key: cord-0823611-flb5wwzg
authors: García, Inés Suárez; López, María José Martínez de Aramayona; Vicente, Alberto Sáez; Abascal, Paloma Lobo
title: SARS-CoV-2 infection among healthcare workers in a hospital in Madrid, Spain
date: 2020-07-21
journal: J Hosp Infect
DOI: 10.1016/j.jhin.2020.07.020
sha: ecaf17516f4b4d2a0b988d9e0c64fc74a0c0d34c
doc_id: 823611
cord_uid: flb5wwzg

AIM: The aim of this study was to describe the epidemiological and clinical characteristics of COVID-19 among healthcare workers (HCWs) between February 24(th) to April 30(th), 2020 in a hospital in Madrid, Spain. METHODS: We designed a retrospective cohort study. Cumulative COVID-19 incidence was calculated for all HCWs and categorized according to presumed level of COVID-19 exposure (high, medium and low). RESULTS: Among 1,911 HCW, 213 (11.1%) had COVID-19 during the study period. Cases increased gradually from March 8(th), peaking in March 17(th) and declining thereafter. The peak of cases among HCWs was reached 14 days before the peak in admitted COVID-19 cases in the hospital. There were no significant differences in the proportion of COVID-19 cases according to level of occupational exposure (p=0.123). There were 5 departments and 2 professions in which more than 20% of the workers had confirmed COVID-19. We identified temporal clusters in three of these departments and one profession, with most of the cases occurring over a period of less than 5 days. The prevalence of comorbidities was low and 91.5% of patients had mild or moderate symptoms. Eleven patients were admitted to the hospital and 1 patient needed intensive care. None of the patients died. The median time of sick leave was 20 (IQR: 15 – 26) days. CONCLUSIONS: Our results suggest that HCW-to-HCW transmission accounted for part of the cases. In spite of a low prevalence of comorbidities and a mild clinical course in most cases, COVID-19 caused long periods of sick leave.

The virus SARS-CoV-2 is the causal agent of the acute respiratory tract infection known as COVID-19 (1) . It is estimated that by May 25th 2020, COVID-19 had caused 5,304,772 infections and 342,029 deaths(2). The first COVID-19 case was declared in Spain in January 31st, 2020 (3) and since then, Spain has been one of the most affected countries by the pandemic (2) .

Healthcare workers (HCWs) are especially vulnerable to infection by SARS-CoV-2. In the first published series of 138 patients from Wuhan, China, 29% of the cases were HCWs(1). The proportion of HCWs was much lower (3.8%) in a later case series from China including 72,314 COVID-19 cases (4) . In Spain, 22% of all the COVID-19 cases have been among HCWs (5) , and in Italy, 20% of responding HCWs were infected (6) .

Very few studies have focused on SARS-CoV-2 infection among HCWs. Moreover, the scarce data available to date have focused on the proportion of HCWs infected but have not sufficiently described epidemiological and clinical characteristics of the affected workers.

There are important implications of COVID-19 among HCWs. Firstly, there are consequences for their health: in the previously mentioned series from China, 14.8% of the cases among HCWs were classified as severe or critical and 5 of the patients died (4) . Secondly, infected HCWs could also transmit the infection to vulnerable patients if they are not properly and timeously isolated. Thirdly, high rates of infection among HCWs could cause problems due to understaffing in the health system. Lastly, the workers may transmit the infection to close family contacts (7) , other HCW (8) , and the community.

Due to the important implications of COVID-19 among HCWs, and the lack of detailed information published about this issue, it is important to better characterize its epidemiology and clinical characteristics in order to inform decision-makers on appropriate prevention and management strategies. Therefore, we designed a retrospective cohort study whose aim was to describe the epidemiological and clinical characteristics of SARS-CoV-2 infection among HCWs in a hospital in Madrid, Spain.

The study was performed in Hospital Universitario Infanta Sofía, a public tertiary hospital in Madrid, Spain. All HCWs that were working in the hospital between February 24 th to April 30 th 2020 were included. Workers from the laboratory, Radiology Department, security services, maintenance services, kitchen facilities, cleaning workers and porters were also excluded as they are contracted by external companies and are not employed by the hospital.

Variables and data collection All data were gathered retrospectively. The number of HCWs according to their profession and department for the study period was obtained from the Human Resources Department. Data for COVID-19 cases were extracted from the clinical records of the Occupational Health Department and recorded in an anonymized database.

During the study period, HCWs experiencing symptoms consistent with probable COVID-19 were instructed to present at the Occupational Health outpatient clinic, where they were managed according to the hospital protocol: a nasopharyngeal swab was collected and analysed with polymerase chain reaction (PCR) for SARS-CoV-2. For symptomatic HCWs with negative PCR, this test was repeated after 48-72 hours if symptoms persisted.

According to the hospital protocol, HCWs with positive SARS-CoV-2 PCR remained on sick leave until a negative follow-up PCR was obtained. Follow-up PCRs among patients with a previous positive PCR were obtained between day 2 and 5 after symptom resolution and repeated thereafter until a negative PCR result was obtained. Workers were allowed to return to work when they fulfilled two criteria: symptoms had resolved, and they had a negative follow-up PCR.

A case of COVID-19 was defined as any HCW presenting to the Occupational Health outpatient clinic with symptoms consistent with COVID-19 and with positive SARS-CoV-2 PCR. The date of the case was defined as the date of presentation to the Occupational Health outpatient clinic. The following variables were obtained from the clinical records: age, sex, profession (head of department [i.e., a physician in charge of a medical or surgical department], physician, nurse supervisor, nurse/auxiliary nurse, other), department, date of presentation at the outpatient clinic, date of symptom onset, duration of sick leave, admission to hospital, presence of comorbidities (arterial hypertension, diabetes mellitus, current tobacco consumption, cardiovascular disease, and chronic obstructive bronchopulmonary disease or asthma). Nine patients had no information on the day of symptom onset: for these patients, the date of symptom onset was assumed to be the date of presentation to the outpatient clinic. Clinical course was divided in the following categories: mild symptoms (including myalgia, ageusia, anosmia, headache, sore throat, cough, or temperature <38 o C, plus no need to stay in bed), moderate symptoms (including fever ≥38 o C, or need to stay in bed, with or without any of the mild symptoms), and unilateral or bilateral infiltrates in chest X-ray.

HCWs were stratified in three categories according to their presumed level of occupational exposure to COVID-19 cases: high risk (HCWs with usual contact with COVID-19 patients: Accident and Emergency, Internal Medicine, Intensive Care, and Pneumology Departments), moderate risk (HCWs with occasional contact with COVID-19 patients: other medical and surgical departments not included in the high or low risk groups) and low risk (including administrative workers, social workers, hospital management, and Pharmacy, Pathology, and Preventive Medicine Departments). For nurses working in the hospital wards and Haemodialysis Unit, the department was not available and therefore they were included in a separate category for the purpose of risk of occupational exposure.

In addition to these variables, information was collected about the training in COVID-19 prevention, and use of personal protection equipment (PPE,) in the hospital during the study period. Total numbers of notified COVID-19 confirmed by PCR were obtained from the Madrid Autonomous Region website (9) .

Statistical analysis COVID-19 cumulative incidence during the study period was calculated for all HCW, stratified by presumed level of occupational exposure, and stratified by department and profession. For departments and professions with more than 10 HCWs, of which more than 20% were diagnosed with COVID-19, date of presentation was analysed in detail to detect possible transmission clusters. Descriptive analyses were carried out using frequency distributions or median and interquartile range (IQR), as appropriate. The proportions of HCW acquiring COVID-19 among the three categories according to risk of occupational exposure were compared with χ 2 test. Statistical analyses were carried out with Stata version 13.0 (Stata Corporation, College Station, TX, USA).

The study was approved by the Ethics Committee of Hospital Universitario "La Paz" (PI-4133). Informed consent was not required.

By April 30 th , 2020, there were 1,911 HCWs in our hospital that fulfilled inclusion criteria. Among these, 652 presented to the Occupational Health outpatient clinic with symptoms consistent with COVID-19 and were tested with at least one PCR during the study period. A total of 213 workers, which account for 11.1% of all HCWs included, had microbiological confirmation of COVID-19. Median age was 42 (IQR: 34-52) years, and 171 cases (80.3%) were women. Figures 1A and 1B show the number of confirmed cases among HCWs per day, along with the number of patients admitted in the hospital with COVID-19 (figure 1A) and the total number of cases notified in the Madrid Autonomous Region (figure 1B) during the study period. The first case among HCWs was diagnosed in March 8 th and cases increased gradually, reaching a peak in March 17 th and declining thereafter. The peak of cases among HCW was reached 14 days before the peak in admitted COVID-19 cases in the hospital, which occurred on March 31 st (figure 1A), and 9 days before the peak in the notified cases in the Madrid Autonomous Region, which occurred in March 26 th (figure 1B). As expected, cases among HCWs very rarely presented during weekends.

The median delay between the date of symptom onset and the date of presentation to the outpatient clinic was 2 (IQR: 1 -5) days. The first date of symptom onset was February 17 th and then increased gradually, reaching a peak on March 16 th and gradually declining thereafter.

The proportion of cases among HCWs according to level of occupational exposure is shown in table I. There were no significant differences in the proportion of COVID-19 cases according to level of occupational exposure (high, medium, or low) (p=0.123). There were 5 departments of more than 10 HCWs in which more than 20% of the workers had confirmed COVID-19: Dermatology ( The proportion of cases according to profession are shown in table II. There were 2 professions in which more than 20% of the workers had confirmed COVID-19: medical heads of department (23.1% with COVID-19) and nurse supervisors (37.5%).

The number of cases according to date of presentation for the departments and professions in which more than 20% of the HCWs had COVID-19 are shown in figures 2A and 2B, respectively. The cases in the Oncology, Dermatology and Neurology Departments seemed to be clustered in time, with all cases presenting in a period of 3 and 4 days in the Oncology and Dermatology Departments, and 4 out of 5 cases presenting in a period of 5 days in the Neurology Department. According to work category, there also seemed to be a temporal cluster among heads of department, with 8 out 9 cases presenting over a period of 3 days (figures 2A and 2B ).

Regarding comorbidities, 10 workers (4.75%) had arterial hypertension, 9 (4.2%) had asthma or chronic obstructive bronchopulmonary disease, 7 (3.3%) were active smokers, 4 (1.9%) had cardiovascular disease, and 1 worker had diabetes mellitus.

Regarding the clinical course, 144 (67.6%) had mild symptoms, 51 (23.9%) had moderate symptoms, 7 (3.3%) had unilateral lung infiltrates in chest X-ray, and 11 (5.2%) had bilateral lung infiltrates. In addition, 2 patients with unilateral lung infiltrates also had thromboembolic disease: 1 patient had deep venous thrombosis and the other had pulmonary embolism. The majority of cases were managed in their home, but 11 cases (5.2%) needed admission to the hospital for a median of 4 (IQR: 4 -10) days. One of the patients with bilateral pneumonia needed ICU admission and orotracheal intubation because of severe respiratory failure. None of the patients died.

Among the 213 workers, 25 were still on sick leave at the end of the study period. The median time of sick leave among the 188 HCWs who had returned to work was 20 (IQR: 15 -26) days. After symptom resolution, the median number of PCRs performed per HCW was 1 (IQR: 1-2), and the median time to obtain a negative PCR result (and therefore to allow the HCW to return to work) was 5 days (IQR: 1-7).

Training in infection control practices and use of PPE was provided by the Occupational Health Department from February 20 th to March 13 th for the Intensive Care Unit, hospitalization wards, surgical rooms, daycare hospital, obstetric ward, nurse supervisors, and the Internal Medicine, Anaesthesia, General Surgery and Emergency Departments. In addition one training session was provided in the Pharmacy Department on April 22 nd . There were a total of 23 training sessions involving a total of 298 (15.6%) HCWs.

This study has analysed the epidemiology of SARS-CoV-2 infection among HCWs in a public hospital in Spain during the height of the COVID-19 epidemic. We found that 11.1% of the HCW had microbiologically confirmed COVID-19. The peak of cases preceded the peak of admitted patients with COVID-19, with a lag of 2 weeks. The risk of COVID-19 did not differ significantly among three groups with different levels of occupational exposure to COVID-19 patients, and a few clusters were detected in specific departments and professions: these facts suggest that a considerable proportion of the transmissions occurred from HCW-to-HCW, rather than from patient-to-HCW. Infected workers had low prevalence of comorbidities and the clinical course was mild in most cases; in spite of this, COVID-19 caused long periods of sick leave.

The sources of HCW infection include patients with COVID-19, other HCWs, and the community. During the COVID-19 pandemic several reports have identified factors increasing the risk of patient-to-HCW exposure, mainly excessive workload(10), shortage of personal protection equipment (PPE), lack of training in infection control measures, or use of PPE that does not fulfil safety requirements (11, 12) . Also, HCWs can become infected outside their workplace if there is ongoing transmission in the community(13) (community-to-HCW). However, it has been pointed out that there is potential for transmission between HCW (HCWto-HCW), with potential occasions such as clinical meetings, clinical handovers, lunchbreaks and shared use of small work spaces (14) . Nevertheless, the transmission of COVID-19 between workers has not been sufficiently studied: we are only aware of a study in Singapore that identified a cluster of intrahospital HCW-to-HCW transmission (8) , and an anecdotal recent report from newspapers that described an outbreak in Madrid, where 5 HCWs acquired COVID-19 after a lunch that took place in a hospital with over 25 participants, who were not wearing masks during the event (15) .

In our study, the fact that cases peaked well before the peak in admitted COVID-19 patients and the peak of diagnosed cases in the community, the lack of differences on the risk of infection among groups with different levels of exposure to COVID-19, and the identification of several temporal clusters among certain groups suggest that transmission among HCWs account for part of the cases. It is possible that several HCWs became infected during the first days (either from undiagnosed COVID-19 cases in the hospital, or from the community) and then in turn transmitted the infection to other HCWs. Three departments (oncology, dermatology and neurology) had most of the cases diagnosed in a short period of time, suggesting transmission in shared facilities or clinical meetings. There was also a temporal cluster among the heads of department, and a high proportion of the nurse supervisors affected, although the latter were not temporally related. These two groups were having daily meetings every day and also doing daily night shifts, and it is possible that there had been transmissions during the meetings or through fomites in the staff rooms or the emergency phone.

In our hospital, workers were instructed to wear adequate PPE when contacting patients with confirmed or suspected COVID-19. However, at the time of the study the use of face masks was neither recommended by health authorities for the general population (their compulsory use was only instituted for public transport on May 3 rd (16) and closed spaces on May 20 th (17)) nor specifically recommended for HCWs that were not having contact with patients(18). During the period of February 20 th to March 13 th , training about COVID-19 transmission and PPE was provided to HCWs by the Occupational Health Department. However, the training focused on the contact with COVID-19 patients and did not specifically recommend wearing face masks when not interacting with patients. Until approximately March 13 th to 16 th , HCWs did not systematically wear face masks when being in contact with other HCWs in the hospital facilities. After noting an increase in cases, most departments started systematically wearing face masks at all times in the hospital; shared meals during the night shifts were stopped, instructing workers to keep a distance of at least 2 metres in the refectory; and ward rooms were disinfected on March 13 th and 16 th . We cannot precisely determine the influence of these measures on COVID-19 transmission in the hospital, but we presume that they were effective since the cases in HCWs started declining after March 17 th despite an increasing number of patients admitted to the hospital with COVID-19. It is unlikely that a better training on the use of PPE could explain the decrease in cases among HCWs, as this training was not continued after March 13 th (except for one additional session in the Pharmacy Department on April 22 nd ).

The prevalence of comorbidities was low and the clinical course was mild in most of the cases; our HCW were in general healthier and had a less severe clinical course than the series published in the general population (1, 4) and can probably be explained by a healthy worker effect, along as a younger age. Also, the Spanish Ministry of Health recommended that HCWs with vulnerability to COVID-19 complications (such as HCWs aged over 60 years, pregnant women, and those with certain comorbidities) who could not be relocated to avoid COVID-19 exposure should be preventively kept away from work (19): this was the case for 58 HCWs in our hospital. Nevertheless, some cases did experience severe complications such as bilateral pneumonia, thromboembolic disease or severe respiratory failure. In addition, cases had to stay away from work for a long time, for a median time of 20 days; this long sick leave, along with the workers preventively kept away from work, in a time of increasing healthcare demands due to the pandemic can have important effects due to understaffing, which entails an increase in workload and can produce additional stress on the already overworked staff that remains in the hospital(20).

Our study has two main limitations. First, we did not systematically test all the HCWs in the hospital, but we limited our tests to symptomatic HCW presenting to the Occupational Health outpatient clinic. Thus, we could have missed a proportion of workers with asymptomatic infection. Second, the only available diagnostic test during the study period was SARS-CoV-2 PCR in nasopharyngeal swabs, which can have false negatives even in symptomatic cases: a recent review found a sensitivity of 76% (CI 95%: 59 -94) (21) . Therefore, our study has probably underestimated the percentage of affected HCWs.

During the COVID-19 pandemic health services had the challenge of ensuring sufficient PPEs and that these were adjusted to quality standards. Spanish health institutions had difficulties in providing adequate PPE to all healthcare workers during these times and we cannot exclude that some transmissions could be attributed to lack of adequate PPEs or their suboptimal use. However, our results suggest that HCW-to-HCW transmission accounted for at least part of the COVID-19 cases found in our hospital: this is a transmission route that is rarely mentioned in other studies (8) . We believe that this possibility should be further explored in other settings, and suggest preventive measures such as the systematic use of face masks at all times in the workplace, ensuring adequate working spaces to avoid overcrowding, and keeping a safety distance in meetings, clinical handouts, and work meals that could reduce the transmission of COVID-19 in healthcare settings. Also, surveillance of potential clusters could potentially be useful for contact tracing and prompt identification of transmissions (8) .

In this study in a public hospital in Spain, 11.1% of the HCWs had symptoms consistent with COVID-19 and microbiological confirmation of infection. The facts that cases among HCWs peaked 2 weeks before the peak of admitted patients, that the risk of COVID-19 was similar among three groups with different levels of occupational exposure, and that several temporal clusters were detected in specific departments and professions, suggest that HCW-to-HCW transmission accounted for part of the cases. In spite of a low prevalence of comorbidities and a mild clinical course in most cases, severe complications were diagnosed in some HCWs and COVID-19 caused long periods of sick leave. 

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We thank all the nurses, physicians and occupational risk prevention technicians that took care of the HCWs in the Occupational Health outpatient clinic during the study.

All authors declare that they have no conflict of interest.

This study was not funded.

ISG asked the research question, designed the study, analysed the data and wrote the first draft of the paper. MJM gathered the data. AS gathered the data. PLA designed the study and gathered the data. All authors were involved in interpretation of the data and commented on interim drafts. All authors have read and approved the final version of the article.