Saudi experts’ recommendation for RSV prophylaxis in the era of COVID-19

1. Introduction

Respiratory syncytial virus (RSV) is the most common cause of bronchiolitis and viral pneumonia in pediatric patients and is the leading cause of lower respiratory tract illness in infants’ first year of life.^1,2 Approximately, 70% of bronchiolitis cases stem from an RSV infection.³ According to the World Health Organization (WHO), the estimated annual burden of RSV-related acute lower respiratory illness (ALRI) is approximately 33 million worldwide, with approximately 3 million hospitalizations and 59,600 deaths.⁴ Respiratory syncytial virus infection represents a grave condition in developing countries, with approximately 99% of RSV-related deaths and 93% of RSV-related ALRI deaths occurring in developing countries.⁵ The prevalence of RSV infection is high in the Middle East and North Africa (MENA). In a systematic review of all RSV-related articles in the MENA region from 2001 to 2019, high annual incidence rates of RSV were reported in Jordan (64%), followed by Pakistan (52.6%), Tunisia (50%), Qatar (48.5%), Algeria (47.8%), Egypt (46.6%), and Iran (46.1%), whereas the lowest incidence was reported in Oman (1.8%).² In the Kingdom of Saudi Arabia (KSA), the prevalence of RSV infection is 23.5% in pediatric patients with ALRI.⁶

The RSV is highly contagious, with a 98% risk (attack rate) in cases of first-time infection during outbreaks and 75% in cases of reinfection.⁷ Transmission usually occurs through close contact or exposure of the nasal mucosa or conjunctiva to the patient’s droplets or secretions. This knowledge can be useful for limiting the spread of the virus, where isolation and quarantine measures can be used to reduce the virus transmission.⁸

The pathophysiology of bronchiolitis is characterized by heightened mucus production, widespread inflammation, edema of the airways, and necrosis of the respiratory epithelial cells.⁹ The destruction of airway epithelial cells is caused by the RSV binding to the epithelial cells and subsequently replicating, causing necrosis and ciliary destruction.¹⁰ This cell destruction triggers an immune response characterized by the proliferation of lymphocytes and polymorphonuclear cells (PMNCs), while increased mucus secretion results in the generation of edematous submucosa and adventitial tissues. The cascade of these events leads to bronchiolar obstruction, air trapping, and various degrees of lobar collapse.¹⁰

Management strategies for viral bronchiolitis vary widely between different studies; however, there has been a recent shift in favor of minimal supportive therapy.^3,11 This type of minimally invasive intervention involves nasopharyngeal suction, oxygen therapy, and sustained hydration with fluid management. Other forms of respiratory support include high-flow nasal cannula (HFNC) oxygen, continuous positive airway pressure (CPAP), mechanical ventilation, heliox, and chest physiotherapy. Evidence of the efficacy of pharmacological agents in treating bronchiolitis is generally scarce;³ however, immunoprophylaxis using the monoclonal antibody palivizumab is the recommended route for RSV infection prevention. Additionally, limited handling is preferred to avoid infant exhaustion, especially because infants are generally intolerant of interventions.³

Premature infants born prior to 37 weeks of gestational age (wGA) are particularly prone to severe morbidities due to anatomical, metabolic, and immunological predisposing characteristics.¹² As mentioned previously, RSV infection is the leading cause of hospitalizations for lower respiratory tract infections (LRTI) in infants. It is imperative that premature infants receive adequate prophylactic care to avoid severe bronchiolitis.¹² The Food and Drug Administration (FDA) approved palivizumab in 1998, a monoclonal antibody that remains, to date, the main prophylactic intervention against RSV infection.¹³ Since its inaugural licensure, the American Academy of Pediatrics (AAP) has updated its RSV immunoprophylaxis guidelines 5 times, most recently in 2014. Current AAP guidelines limit RSV immunoprophylaxis to premature infants born at <29 wGA, infants <32 wGA with chronic lung disease (CLD), and infants <12 months with chronic heart disease (CHD).¹³ Up to 5 monthly doses should be administered over the course of the RSV season,¹⁴ which could be a challenge in areas with active COVID-19 lockdown and strained healthcare services. The AAP 2014 guideline was based on the cost-effectiveness ratios for RSV immunoprophylaxis.¹⁵

The AAP 2014 guideline recommends that premature infants who previously qualified to receive immunoprophylaxis under the 2012 guidelines do not receive immunoprophylaxis (without other qualifying conditions). Besides, infants with CHD aged less than one year are no longer recommended to get RSV immunoprophylaxis according to the AAP 2014 guideline, while the 2012 guidelines recommended the RSV immunoprophylaxis for infants with CHD aged <2 years at the beginning of RSV season.¹⁶

2. Respiratory syncytial virus epidemiology, immunoprophylaxis, and management in KSA

The number of children <5 years of age who succumb to RSV-associated ALRI ranges from 66,000 to 1,99,000, with 99% of the deaths occurring in developing countries. Respiratory syncytial virus is endemic to some areas, particularly South American countries. Data from the southern hemisphere show that RSV immunity is effective against other viruses as well (such as, Argentina). High-risk patients for RSV include premature infants and infants with chronic lung diseases or cardiac abnormalities. Respiratory syncytial virus-related LRTI in early life is a significant risk factor for developing persistent wheezing and asthma through early childhood. The monoclonal antibody palivizumab confers passive immunity against RSV.

There are more than 5 million (15.4%) LRTI cases in the KSA.¹⁷ In 1991-1992, respiratory viruses were identified in approximately 62% of the 127 children with ALRI in Riyadh, and of these, 54% were positive for RSV.¹⁸ In a comprehensive study by Al-Hajjar et al¹⁹ carried out in Riyadh, KSA a total of 1429 samples were tested for respiratory viruses, and the RSV was the most common viral pathogen detected (29%). In a study by Al-Qassim, RSV was detected in 45% of 282 children with ALRI during 2003-2004.²⁰

3. Status of RSV immunoprophylaxis program

Patients requiring the injection have easy access to the immunization program in the KSA. The new pre-mixed formulation of the RSV immunoprophylaxis injection is liquid and ready to use. Additionally, pharmacists need to relinquish the exclusive privilege of preparing the injection and allow clinics to do it as well to ensure maximum availability. In terms of availability, insurance companies did not entirely cover high-risk groups in the past. This was rectified when the guidelines came out, as insurance companies started accepting the vast majority of palivizumab requests. This was further facilitated by the drastic reduction in time, resulting from the new ready-to-administer liquid formulation.

There was a significant improvement in the national RSV immunoprophylaxis program after the Saudi initiative of bronchiolitis diagnosis, management, and prevention (SIBRO) program was rolled out in July 2018. The Saudi Council of Cooperative Health Insurance revised its policy to include the RSV immunoprophylaxis program as a mandatory requirement in the Saudi healthcare system.

4. Saudi Initiative of Bronchiolitis Diagnosis, Management, and Prevention (SIBRO)

In July 2018, the SIBRO guidelines were declared by the Saudi Pediatric Pulmonology Association (SPPA) - a subdivision of the Saudi Thoracic Society (STS) - when they found that RSV infection was widespread in the country and the national guidelines according to the most recent and the best evidence-based practice was needed urgently.¹¹

The SIBRO developed evidence-based guidelines for using palivizumab immunoprophylaxis in different patient categories (Tables 1 & 2). The SIBRO team focused mainly on high-risk groups such as premature infants and children with CLD and cardiac abnormalities. It was a great achievement for the SPPA to release such an important national guideline because the adoption of external guidelines might carry some concern as the management of RSV infection is always a mix of actions based on the published evidence and the local practice.

5. Respiratory syncytial virus immunoprophylaxis programs in the era of COVID-19 in the KSA

6. Future of RSV amid COVID-19

Neonates are particularly susceptible to COVID-19, as 10% of coronavirus patients are pediatric patients, with 40% of them aged below 2 years. As such, experts predict challenging times ahead with the potential emergence of another COVID-19 wave, in addition to delays in the release of the seasonal flu vaccine. Conversely, the SIBRO’s initiative to release clear RSV diagnosis and management guidelines has significantly reduced the number of infants who develop severe bronchiolitis, as per anecdotal accounts from experts. These guidelines will help address potential issues from another COVID-19 wave.

New promising treatment options for RSV infection have emerged in the recent years. Nirsevimab is an extended half-life monoclonal antibody that has been approved by FDA in February 2019 to be used for prevention of LRTI caused by RSV.³³ It acts by the same mechanism of palivizumab through binding to the cells that express RSV protein. Nirsevimab is administered as a passive immunoprophylaxis agent to protect infants against RSV. Currently, the phase-3 trials are being conducted and anticipated to be published in 2023 (NCT03979313, NCT02878330). However, the phase-2 trials have shown a high efficacy in immunoprophylaxis against RSV. Infants who received Nirsevimab have shown a lower RSV LRTI and incidence of hospitalization compared to the infants who received placebo.³⁴ Nirsevimab is preferable to be used over the current options as it only requires a single dose for the whole RSV season, unlike palivizumab who require a monthly injection.³⁴ Also, Nirsevimab revealed a higher neutralizing activity and longer half-life than palivizumab.

The COVID-19 pandemic has highlighted the importance of epidemiological studies in the KSA. The KSA spared no expense to contain the pandemic and invested heavily into spreading awareness and enforcing precautionary protocols. This proactive approach can be applied to extremely low birth weight infants, where investment from the state can be a cost-effective measure to limit the spread of RSV. This investment can take the form of free RSV prophylaxis, which would help relieve the financial burden on the infant’s family.

7. Conclusion

Respiratory syncytial virus mortality is an issue in developing countries, which can be exacerbated by the pandemic and overloaded healthcare institution. The closure or partial closure of clinics alongside a warranted fear of going to the hospital are the main challenges facing vulnerable patients. Some of the recommendations to manage these challenges include increasing the number of RSV immunoprophylaxis program clinics, drive-thru visits, and home vaccinations and encouraging swift referrals to specialists in the RSV immunoprophylaxis program. These solutions are not without faults, as additional training would be required for healthcare personnel to administer home vaccinations, and adding an RSV immunoprophylaxis program to the regular immunization schedule would exert an additional load on the healthcare system.

The new liquid form used in the RSV immunoprophy, which subsequently allowed for increased insurance coverage of high-risk infants. Including the RSV immunoprophylaxis doses into the regular immunization schedule can help mitigate RSV-related mortality; however, further examination of the benefits and feasibility of this recommendation is required. The short-term success of RSV immunoprophylaxis is threatened by the emergence of another COVID-19 wave, in addition to delays in the release of the seasonal flu vaccine. This presents an immense challenge to healthcare experts. State investments in RSV epidemiological studies and free vaccinations can help alleviate the brunt of the pandemic.