key: cord-0872480-629h5dfb authors: Bensoussan, Eden; Ouldali, Naim; Ashkenazi, Shai; Angoulvant, François; Cohen, Robert; Levy, Corinne title: Impact of Coronavirus Disease 2019 (COVID-19) Pandemic on Pediatric Infectious Disease Research date: 2020-11-30 journal: J Pediatr DOI: 10.1016/j.jpeds.2020.11.052 sha: 85e114249ec616d1074f27951c958252daa46c42 doc_id: 872480 cord_uid: 629h5dfb nan S ince March 2020, all continents have been burdened with the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic, which has led to a considerable health crisis. 1 The magnitude of the challenges posed by the pandemic exceeded the expectations of the scientific community and public authorities, who rapidly developed strategies to properly manage the disease. [2] [3] [4] However, the measures adopted to address the pandemic differed among European countries, including the type of lockdown, border closings, school closures, the use of facial masks, accessories protection, the use of SARS-CoV-2 reverse transcription polymerase chain reaction, and point-of-care for rapid-antigen detection diagnostic tests. 5 These discrepancies have led to confusion for the population and to chaotic directions for physicians on how to manage the health crisis. Pediatricians have received contradicting information and recommendations regarding the role of children in the spread of coronavirus disease 2019 . 5 This situation was due, in part, to drawing an arbitrary parallel with the influenza model. 6 However, we learned that the number of confirmed pediatric cases is relatively low and that they account for <1% of hospitalized cases and deaths. 5, 7 This pandemic has had a major impact on pediatric clinical practice, with a major reduction in several routine medical services, as reported for the pediatric transplant activity in Europe 8 or the decline in the practice of throat culture. 9 In addition, the reduction in person-to-person contacts turned pediatric care from a direct face-to-face to a predominantly virtual-care practice. 9 In this context, many pediatric research units throughout Europe and particularly those involved in infectious disease and epidemiology have devoted their funds and human resources to COVID-19 research. This situation raised the concern of the European societies of pediatrics, who are worried about the future of research in the area of pediatric infectious diseases. The aim of this commentary is to give a brief overview of the impact of the COVID-19 pandemic on pediatric infectious disease research and report on a French experience. Because PubMed reflects scientific production, we searched in this database for the evolution of a few key subjects that we considered as sentinel topics to investigate the trend in pediatric infectious diseases research. As indicators we arbitrarily selected pneumococcal disease, a frequent pediatric infectious disease, 10 and meningococcal diseases, an infectious disease with a severe prognosis. 11 We searched key words related to these 2 conditions by MEDLINE via PubMed to compare them with publications on COVID-19. We focused on articles published since 2010, with no language restriction (last search October 1, 2020). For pneumococcal diseases, search terms were "Streptococcus pneumoniae" or "pneumococc*" and "child*" or "pediatric*"; for meningococcal diseases, the terms were "Neisseria meningitidis" or "meningococc*" and "child*" or "pediatric*". For COVID-19, search the terms used were "COVID-19" or "Coronavirus disease 2019" or "SARS-CoV-2" and "child*" or "pediatric*". From January 1, 2010, to September 30, 2020, we found 7096 publications on pneumococcal and 2418 on meningococcal disease, including 464 and 156 respectively published in 2020. By comparison, we found 6731 publications on COVID-19 in 2020. Using interrupted time-series analysis with quasi-Poisson regression models, 12 accounting for pre-existing secular trend and seasonality, we estimated the change in monthly publication rate of pneumococcal and meningococcal disease articles. For pneumococcal and meningococcal diseases, the monthly number of publications in 2020 decreased by 19% (95% CI 10%-27%, P = .0002) and From the 1 Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel; 2 Coronavirus disease 2019 SARS-CoV-2 Severe acute respiratory syndrome coronavirus 2 17% (95% confidence interval 1%-33%, P = .038), respectively ( Figure, A and B ; available at www.jpeds.com). Although these data confirm that research into COVID-19 is currently considered of crucial importance, at the same time they show that it may be detrimental to research on other pediatric infectious diseases. Pneumococcal and meningococcal disease provide a good example of how a redirection of resources to COVID-19 could be detrimental to research on other infectious diseases. First, the ecological niche of N meningitidis is the oropharynx of adolescents and young adults. The national lockdown applied in many countries to deal with the first COVID-19 wave led to strong contact mitigations in all ages. Specific mitigation measures are now targeting young adults and adolescents, who had contributed to spreading the virus, leading to the "second wave." These measures include mandatory wearing of facial masks in high schools, colleges, and universities to reduce contacts between students. If these measures are sufficient to stop SARS-CoV-2 spread among young adults, they also may affect the transmission and carriage of other pathogens of the nasopharyngeal flora. Second, the ecological niche of S pneumoniae is the nasopharynx of young children. The epidemiology of this pathogen is highly affected by close contacts between young children and antibiotics exposure. Several studies emphasize that day-care attendance modalities and antibiotic exposure affect pneumococcal carriage and antibiotic resistance of strains. 13, 14 Recent data have documented the striking reduction in frequency of acute respiratory tract infections in pediatric emergency departments following COVID-19 mitigation measures. 9, 15 Because acute respiratory tract infections are the first cause of antibiotic prescription, their decrease may lead to substantially changing the antimicrobial selective pressure applied to nasopharyngeal pathogens of young children, including S pneumoniae. 16, 17 Several reports have shown that the incidence of specific pathogen infections such as influenza viruses, respiratory syncytial virus, meningococcus, and pneumococcus was reduced in many countries. [18] [19] [20] [21] Australia reported a concurrent lower frequency of respiratory syncytial virus detection and admission to hospital for bronchiolitis in 2020 as compared with preceding years. 19 In this country, despite schools reopening, a 99.4% reduction was reported in influenza detection following Australian public health measures. 21 Influenza data reported to the World Health Organization's FluNet platform from 3 Southern Hemisphere areas (Oceania, South America, and Southern Africa) showed very low influenza activity during June to August 2020. 18 These data suggest that the epidemiology of these infectious diseases may change in an unpredictable manner in the coming months and years, requiring close and active surveillance. [18] [19] [20] [21] During the current health emergency, the top priority of many clinical research centers was to ensure proper care for children. COVID-19 research was helpful in several European countries, as the data generated and related information helped clinicians in their daily practices. 7, [22] [23] [24] [25] [26] [27] However, many clinical research groups have questioned how they could perform clinical trials not necessarily related to COVID-19 during the pandemic. 22 To this regard, the increase in telemedicine use, electronic consent, and several other distant methods combined offered an opportunity to move to virtual research compatible with COVID-19 constraints. 22 Furthermore, early in the pandemic's first wave, the US Food and Drug Administration proposed new guidance for industry to maintain research productivity so as to avoid the disruption of new and ongoing clinical trials. 23 In light of the COVID-19 pandemic, the research working group on infectious diseases coordinated by the Clinic and Therapeutics Association for Children of Val-de-Marne and the French Association of Ambulatory Pediatrics made available to clinicians working in ambulatory settings and hospitals all the existing platforms of data exchange used for its studies. 28 In early February 2020, through its pediatric bacterial meningitis network and by a fast-track process, the Clinic and Therapeutics Association for Children of Val-de-Marne recruited 60 pediatric ward units throughout France to conduct a national hospital-based prospective surveillance of SARS-CoV-2 infection. 28, 29 In contrast with the initial data reported on SARS-CoV-2, the study found that children <3 months old accounted for a large part of children admitted to hospital but were at the lowest risk of severe infection. 29 These findings helped to better identify the risk of severe disease progression in children. Similarly, in Spain a registry was developed based on an existing network including 30 secondary and tertiary hospitals to obtain information on COVID-19 cases in children and to monitor the severity of the multisystem inflammatory syndrome in young patients. 30, 31 These data confirm the ability of European pediatric research centers to promptly react to emergencies by adopting effective solutions to the challenges to which they are exposed. However, at the same time the European pediatric societies are concerned regarding the future of pediatric infectious disease research in fields different than COVID-19, due to a major redirection of efforts and financial resources. COVID-19 has redirected the interests and resources of research in infectious diseases and consequentially is changing the profile of the related scientific literature. If confirmed, the trend could become a real threat to the advancement of extensive knowledge in this area of science, with unpredictable long-term consequences. This working group would like to emphasize the importance of a common effort by pediatric societies to safeguard and ensure adequate resources to the ongoing and future research in pediatric infectious diseases areas besides COVID-19. Finally, we highlight the particular need to continue devoting research to new vaccines and treatments for pediatric infectious diseases, through effective International/European task-sharing. The French Association of Ambulatory Pediatrics is actively engaged in pursuing these goals within the frame of its mem-bership in the European Paediatric Association and urges the other well-established European networks to join their common efforts. n Reprint requests: Corinne Levy, MD, ACTIV, 31, rue Le Corbusier, 94000 Cr eteil, France E-mail: corinne.levy@activ-france.fr B Figure. The dynamics of monthly publication rates in 2020 of A, pneumococcal and B, meningococcal disease articles in PubMed by interrupted time-series analysis with quasi-Poisson regression models, accounting for pre-existing secular trend and seasonality. Report on covid-19 coronavirus pandemic Handling the COVID-19 crisis: toward an agile model-based systems approach. Systems Engineering COVID-19 in Italy: momentous decisions and many uncertainties Living with the COVID-19 pandemic: act now with the tools we have COVID-19 in children and the role of school settings in COVID-19 transmission Individual correlates of infectivity of influenza A virus infections in households Coronavirus Infection in Pediatric Emergency Departments Research Group. 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