiratory tract infections in young children. We report the case of a young, immunocompromised child who had severe lower respiratory tract infections during two consecutive winter seasons caused by genetically distinct HMPV strains.

Prevalence of respiratory syncytial virus IgG antibodies in infants living in a rural area of Mozambique

A case control study was carried out in Manhiça (Mozambique). Serum samples were collected from infants < 1 year of age in hospital to assess the effect of serum antibodies on the incidence of respiratory syncytial virus (RSV) infection. Sera were collected from a total of 31 cases of RSV infection and paired uninfected controls matched for age and sex. Anti-RSV antibodies were assessed by a membrane fluorescent antibody test (MFAT) for immunoglobulin G (IgG) antibodies and by a neutralizing antibody test. IgG RSV antibodies were of higher prevalence and at higher levels in the control group when compared to the infected case group (P < 0.001), indicating an important role for IgG antibodies in protection. To assess infection before recruitment, IgA RSV antibodies were also measured by MFAT. IgA RSV antibody prevalence was very low in patients and controls (0/31 and 4/31 respectively), suggesting that most of the detected IgG RSV antibody in both groups was of maternal origin. Re-analysis of data from the subset of 27 matched, IgA RSV antibody negative infant pairs mirrored the full analysis indicating that maternal antibody has an important role in RSV protection. Similar results were obtained when neutralizing antibodies were measured and when the measurement was done against subgroup A virus strain A2, subgroup B virus strain 8/60 and a contemporary subgroup A isolate, Moz00. No significant differences in the reactivity of maternal antibodies with the three virus strains were observed. The data described below represent the first analysis of the role of maternal antibodies in reducing the risk of pediatric infection in developing countries. The results reinforce the concept of maternal vaccination for the control of RSV in very young children in whom the risk and severity of infection are the highest.

Management of respiratory syncytial virus with lower respiratory tract infection in infants and children

Respiratory syncytial virus (RSV) is the leading cause of lower respiratory tract infection in infants and children requiring pediatric hospitalizations. Infants with chronic lung, cardiac, or neuromuscular conditions are at increased risk for RSV infection. Early RSV is associated with subsequent diagnosis of reactive airway disease. The management of RSV with lower respiratory track infection in infants and children remains controversial. Bronchodilators may have some short-term benefit, but are not recommended as standard practice for infants and children. Antiviral therapy may be used for high-risk and severely ill patients. Corticosteroids may be effective in cases of moderate to severe RSV with lower respiratory track infection. Monoclonal antibodies have shown some promise in achieving passive immunity for those at greatest risk, including preterm infants younger than 1 year or infants younger than 2 years with chronic lung disease. Emergency management remains primarily supportive, with vigilant monitoring of oxygenation and hydration status. Interventions include supplemental oxygen therapy, ventilation, and fluid and nutrition therapy. Respiratory syncytial virus prophylaxis for high-risk patients includes intramuscular injections of palivizumab (Synagis) each month during RSV season, from November through April. Prevention strategies include washing hands, cleaning environment surfaces, and isolating infants and children with RSV in the emergency care area.