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Inicio Enfermedades Infecciosas y Microbiología Clínica (English Edition) Seroprevalence of antibodies against SARS-CoV-2 among health care workers in a p...
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Vol. 40. Issue 6.
Pages 326-329 (June - July 2022)
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1267
Vol. 40. Issue 6.
Pages 326-329 (June - July 2022)
Brief report
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Seroprevalence of antibodies against SARS-CoV-2 among health care workers in a pediatric monographic hospital in Madrid (Spain)
Seroprevalencia de infección frente a SARS-CoV-2 en trabajadores de la salud en un hospital monográfico pediátrico en Madrid (España)
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1267
Eva Escribano Cerueloa,
Corresponding author
eva.escribano@salud.madrid.org

Corresponding author.
, Marco Antonio Espinel Ruízb, Marta Ortega López-Peláezc, Bárbara Fernández Garozc, Julia Asensio Antónd, Raquel Jiménez Garcíae
a Pediatría, Hospital Infantil Universitario Niño Jesús, Madrid, Spain
b Medicina Preventiva, Hospital Infantil Universitario Niño Jesús, Madrid, Spain
c Análisis Clínicos, Hospital Infantil Universitario Niño Jesús, Madrid, Spain
d Servicio de Análisis Clínicos, Hospital Infantil Universitario Niño Jesús, Madrid, Spain
e Pediatría, Hospital Infantil Universitario Niño Jesús, Madrid, Spain
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Tables (2)
Table 1. Epidemiological characteristics of workers with positive serology.
Table 2. Results of serology and rRT-PCR testing and numbers of asymptomatic professionals.
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Abstract
Introduction

As of 30 April 2020, 203.715 SARS-CoV-2 infections had been reported in Spain, 54.486 in Madrid, 21.4% were health care workers. Our objective is to determine seroprevalence of COVID-19 among workers in a monographic pediatric hospital.

Methods

Between April13th and 30th, 1.523 health workers were recruited to be tested for SARS-CoV-2 serology screening (All Test®) and they answered a questionnaire with demographic, epidemiological and clinical information and previous exposure to COVID-19.

Findings

One thousand two hundred ninety two (84.8%) were tested. Positive serology (IgM and/or IgG) to SARS-CoV-2 was found in 17.2% (222/1.292), in 15.5% (201/1.292) if only IgG was considered. Median age was 44±13 years, 73% were female. The 33.8% (75/222) were asymptomatic. Eighty one had a previous positive rRT-PCR. The 14% (32/222) referred a family contact.

Conclusion

Serology prevalence for SARS-CoV-2 in workers of a pediatric hospital was higher than in general population. Many of them had an unnoticed infection.

Keywords:
SARS-CoV-2
Seroprevalence
COVID-19
Health care workers
Chromatography
Resumen
Introducción

A 30 de abril de 2020, se habían notificado 203.715 infecciones SARS-CoV-2 en España, 54.486 en Madrid, y el 21,4% eran trabajadores de la salud. El objetivo del estudio es determinar la prevalencia serológica de infección SARS-CoV-2 en trabajadores de un hospital monográfico pediátrico.

Método

Del 13 al 30 de abril, 1.523 trabajadores fueron convocados a realizar un test serológico (All Test®) frente a SARS-CoV-2 y respondieron un cuestionario con información demográfica, clínico-epidemiológica y de exposición a COVID-19.

Resultados

Mil doscientos noventa y dos (84,8%) fueron estudiados. La prevalencia serológica (IgM y/o IgG+) a SARS-CoV-2 fue del 17,2% (222/1.292) y del 15,5% (201/1.292) considerando IgG positiva. La edad media fue 44 ± 13 años, el 73% eran mujeres. El 33,8% (75/222) fueron asintomáticos. Tenían rRT-PCR positiva previa 81. El 14% (32/222) contacto familiar.

Conclusión

La prevalencia serológica SARS-CoV-2 en los trabajadores de un hospital pediátrico fue mayor que en la población general. Muchos pasaron una infección inadvertida.

Palabras clave:
SARS-CoV-2
Seroprevalencia
COVID-19
Trabajadores de la salud
Cromatografía
Full Text
Introduction

The first case of COVID-19 in Madrid was recorded on 25 February 2020. As of 30 April, 203,715 cases had been reported (Red Nacional de Vigilancia Epidemiológica [Spanish National Epidemiological Surveillance Network] [RENAVE]); 58,486 of those cases were in Madrid. Of them, 21.4% corresponded to healthcare workers.1

The prevalence of SARS-CoV-2 infection in the generation population is around 5%-11%.2 Spain has more infected healthcare workers than any other country in the world, with significant variations in seroprevalence in studies conducted at general hospitals.3–8 The serological prevalence in individuals under 19 years of age is 1%-4%.9 Infections in Madrid in spring 2020 peaked on 26 March, with 3,364 cases.10

The procedure of choice for the diagnosis of acute SARS-CoV-2 infection is real-time reverse transcription–polymerase chain reaction (rRT-PCR) testing on a nasopharyngeal swab. Rapid, simple, highly sensitive and accurate tests must be available for purposes of large-scale identification of people who recovered from the infection or had subclinical infection.11–13 Serological tests detect IgM and IgG antibodies against SARS-CoV-2 in blood, serum or plasma, and aid in understanding the epidemiology thereof and the role of asymptomatic carriers.8,14,15 This is especially important in healthcare and community health workers.

The objective of this study was to determine the prevalence of SARS-CoV-2 infection in professionals at a specialised paediatric hospital since, as it had fewer infected patients, higher levels of community exposure could be assumed.

Methods

This cross-sectional, descriptive study was conducted in workers at Hospital Infantil Universitario Niño Jesús [Niño Jesús University Children's Hospital] (Madrid), a specialised hospital with 180 beds.

In March and April 2020, 52 patients under 18 years of age with a positive PCR test for SARS-CoV-2 were admitted.

The hospital had 1,523 workers, 1,197 of whom were women (78%). All were offered serological testing between 13 and 30 April 2020 and invited to complete a survey. Workers on occupational leave and workers who did not undergo serological testing were excluded.

The variables analysed in seropositive workers were: age, sex, chronic diseases, tobacco use, symptoms (low-grade fever or fever, cough, sore throat, difficulty breathing, ageusia, anosmia, muscle pain, headache, asthenia, chills, etc.), date of onset of symptoms and contact with confirmed or possible cases of COVID-19. The results of prior rRT-PCR tests were collected.

A rapid immunochromatographic assay in venous blood (All Test® 2019-nCoV IgG/IgM rapid lateral flow immunoassay) was used due to its availability and ease of use. At that time, enzyme-linked immunosorbent assay (ELISA) was not yet commercially available.

Ethical considerations

The study was approved by the hospital's independent ethics committee.

Statistical analysis

Age, the sole quantitative variable, was reported in terms of median and interquartile range. For qualitative variables, percentages and corresponding 95% confidence intervals were calculated. Qualitative variables were compared using the chi-squared (χ2) test. A difference was determined to be statistically significant with a p value of 0.05.

Results

Of the workers, 84.3% (1,292/1,523) had the test done. The prevalence of positive (IgM and/or IgG) serology for SARS-CoV-2 was 17.2% (95% CI: 15.16%-19.35%). The results listed below relate to this group of seropositive workers:

  • The median age was 46 (range: 20-68) years; 74% were women. Among healthcare workers, (75%), 27% (60) were auxiliary staff, 19% (43) were physicians and 19% (42) were nurses. Among non-healthcare workers, the largest percentage of those who tested positive were administrative staff, with 10.9% (24), followed by cleaning staff, with 6.3% (14). The date of onset of symptoms was reported as 16 March by 40% of workers.

  • The most common symptoms were respiratory symptoms (50%), fever or low-grade fever (34%), ageusia and/or anosmia (38.7%), general symptoms (30%), and gastrointestinal symptoms (26%). Asymptomatic cases accounted for 33.8% of the total. There were no significant differences in rates of asymptomatic patients by age group or gender. Overall, 12% were smokers. Smoking was reported by 18.7% of the asymptomatic workers versus 8.8% of the symptomatic workers (p < 0.05) (Table 1).

    Table 1.

    Epidemiological characteristics of workers with positive serology.

      Symptomatic  Asymptomatic  Total  p value 
      n (%)  n (%)  n (%)   
    Gender
    Female  110 (74.8)  53 (70.7)  163 (73.4)   
    Male  37 (25.2)  22 (29.3)  59 (26.6)  0.507 
    Age
    20-30 years  32 (21.8)  16 (21.3)  48 (21.6)   
    31-40 years  29 (19.7)  15 (20)  44 (19.8)   
    41-50 years  29 (19.7)  11 (14.7)  40 (18)  0.459 
    51-60 years  42 (28.6)  19 (25.3)  61 (27.5)   
    >60 years  15 (10.2)  14 (18.7)  29 (13.1)   
    HTN  7 (4.8)  3 (4)  10 (4.5)  0.796 
    Diabetes  3 (2.0)  3 (1.4)  0.213 
    Obesity  13 (8.8)  4 (5.3)  17 (7.7)  0.352 
    Comorbidities
    Asthma  12 (8.2)  3 (4)  15 (6.8)  0.242 
    Heart disease  3 (2)  2 (2.7)  5 (2.3)  0.766 
    Autoimmune disease  5 (3.4)  2 (2.7)  7 (3.2)  0.767 
    Thyroid disease  9 (6.1)  4 (5.3)  13 (5.9)  0.813 
    Cancer  1 (0.7)  1 (1.3)  2 (0.9)  0.626 
    Smokers  13 (8.8)  14 (18.7)  27 (12.2)  0.034 

    HTN: hypertension; n: number of hospital workers.

  • The largest share of seropositive individuals worked in a general hospitalisation area (19.8%), followed by oncology (14.9%) and intensive care (8.6%). In 32 (14.3%) workers, there was prior contact with a family member.

  • Table 2 shows the results of serology and rRT-PCR testing and the numbers of asymptomatic professionals.

    Table 2.

    Results of serology and rRT-PCR testing and numbers of asymptomatic professionals.

    Antibodies  Serology  Pre-serology rRT-PCR  Post-serology rRT-PCR  Asymptomatic 
      n (%)  (positive/performed)  (positive/performed)  n (%) 
    Positive for IgM  21 (9.4)  0/7  0/21  17/21 (81) 
    Positive for IgM and IgG  34 (15.3)  9/13  1/31  13/34 (38) 
    Positive for IgG  167 (75.2)  72/100  1/25  45/167 (26) 
    Total  222  81/120  2/77  75/222 (33) 

    n: number of hospital workers; rRT-PCR: real-time reverse transcription–polymerase chain reaction.

  • For those with positive results for IgM, subsequent rRT-PCR tests were ordered for confirmation of infection; all of them came back negative.

Discussion

Given that numbers of patients admitted to a specialised paediatric hospital were much lower than numbers of adult patients admitted to hospital, this study is important as its results can be compared to those of other studies at other centres prioritising COVID-19 care.6

The prevalence of SARS-CoV-2 infection in the workers (17%) was higher than in the general Spanish population (5%) and in the population of Madrid (11%).2 Not counting cases positive for IgM and considering only those positive for IgG, the prevalence would come down to 15.5%.

According to our results, the reliability of diagnosis with a positive result for IgM is limited, since rRT-PCR for confirmation purposes came back negative in all cases, and most workers with a positive result for IgM (80.9%) were asymptomatic. This suggests that the test is very sensitive but not very specific, and points to the possibility that those positive results were false positives.

It is important to note that more than one in four workers were asymptomatic.

This higher prevalence could be explained by the fact that the workers continued working and remained exposed to SARS-CoV-2 outside of their homes. It is unknown whether the environment in which transmission most commonly occurred was the community, the home or the hospital, or, within this, whether transmission could have occurred through contact with patients, relatives and/or co-workers. The fact that, during the first two months, just 52 COVID-19 patients were admitted to our hospital makes it more likely that the sources of nosocomial transmission were workers themselves. This was all the more likely considering that 33% of them recovered from the infection following an asymptomatic course and many recovered following a course with few symptoms. However, it is also important to consider that the largest numbers of positive cases occurred in the areas with the highest numbers of COVID-19 patients (hospitalisation, oncology and intensive care).

It is essential to establish a preventive strategy, through active pursuit of rRT-PCR testing of infected professionals, either systematically (e.g. at specific time intervals) or when a cluster of cases is detected in an area of work and/or in workers who have a higher risk of exposure or care for vulnerable patients. Serology testing is essential in estimating levels of exposure and identifying higher-risk areas.6,12,16 The peak of symptom onset occurred in parallel to the peak of community infections; therefore, this strategy would be most useful at the height of epidemic transmission.10

The limitations of this study included its analysis of a sample of workers with positive serology results and the self-administered nature of the survey, meaning that some questions may not have been correctly interpreted. The study also lacked reliable information on the nature of the contact between workers and patients suspected of transmission and on the personal protective measures used in each case. The serology technique selected can influence the results.17 Immunochromatography can serve as a screening method to determine seroprevalence in the population.18,19 It is more sensitive in serum or plasma than in capillary blood. ELISA shows better diagnostic sensitivity, and therefore now prevails.20,21

Funding

This study received no specific funding from public, private or non-profit organisations.

Conflicts of interest

The authors declare that they have no conflicts of interest.

Acknowledgements

We would like to thank all the workers who completed the survey; the laboratory staff who did a great deal of work in a short period of time; hospital management for acquiring the test; Dr Mercedes Alonso, the head of the microbiology unit; and Dr M. Teresa García, an occupational medicine physician, for helping with the study reported in this article.

References
[1]
Informes COVID-19 Red Nacional de Vigilancia Epidemiológica (RENAVE). 2020 [accessed 30 Abr 2020]. Available from: https://www.isciii.es/QueHacemos/Servicios/VigilanciaSaludPublicaRENAVE/EnfermedadesTransmisibles/Paginas/-COVID-19.-Informes-previos.aspxitle.
[2]
Instituto de Salud Carlos III. Estudio ENE-COVID19: primera ronda estudio nacional de sero-epidemiología de la infección por SARS-CoV-2 en España informe preliminar 13 de mayo de 2020 [accessed 20 May 2020]. Available from: https://www.ciencia.gob.es/stfls/MICINN/Ministerio/FICHEROS/ENECOVID_Informe_preliminar_cierre_primera_ronda_13Mayo2020.pdf.
[3]
A.L. Garcia-Basteiro, G. Moncunill, M. Tortajada, M. Vidal, C. Guinovart, A. Jiménez, et al.
Seroprevalence of antibodies against SARS-CoV-2 among health care workers in a large Spanish reference hospital.
Nat Commun, 11 (2020), pp. 3500
[4]
M. Matabuena, C. Meijide-García, P. Rodríguez-Mier, V. Leborán.
COVID-19: Estimating spread in Spain solving an inverse problem with a probabilistic model.
(2020),
[5]
J. Barallat, G. Fernández-Rivas, B.Q. Sánchez, Martinez-Caceres.
Seroprevalence of SARS-CoV-2 IgG Specific Antibodies among Healthcare Workers in the Northern Metropolitan Area of Barcelona, Spain, after the first pandemic wave.
[6]
A. Dacosta-Urbieta, I. Rivero-Calle, J. Pardo-Seco, L. Redondo-Collazo, A. Salas, J. Gómez-Rial, et al.
Seroprevalence of SARS-CoV-2 Among Pediatric Healthcare Workers in Spain.
Front Pediatr, 8 (2020), pp. 547
[7]
I. Suárez-García, M.J. Martínez de Aramayona López, A. Sáez Vicente, P. Lobo Abascal.
SARS-CoV-2 infection among healthcare workers in a hospital in Madrid, Spain.
J Hosp Infect, 106 (2020), pp. 357-363
[8]
M.D. Folgueira, C. Munoz-Ruiperez, M.A. Alonso-Lopez, R. Delgado.
SARS-CoV-2 infection in Health Care Workers in a large public hospital in Madrid Spain, during March 2020.
[9]
X. Lu, L. Zhang, H. Du, J. Zhang, Y.Q.J. Liu.
SARS-CoV-2 Infection in Children.
N Engl J Med, 382 (2020), pp. 1663-1665
[10]
Centro Nacional de epidemiología; Ministerio de Sanidad. COVID-19: Tasa de crecimiento de la Comunidad de Madrid 2020 [accessed 13 May 2020]. Available from: https://cnecovid.isciii.es/covid19/#declaración-agregada.
[11]
Recomendaciones de SEIMC sobre el uso de las pruebas de detección de anticuerpos. 2020 [accessed 20 May 2020]. Available from: https://seimc.org/contenidos/documentoscientificos/recomendaciones/seimc-rc-2020-alta_personal_sanitario_con_covid-19.pdf.
[12]
World Health Organization. Laboratory testing for coronavirus disease 2019 (COVID-19) in suspected human cases. 2 marzo 2020 [accessed 13 May 2020]. Available from: https://apps.who.int/iris/bitstream/handle/10665/331329/WHO-COVID-19-laboratory-2020.4-eng.pdf.
[13]
J.J. Deeks, J. Dinnes, Y. Takwoingi, C. Davenport, R. Spijker, S. Taylor-Phillips, et al.
Antibody tests for identification of current and past infection with SARS-CoV-2.
Cochrane Database Syst Rev, 6 (2020),
[14]
H. Nishiura, T. Kobayashi, T. Miyama, et al.
Estimation of the asymptomatic ratio of novel coronavirus infections (COVID-19).
Int J Infect Dis, 94 (2020), pp. 154-155
[15]
World Health Organization. Advice on the use of point-of-care immunodiagnostic tests for COVID-19. 2020 [accessed 13 May 2020]. Available from: https://www.who.int/publications-detail/advice-on-the-use-of-point-of-care-immunodiagnostic-tests-for-covid-19-scientific-brief.
[16]
X. Wu, B. Fu, L. Chen, Y. Feng.
Serological tests facilitate identification of asymptomatic SARS-CoV-2 infection in Wuhan, China.
J Med Virol, 92 (2020), pp. 1795-1796
[17]
J.D. Whitman, J. Hiatt, C.T. Mowery, B.R. Shy, R. Yu, T.N. Yamamoto, et al.
Test performance evaluation of SARS-CoV-2 serological assays.
[18]
L. Antonio Moreno Borraz, M. Giménez López, P. Carrera Lasfuentes, E. González Pérez, C. Ortíz Domingo, J. Luis Bonafonte Marteles, et al.
Prevalencia de infección por coronavirus SARS-CoV-2 en pacientes y profesionales de un hospital de media y larga estancia en España.
Rev Esp Geriatr Gerontol, (2020),
[19]
F. Pérez-García, R. Pérez-Tanoira, J. Romanyk, T. Arroyo, P. Gómez-Herruz, J. Cuadros-González.
Alltest rapid lateral flow immunoassays is reliable in diagnosing SARS-CoV-2 infection from 14 days after symptom onset: A prospective single-center study.
J Clin Virol, 129 (2020), pp. 104473
[20]
A. Valdivia, I. Torres, D. Huntley, M.J. Alcaraz, E. Albert, C. González, et al.
Diagnostic significance of SARS-CoV-2 IgM positive/IgG negative antibody profile in symptomatic patients with suspected COVID-19 testing negative by RT-PCR.
J Infect, 82 (2020), pp. e15-e16
[21]
N. Younes, D.W. Al-Sadeq, H. AL-Jighefee, S. Younes, O. Al-Jamal, H.I. Daas, et al.
Challenges in Laboratory Diagnosis of the Novel Coronavirus SARS-CoV-2.
Viruses, 12 (2020), pp. 582

Please cite this article as: Escribano Ceruelo E, Espinel Ruíz MA, Ortega López-Peláez M, Fernández Garoz B, Asensio Antón J, Jiménez García R. Seroprevalencia de infección frente a SARS-CoV-2 en trabajadores de la salud en un hospital monográfico pediátrico en Madrid (España). Enferm Infecc Microbiol Clin. 2022;40:326–329.

Copyright © 2021. Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica
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