Preparedness and Response to Pediatric COVID-19 in European Emergency Departments: A Survey of the REPEM and PERUKI Networks.

Study objective: We aim to describe the variability and identify gaps in preparedness and response to the coronavirus disease 2019 pandemic in European emergency departments (EDs) caring for children.
Methods: A cross-sectional point-prevalence survey was developed and disseminated through the pediatric emergency medicine research networks for Europe (Research in European Pediatric Emergency Medicine) and the United Kingdom and Ireland (Paediatric Emergency Research in the United Kingdom and Ireland). We aimed to include 10 EDs for countries with greater than 20 million inhabitants and 5 EDs for less populated countries, unless the number of eligible EDs was less than 5. ED directors or their delegates completed the survey between March 20 and 21 to report practice at that time. We used descriptive statistics to analyze data.
Results: Overall, 102 centers from 18 countries (86% response rate) completed the survey: 34% did not have an ED contingency plan for pandemics and 36% had never had simulations for such events. Wide variation on personal protective equipment (PPE) items was shown for recommended PPE use at pretriage and for patient assessment, with 62% of centers experiencing shortage in one or more PPE items, most frequently FFP2 and N95 masks. Only 17% of EDs had negative-pressure isolation rooms. Coronavirus disease 2019-positive ED staff was reported in 25% of centers.
Conclusion: We found variation and identified gaps in preparedness and response to the coronavirus disease 2019 epidemic across European referral EDs for children. A lack in early availability of a documented contingency plan, provision of simulation training, appropriate use of PPE, and appropriate isolation facilities emerged as gaps that should be optimized to improve preparedness and inform responses to future pandemics.

Introduction

Background

Ever since the first human cases of the novel coronavirus were reported in Wuhan, Hubei Province, China, in December 2019, the coronavirus disease 2019 (COVID-19) pandemic has spread rapidly across the world. The epidemic in Europe initially centered around Northern Italy, where there was a steep increase in the number of cases and case fatalities from February 20, 2020, onward. While European countries were deciding on or were enacting containment measures of various degrees, the infection continued to spread across the continent, with devastating effect on health systems, the economy, and the society at large.

What is already known on this topic

Emergency departments’ (EDs’) preparedness for pandemics has an influence on care of patients and safety of health care workers.

What question this study addressed

How prepared were European referral pediatric EDs at the beginning of the COVID19 pandemic?

What this study adds to our knowledge

This cross-sectional survey demonstrated high variability regarding contingency plans, simulation training, appropriate use of PPE, and appropriate isolation facilities among 102 pediatric EDs.

How this is relevant to clinical practice

The pandemic has demonstrated the importance of planning and preparedness for such events.

Within health care, it is crucial that the emergency department (ED), as the entry point to hospital care, be prepared to manage high-risk COVID-19 patients in an efficient and safe way, from triage to final disposition. The ED should respond to the epidemic surge in agreement with hospital contingency plans and guidelines from local and national health authorities, also learning from the experience of other countries.

Even though it has now become apparent that children are affected less frequently and with a much more benign disease spectrum than that of adults, , appropriate management in the ED of patients with suspected and confirmed cases and of their families is essential. , Children may present with conditions not linked to COVID-19, but some, when admitted for that condition, are found to have COVID-19–positive swab results as an incidental finding. This may be a feature related to the more widespread dissemination of COVID-19 throughout the population. In addition to the quality of care provided to patients with suspected or confirmed COVID-19, EDs should also maintain it for children presenting with serious illnesses or accidents not related to the pandemic.

Importance

Pathways and protocols need to be in place to ensure that rapid appropriate care is provided to children with suspected COVID-19 while avoiding delay in care of non–COVID-19 patients. In addition, it is paramount to ensure adequate protection and minimize exposure of patients and staff to the infection. However, the dialogue between European pediatric emergency physicians who liaised through their European society and their research networks (Research in European Pediatric Emergency Medicine [REPEM] and Paediatric Emergency Research in the United Kingdom and Ireland [PERUKI]) 11, 12, 13 highlighted differences and challenges in ED preparedness and response between countries as the COVID-19 pandemic unfolded throughout Europe.

Goals of This Investigation

Hence, we aimed to describe the preparedness and response to the COVID-19 pandemic in European referral EDs for children within the REPEM and PERUKI networks.

We hypothesized that European referral EDs for children would show variability and gaps in preparedness and response to the COVID-19 pandemic, from which lessons could be learned for the current and future pandemics.

Materials and Methods

Study Design and Setting

We conducted a cross-sectional point-prevalence survey. It was developed in English by the lead author (S.B.) and then underwent several rounds of review by the research team. The survey was distributed through the REPEM network, a research collaborative consisting of pediatric EDs and EDs of general hospitals with a separate pediatric section, serving as referral centers for children, and also the sites affiliated with the executive committee members of PERUKI. For each country, a country lead was identified on a volunteer basis, through the network, to disseminate the survey to centers meeting the criteria mentioned earlier. Country leads were pediatric emergency physicians or pediatricians working in the ED. We also included Israel as a European-associated country because it has been part of the REPEM network since the organization’s foundation.

To ensure balanced representativeness of participating countries and feasibility of the study, the research team, using a quota sampling method, agreed to include a predetermined number of centers based on the population of participating countries. For countries with more than 20 million inhabitants (namely, Italy, France, Germany, Spain, and the United Kingdom), participation of 10 EDs was sought. For countries with less than 20 million inhabitants, 5 EDs were expected to participate, unless the number of eligible EDs was less than 5 (ie, Estonia: 4 EDs eligible; Iceland: 1 ED eligible; Latvia: 1 ED eligible; and Malta 2 EDs eligible). The denominator for our survey comprised 103 centers.

Country leads were to decide on the strategy to approach eligible EDs in their country. Some country leads approached more than the preestablished number of centers to ensure a 100% response rate, accounting for the possibility that some contacted centers might not respond. By adopting this approach, some countries actually exceeded the expected number of participating centers per country. For calculation of the survey response rate, the number of EDs exceeding the predetermined expected number of participating EDs per country was not considered.

ED directors or their delegates, staff members appointed by the ED director as most suitable to complete the survey, completed one survey for each participating center. The survey was open on March 20 and 21, 2020. Survey responses were collected in Research Electronic Data Capture (version 9.10.0; Vanderbilt University, Nashville, TN) a validated online data collection system. Respondents were asked to state their country of residency, but it was not mandatory to give the name of their hospital. Each country lead recorded the name of the invited and participating hospitals. Country leads communicated to the principal investigator the number of centers that completed the survey, without disclosing the hospitals’ identities, ensuring that the number of completed surveys per country matched the number of centers that actually completed the online survey.

Preparedness and response were defined according to consensus of the research team as organizational and operational actions taken by EDs to face the pandemic, including contingency plans, training, screening of patients with suspected cases, surge capacity, availability and use of personal protective equipment (PPE), ED infection control measures, care pathways and management of suspected cases, health professionals’ safety, and sustainability of care.

A first survey was completed by country leads to reflect the national situation of the COVID-19 pandemic as of March 20, 2020. The country lead survey included questions on range of COVID-19 cases (total and pediatric) per country, the date of identification of the first COVID-19 cases in the country, and the type of containment measures enforced in their country. Data on range of confirmed cases per country, as well as deaths, were cross-checked with the European Center for Disease Control and Worldometer Web sites on March 21 to ensure complete update of data up to March 20, 2020. , There were no reported pediatric COVID-19 confirmed deaths in participating countries at the survey.

The ED survey completed by each participating center focused on organizational and operational aspects of preparedness and response, as reported in the above-mentioned definition.

We followed Strengthening the Reporting of Observational Studies in Epidemiology guidelines for reporting of observational studies.

Primary Data Analysis

Descriptive statistics were used to analyze the data, with 95% confidence intervals around each point estimate. Data were analyzed with Stata (version 13; StataCorp, College Station, TX).

This survey accessed clinicians through a research collaborative to assess their departmental practice and therefore did not require formal ethics review, as determined by the ethics board of the University Hospital of Padova, Italy. Consent was implied by participation.

Results

A total of 18 countries participated in the study. Eighty-nine of the expected 103 centers, in accordance with the preestablished number of participating centers per country, completed the survey (response rate 86%). However, some countries exceeded the number of expected participating EDs, leading to a total of 102 EDs participating to the survey (Table 1 and Figure 1 ). The survey was completed by the ED director in 48% of cases and by his or her delegate in 52%. The number and characteristics of participating centers and the range of COVID-19 confirmed cases per country are reported in Table 1. The majority of participating EDs were tertiary care pediatric ones (75%) and most centers had a pediatric yearly census greater than 10,000 visits per year (89%). Only a few pediatric patients with confirmed COVID-19, if any, were treated in participating EDs. Containment measures were variably enforced in participating countries as of March 20, 2020 (Table E1, available online at http://www.annemergmed.com). Measures less often taken were the most restrictive; namely, closure of nonessential commercial activities (67%), closure of borders (50%), and the prohibition of any travel not related to health or food shopping needs (50%). A summary of criteria for suspected COVID-19 cases in use at participating EDs is provided in Table E2 (available online at http://www.annemergmed.com). Definition criteria had changed over time in 90% of centers, reflecting the dynamic adjustments made to face a rapidly evolving crisis. At the survey, any child with flulike illness or fever was considered to have a suspected COVID-19 infection in 67% of centers.

Table 1

Characteristics of participating countries and centers.

	Belgium	Denmark	Estonia	France	Germany	Iceland	Ireland	Israel	Italy	Latvia	Lithuania	Malta	Netherlands	Portugal	Spain	Sweden	Switzerland	UK
Predetermined No. of expected centers	5	5	4∗	10	10	1∗	5	5	10	1∗	5	2∗	5	5	10	5	5	10
No. centers actually participating	7	5	3	15	13	1	4	6	11	1	2	2	2	5	9	3	6	7
ED setting
Tertiary care PED of stand-alone hospital	0	0	1	6	4	1	2	1	5	1	0	0	0	2	3	1	3	1
Tertiary care PED in a hospital for adults and children	2	3	1	7	8	0	0	5	6	0	1	0	1	1	5	1	1	3
Referral general ED with pediatric section†	5	2	1	2	1	0	2	0	0	0	1	1	1	0	0	0	2	3
Other‡	0	0	0	0	0	0	0	0	0	0	0	1	0	2	1	1	0	0
Pediatric age limit, y
≤14	0	0	0	0	0	0	0	0	4	0	0	0	0	0	4	0	0	0
≤15	2	0	0	3	0	0	1	0	2	0	0	0	0	0	2	0	0	1
≤16	3	0	0	3	0	0	3	0	1	0	0	1	0	0	1	0	5	6
≤18	2	5	3	9	13	1	0	6	4	1	2	1	2	5	2	3	1	0
ED pediatric yearly census (visits/y)
<10,000	1	2	2	0	2	0	0	0	0	0	0	1	2	0	0	1	0	0
10,000–15,000	4	0	0	0	0	0	0	0	1	0	1	0	0	0	0	1	0	1
15,000–25,000	2	3	0	0	9	1	1	1	4	0	0	1	0	1	2	1	2	0
25,000–50,000	0	0	0	11	1	0	2	5	5	0	1	0	0	2	1	0	4	4
>50,000	0	0	1	4	1	0	1	0	1	1	0	0	0	2	6	0	0	2
No. of pediatric positive COVID-19 cases treated in ED (total for all centers per country)	7§	16	0	34	13§	2	11	4	48	2	0	1	0	12	26	0	14§	2§
Time from first COVID case, wk	3–4	3–4	3–4	≥ 4	3–4	3–4	2–3	3–4	≥ 4	2–3	3–4	1–2	3–4	2–3	≥ 4	≥ 4	3–4	≥ 4
No. of total COVID-19 confirmed cases	≥1,000 <10,000	≥100<1,000	≥100<1,000	≥10,000	≥1,000 <10,000	≥100<1,000	≥100<1,000	≥100<1,000	≥10,000	≥10<100	≥10<100	≥10<100	≥1,000 <10,000	≥100<1,000	≥10,000	≥1,000 <10,000	≥1,000 <10,000	≥1,000 <10,000
No. of total COVID-19 confirmed deaths	≥10<100	<10	<10	≥100<1,000	≥10<100	<10	<10	<10	≥ 1,000	<10	<10	<10	≥100<1,000	<10	≥1,000	≥10<100	≥10<100	≥100<1,000
No. of total pediatric COVID-19 confirmed cases	≥10<100	≥10<100	≥10<100	≥1,000 <10,000	≥100<1,000	≥10<100	≥10<100	<10	≥100<1,000	<10	<10	<10	<10	≥10<100	Not reported	≥10<100	≥100<1,000	Not reported

UK, United Kingdom; PED, Pediatric ED.

Number of eligible EDs was less than the predetermined number of 5 expected participating centers for countries with a population of less than 20 million inhabitants.

Referral ED for children.

Malta: general referral ED treating children; Portugal: 2 secondary care PEDs in a hospital for adults and children; Spain: secondary care PED in a hospital for adults and children; Sweden: secondary care PED for medical conditions. A secondary care PED provides specialist care on referral by primary care, out-of-hospital emergency services, or other smaller hospitals, but does not include highly specialized medical care, which may involve advanced and complex procedures and treatments performed by medical specialists in a tertiary care state-of-the-art facility.

Belgium: 3 centers did not know; Germany: 2 centers did not know; Switzerland: 1 center did not know; UK: 1 center did not know.

Figure 1

Map of participating countries and number of EDs participating in the survey per country.

Approximately one third of centers (34%) did not have an ED contingency plan for pandemics and 36% had never organized simulations for such events. The majority of centers (76%) had not experienced mass casualty disasters or pandemics during the past 5 years. Nearly all institutions had established a formal ED management plan for suspected or confirmed pediatric COVID-19 cases, with daily updates in 69% of centers. Surge capacity for pediatric suspected COVID-19 cases was variable between centers at an ED, admission ward, and intensive care level in terms of number of available rooms or beds (Table 2 ). In one fifth of the institutions, there was no intensive care available for pediatric COVID-19 patients. Only admission ward surge capacity increased according to ED volume (Figure E1, available online at http://www.annemergmed.com). Adjustments implemented to best manage suspected or confirmed COVID-19 patients included cancellation of planned activity (ie, outpatient visits, surgery, or hospital admissions) in 90% or more of participating centers, reorganization of beds in other pediatric wards in 75%, and telemedicine in nearly 70%.

Table 2

Contingency plans, guidelines, and capacity.

Survey Question	Response Options	Centers (n=102)	%	95% CI
As of March 20, does your hospital have a written and documented contingency plan in the event of a prolonged mass incident event as observed in pandemic infections?	YesNoDo not know	73236	71236	62–7915–323–13
As of March 20, does your ED/PED have a written and documented contingency plan in the event of a prolonged mass incident event as observed in pandemic infections?	YesNoDo not know	64353	63343	53–7126–441–8
When was the last time you conducted a simulation in your ED/PED on how to manage a mass casualty/epidemic?	Less than a week agoBetween a week and a month agoMore than a month ago, but less than a year agoMore than a year agoNever done	84341937	84331936	4–151–925–4312–2728–46
Has your ED/PED managed a mass casualty or epidemic in the last 5 years?	YesNoDo not know	23781	23761	15–3167–830.1–5
When did your institution distribute a formal management plan for suspected/confirmed pediatric COVID-19 for your ED?	Between Jan 15 and 31Between Feb 1 and 15Between Feb 15 and 29Between Mar 1 and 15No formal plan yetI do not remember	715373922	715363822	3–139–2328–6429–480.5–70.5–7
Was the management plan above updated regularly?	No formal plan yetNo, only 1 plan distributed so farYes, dailyYes, weeklyYes every 2 wkYes, but at a different pace from aboveDo not know	317020152	316919152	1–80.1–559–7713–280.1–52–110.5–7
What is the surge capacity of your ED/PED to assess suspected/confirmed pediatric COVID-19 cases simultaneously?	1 room2 rooms3–5 rooms>5 rooms	7193640	7193539	3–1312–2727–4530–49
What is the surge capacity at your institution to admit pediatric patients with suspected/confirmed COVID-19 who need admission to the hospital but not intensive care?	I cannot admit these patients in my institution; they are transferred to another hospital<5 beds5–10 beds>10 bedsDo not know	51128571	51127561	2–116–1820–3746–650.1–5
What is the surge capacity at your institution to admit pediatric patients with suspected/confirmed COVID-19 cases in (pediatric) intensive care?	No PICU/ICU availability for COVID-19 at my institution<5 beds5–10 beds>10 bedsDo not know	263320203	263220203	18–3524–4213–2813–281–8
Does your hospital have a formal plan to increase capacity (bed availability) for pediatric patients with suspected/confirmed COVID-19?	YesNoDo not know	78222	77212	67–8315–300.5–7
Which of the following adjustments/measures has your hospital taken to be able to best manage pediatric COVID-patients in terms of staff resources/bed availability? [>1 answer possible]	Cancellation of planned outpatient visitsCancellation of planned surgeryCancellation of planned hospital admissionsModification of current accommodation (ie, reorganization of beds in other pediatric wards)Telemetry, remote outpatient clinics, or both by phone/teleconferencingDo not knowOther	949793766918	929590756818	85–9689–9884–9565–8258–760.1–54–15
As part of the hospitalwide contingency COVID-19 plan, is there the possibility that COVID-19 adult patients will be admitted to pediatric beds?	No, we are a stand-alone children’s hospitalNo, this is not part of the current planYes, this is part of the plan if in need to increase capacity for adult COVID-19 patientsDo not knowOther	7464342	7454242	3–1336–5533–521–90.5–7

CI, Confidence interval; PICU, pediatric ICU.

The distribution of responses showed variation in the timing of pretriage setup and training on PPE. Variation was also observed in the recommended use of PPE to be worn during pretriage and during patient assessment. For recommended mask use during pretriage, surgical masks were used in 52% of centers, FFP2/N95 masks in 27%, and FFP3/N100 masks in 8%, whereas during patient examination, 49% of centers used FFP2/N95 masks, 43% surgical masks, and 11% FFP3/N100 masks. Recommended PPE use for patients was more consistent across centers, with a surgical mask to be worn by patients in 82% of EDs. Recommended duration of filtering masks use was also variable. A shortage of both basic and aerosol-generating protective PPE items was experienced by nearly two thirds of centers, with FFP2/N95 masks being the items most frequently missing (Table E3, available online at http://www.annemergmed.com). Contagion of health care workers was frequently reported at an institution level (69%), but less so at the ED level (25%). Only 18% of sites endorsed a periodic active surveillance of ED staff. Disposition of health care workers who had been in close contact with a patient with confirmed COVID-19 varied between centers, with approximately one third allowing staff to work while asymptomatic and one third recommending quarantine at home. Overall, emergency physicians shift work had been rearranged in nearly two thirds of centers, with variable adjustments including both increase and reduction in staff, as well as different shift schemes to prevent cross infection among staff (Table E4, available online at http://www.annemergmed.com).

EDs limited caregiver and parent presence to only one person in the majority of centers (84%) and reorganized patient flow to accommodate patients with suspected cases in separate dedicated areas. Less than 20% of EDs had isolation rooms with negative pressure. Most EDs performed swab testing for severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) (78%). However, asymptomatic children with a history of close contact, who could be otherwise discharged, were not tested in the ED in the majority of centers (75%). At most sites, patients with suspected cases who were tested but were fit for discharge were sent home and swab results communicated to the family when they became available. In cases of positive test results for discharged patients, half of the centers could count on specific outpatient services to provide telephone follow-up. Most EDs experienced a substantial reduction in pediatric presentations, by more than 50% in half of the centers (Table E5, available online at http://www.annemergmed.com). Centers farther into the infection spread wave more frequently reported a larger reduction in the number of pediatric presentations (Figure 2 ). Overall, 46% of centers agreed (36%) or strongly agreed (10%) about the statement “My hospital was ready and prepared to handle COVID-19 when the outbreak started in our country” and 54% agreed (39%) or strongly agreed (15%) when the statement referred to ED pediatric care.

Figure 2

Reported reduction in pediatric ED visits of participating EDs by time since first reported COVID-19 case in their country of origin. Participating EDs were at different time in the pandemic spread.

Limitations

The results of our study should be interpreted in light of its limitations. Although we included a large number of European countries, our survey does not provide a pan-European perspective. However, to our knowledge this is the first European data set that provides a detailed description of pediatric emergency care from within the pandemic, at a more granular level than any institutional channel has been able to provide so far. While the pandemic evolves in each country and accompanying adjustments are made, a repeated focused survey will capture the dynamic progress made from an organizational and operational perspective. We arbitrarily decided, as a research team, the number of centers to be included in each country to ensure a balanced representativeness and to obtain timely completion of the survey. The participating centers represent a subset of EDs caring for children in Europe and include referral centers for children; thus, our findings may not be generalizable across different settings. Although some countries exceeded the expected number of recruited centers, we were able to obtain a reasonable balance in terms of country representativeness. In addition, the objective of this survey was to explore common challenges and common learning points and not to compare responses between countries. Last, although we refined questions through review processes, the survey questions did not undergo a formal content validation procedure. Given that most of the answers required fixed quantitative responses on practice in use or recommended at participating EDs, a formal content validation would have likely had limited influence on the reliability of our findings.

Discussion

Our survey provides a description of preparedness and response of EDs caring for children from 17 European countries and a European-associated country at 1 month after the COVID-19 outbreak started in Northern Italy. Overall, the findings of our study show high variation in time and in level of organizational responses to COVID-19 of EDs caring for children across Europe and identified a few gaps that still need to be optimized to improve preparedness and inform responses to future pandemics. Our data show that a written and documented contingency plan was still missing in approximately one third of centers 1 month after the onset of the outbreak in Europe. Although the majority of EDs had not faced an epidemic or a mass casualty event in the past 5 years, nearly 40% had never run a simulation on how to manage such a crisis in the ED. A striking finding of our point-prevalence survey was the wide variation in reported PPE use at pretriage and for the assessment of suspected COVID-19 cases, with 62% of centers experiencing shortage in one or more PPE items. In addition, a high percentage of centers reported infection in staff members, which may affect the sustainability of care provided. From a structural perspective, the low percentage of EDs with negative-pressure isolation rooms (17%) highlights opportunities for improvement should renovation work be undertaken or new hospitals be built.

Although participating countries were at different stages in the outbreak spread, the different pace in the pandemic advancement represents an opportunity for health care systems to learn from one another by sharing experience and identifying areas for improvement. This may ensure a more rapid response in terms of implementation of infection prevention and control measures within health care in countries that lag the spread wave. This is important at all levels of care within an integrated health care system, but it is paramount for frontline services such as EDs. , By March 20, nearly all participating centers had received a formal plan for the management of pediatric suspected or confirmed COVID-19 cases in the ED; however, many faced common challenges: the lack of unequivocal definition of pediatric suspected cases and the need for continuous adjustments as a result of the rapid change of definitions and management plan; the late training in PPE use and shortage in PPE supplies; the need for extra resources to set up a pretriage; the rearrangement of staff shift work to minimize infection spread or to cover for sick colleagues; the lack of negative-pressure isolation rooms; the lack of outpatient services to follow up discharged children with confirmed COVID-19, with possible avoidable representations to the ED; the possibility to admit adult COVID-19 patients into pediatric beds; and the difficult balance of resource use.

Although children have been shown to be relatively spared from this pandemic, , , , timely preparation and appropriate response are essential to minimize the transmission of the infection to both patients and health care professionals. Health care facilities have played an unwillingly significant role in increasing viral transmission in this pandemic. For physicians taking care of children in the ED, COVID-19 has rightfully been defined a logistic rather than a clinical emergency because a much greater effort was necessary to rapidly reorganize care pathways to prevent infection to patients and staff, rather than to actually provide clinical care to sick children with COVID-19. Not only was the number of confirmed pediatric patients treated at participating EDs at the survey very low (approximately 200 overall) but also ED presentations were substantially reduced, further decreasing the clinical burden.

Appropriate PPE use is paramount for staff safety and to reduce the risk of viral transmission. , Although intubation, manual ventilation, and noninvasive ventilation are rarely needed for pediatric patients with COVID-19, , , nearly 80% of participating EDs performed swabbing, which is classified as an aerosol-generating procedure. Although our survey question on use of PPE might have been misinterpreted with respect to assessment by the emergency physician about whether this included aerosol-generating procedures, suboptimal reported practice still emerged from responses. The PPEs recommended by the interim guidance of the European Center for Disease Prevention and Control and the World Health Organization for health care professionals performing aerosol-generating procedures are gown, respirator (N95 or FFP2 standard or equivalent), gloves, eye protection (goggles or face shield), and apron, whereas those providing direct care to patients with COVID-19 should wear a gown, surgical mask, gloves, and eye protection. Health care workers at triage should maintain a distance of at least 1 m and provide the patient with a medical mask (if tolerated); no PPE is required if preliminary screening does not involve direct patient contact. , Nearly half of the centers reported a shortage of PPE, most often FFP2/N95 masks. PPE use should be maximized to avoid shortage of supplies, which ultimately exposes staff and the broader community to an increased transmission risk. One third of respondents stated that respirators (N95/FFP2 or FFP3/N100) are disposed of after the assessment of each patient with a suspected case of COVID-19. This practice may contribute to shortage of supplies because the same respirator could be used for more than one patient, as long as it is not damaged or soiled.

Approximately 70% of respondents were aware of infected health care workers at their institution, whereas one fourth reported infected staff in the ED. Unfortunately, infection of health care workers has been reported as a major threat to the sustainability of health care in this pandemic. In fact, the disposition of health care professionals who had been in close contact with a patient with confirmed COVID-19 varied between centers, possibly because of concerns regarding service provisions.

Implementation of appropriate PPE use can be easily done and should occur in a timely manner. This is in contrast to barriers related to structural limitations and constraints affecting the organization of ED patient flow and isolation capacity, which may be difficult to overcome in a short time frame. Infection control measures were more consistently reported in the survey, including rearrangement of ED patient flow, changing of staff work shift to optimize resource use, reduction in the number of care givers allowed with the child, and home quarantine for pediatric patients with confirmed COVID-19 who were fit for discharge.

Another interesting finding from our survey is the substantial reduction in pediatric ED presentations during the pandemic. Centers from countries with a longer time since first case experienced higher reductions in the number of ED presentations. Parents’ fear of contagion in a health care environment, improved hygiene measures, reduced community transmission of communicable diseases, reduced opportunities to sustain injuries owing to the strict containment measures enforced by governments, and reduction in stress-related functional diseases may be the reasons underlying this phenomenon. Reports from previous epidemics also showed an overall decrease in pediatric ED attendances. , The Middle East respiratory syndrome (MERS) outbreak had resulted in a significantly higher proportion of high-acuity ED pediatric presentations and an increase in delayed presentations. ,

Despite its limitations, the provision of a timely report on preparedness and response in pediatric emergency care during the pandemic is useful to inform practice and policymakers to properly reorganize health systems while the crisis is still evolving. It provides an accurate objective historical data set from which lessons can be learned, including for adult EDs. The collaboration of the REPEM and PERUKI European networks was instrumental in ensuring wide representation of European countries and timely completion of this multinational point-prevalence survey. The data provided highlight the importance of European multinational research collaborations to provide the best care to children in the front line.

In summary, we identified variability and gaps in preparedness and response to the COVID-19 epidemic across European referral EDs for children at 1 month since the start of the outbreak in Northern Italy. A lack of early availability of a written and documented contingency plan including detailed infection control measures, in the provision of simulation training, appropriate use of PPE, and appropriate isolation facilities emerged as gaps that should be optimized to improve the preparedness and inform responses to future pandemics.

Country leads list (country leads collaborated closely with the research team and were instrumental in the dissemination and completion of the survey)

Said Hachimi-Idrissi, Ghent University Hospital, Ghent, Belgium; Marianne Sjølin Frederiksen, Copenhagen University Hospital, Herlev, Denmark; Ulle Uustalu, Tallinn Children's Hospital, Estonia; Gerard Cheron, Necker enfants malades, Universitè de Paris, France; Florian Hoffmann, von Hauner University Children's Hospital Munich, Germany; Valtyr Thors, Childreńs hospital Iceland. Landspitali University Hospital, Iceland; Michael J Barrett, Children's Health Ireland at Crumlin, Ireland; Itai Shavit, Rambam Health Care Campus, Israel; Zanda Pucuka, BKUS Children clinical university hospital, Latvia; Lina Jankauskaite, Hospital of Lithuanian University of Health Sciences Kauno Klinikos, Lithuania; Patrícia Mação, Hospital Pediátrico, Centro Hospitalar e Universitário de Coimbra, Portugal; Ioannis Orfanos, Skane University Hospital, Sweden; and Laurence Lacroix, Geneva University Hospitals, Switzerland.