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The prevalence of severe acute respiratory coronavirus virus 2 (SARS-CoV-2) IgG antibodies in intensive care unit (ICU) healthcare personnel (HCP) and its implications—a single-center, prospective, pilot study

Part of: SARS-CoV-2/COVID-19

Published online by Cambridge University Press:  12 June 2020

Mohsin Sheraz Mughal ,
Ikwinder Preet Kaur ,
Chandler D. Patton ,
Nagy H. Mikhail ,
Chairut Vareechon  and
Kenneth M. Granet
Mohsin Sheraz Mughal
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
Ikwinder Preet Kaur
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
Chandler D. Patton
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
Nagy H. Mikhail
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
Chairut Vareechon
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
Kenneth M. Granet*
Affiliation:
Monmouth Medical Center, an affiliate of the RWJ/Barnabas Health System, Long Branch, New Jersey
*
Author for correspondence: Kenneth M. Granet, E-mail: Kenneth.Granet@rwjbh.org.
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Abstract

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Type
Letter to the Editor
Information
Infection Control & Hospital Epidemiology , Volume 42 , Issue 5 , May 2021 , pp. 638 - 639
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© 2020 by The Society for Healthcare Epidemiology of America. All rights reserved.

To the Editor—Healthcare personnel (HCP), including practitioners, nursing staff, respiratory therapists, and the prone-positioning team caring for coronavirus disease 2019 (COVID-19) patients in the intensive care unit (ICU) are considered to have a high risk of exposure to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Most patients admitted to the ICU are severely sick and need to be intubated. High-risk procedures for droplet dispersion, including tracheal intubation and tracheostomy tube placement, can be performed in the ICU.Reference Tran, Cimon, Severn, Pessoa-Silva and Conly1 In a community seroprevalence study in Los Angeles County, the prevalence of antibodies to SARS-CoV-2 was 4.65%.Reference Sood, Simon and Ebner2 To our knowledge, no other study has addressed the prevalence of subclinical seroconversion of SARS-CoV-2 among HCP in the ICU setting. In this study, we investigated the seroconversion of asymptomatic SARS-CoV-2 infection in ICU HCP exposed to critically ill COVID-19 patients.

Methods

This single-center, prospective, pilot study was performed in an ICU at a teaching hospital, Monmouth Medical Center in Long Branch, New Jersey. It was approved by our institutional review board. All HCP caring for COVID-19 patients in the ICU setting from March 1, 2020, to April 30, 2020, were eligible for inclusion in the study. A cross-sectional survey questionnaire was utilized to collect demographic characteristics and to exclude HCP who (1) tested positive for SARS-CoV-2 by reverse transcriptase-polymerase chain reaction assay (RT-PCR), (2) had symptoms consistent with COVID-19, or (3) had COVID-19 exposure in a household setting. In total, 134 ICU HCP responded to the survey, and 121 HCP were eligible for SARS-CoV-2–specific IgG antibody testing. Means and interquartile ranges (IQRs) were used for continuous variables. All participants provided written consent. Antibody testing was performed on the sera using a rapid immunochromatography test (STANDARD Q COVID-19 IgM/IgG Duo, SD Biosensor, Suwon-si, Korea) by lateral flow in a Clinical Laboratory Improvement Amendments certified (CLIA), high-complexity laboratory. The manufacturer’s stated sensitivity and specificity for IgG, 15–21 days after symptoms onset are 96.2% and 96.6%, respectively. Blood specimens were drawn from 2 weeks after the specified period commencing May 14, 2020, and ending May 19, 2020.

Results

Overall, 134 ICU HCP responded to the survey: 75% were women, 47.73% were registered nurses, 9.85% were attending physicians, 26.52% were resident physicians, 6.82% were patient care assistants, 6.82% were respiratory therapists, 1.52% were technicians, and 0.76% were anesthetists. The mean age of the respondents was 39.2 years (IQR, 28–48.5). The mean duration of work was 29.3 days (IQR, 16.0–40.0). Of 134 ICU HCP eligible staff, 13 were excluded and 121 underwent SARS-CoV-2–specific IgG antibody testing. One individual tested positive and 1 test result was inconclusive due to a faulty test kit and was removed from the analysis. In this study, the prevalence of asymptomatic seroconversion was 0.83%.

Discussion

Information about the prevalence of asymptomatic seroconversion of SARS-CoV-2 in HCP is limited. In a preliminary report released by the Centers for Disease Control and Prevention (CDC), nearly 9,282 HCP have contracted COVID-19, and 27 have died.Reference Burrer, De Perio and Hughes3 Okba et alReference Okba, Müller and Li4 demonstrated that most PCR-confirmed SARS-CoV-2 patients seroconverted after 2 weeks of disease onset.Reference Okba, Müller and Li4 Our study revealed a prevalence of 0.83%, which indicates that seroconversion in ICU HCP was a rare event. These data indicate that proper education and utilization of personal protective equipment (PPE) is effective.Reference Seto, Tsang and Yung5 Additionally, ventilated patients have less aerosolization and were housed in a negative-pressure environment in the ICU isolation rooms, which also may have been factors in avoiding transmission to HCP.

Our study has several limitations. It was conducted in a single-center ICU and did not include long-term clinical or laboratory follow-up. Studies with larger sample sizes in different healthcare settings would be useful to validate the clinical impact of our findings.

Acknowledgments

We acknowledge Dr Violet E Kramer MD and Dr Margaret H Eng MD for their assistance. We acknowledge Joann Wolfson DNP, MSN, CCRN, with critical care services and Joseph Jaeger, DrPH, chief academic officer, as well as Ali Jaffery, for contributing to data collection. We acknowledge Barbara Mihelic for institutional review board support at Monmouth Medical Center, Long Branch, New Jersey.

Financial support

No financial support was provided relevant to this article.

Conflicts of interest

All authors report no conflicts of interest relevant to this article.

References

Tran, K, Cimon, K, Severn, M, Pessoa-Silva, CL, Conly, J. Aerosol-generating procedures and risk of transmission of acute respiratory infections to healthcare workers: a systematic review. PLoS One 2012;7(4):e35797. doi: 10.1371/journal.pone.0035797.CrossRefGoogle ScholarPubMed
Sood, N, Simon, P, Ebner, P, et al. Seroprevalence of SARS-Cov-2–specific antibodies among adults in Los Angeles County, California, on April 10–11, 2020. JAMA 2020. https://doi.org/10.1001/jama.2020.8279.CrossRefGoogle ScholarPubMed
Burrer, SL, De Perio, MA, Hughes, MM, et al. Characteristics of healthcare personnel with COVID-19—United States, February 12–April 9, 2020. Morbid Mortal Wkly Rept 2020;69:477481.Google Scholar
Okba, NM, Müller, MA, Li, W, et al. Severe acute respiratory syndrome coronavirus 2−specific antibody responses in coronavirus disease 2019 patients. Emerg Infect Dis 2020;6(7). doi: 10.3201/eid2607.200841.Google Scholar
Seto, W, Tsang, D, Yung, R, et al. Effectiveness of precautions against droplets and contact in prevention of nosocomial transmission of severe acute respiratory syndrome (SARS). Lancet 2003;361:15191520.CrossRefGoogle Scholar