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Identifying community spread of COVID-19 via a free drive-through screening event

Published online by Cambridge University Press:  20 July 2020

Marci L. Drees*
Affiliation:
Quality and Safety Administration, ChristianaCare, Wilmington, Delaware
Mia A. Papas
Affiliation:
Value Institute, ChristianaCare, Wilmington, Delaware
Terri E. Corbo
Affiliation:
Clinical Essential Services Administration, ChristianaCare, Wilmington, Delaware
Kimberly D. Williams
Affiliation:
Value Institute, ChristianaCare, Wilmington, Delaware
Sharon T. Kurfuerst
Affiliation:
Chief Operating Officer, ChristianaCare, Wilmington, Delaware
*
Author for correspondence: Marci L. Drees, E-mail: MDrees@christianacare.org
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Abstract

Type
Letter to the Editor
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—The lack of resources for and limitations placed upon testing for the 2019 novel coronavirus disease (COVID-19) have been well documented. Reference Sharfstein, Becker and Mello1Reference Iacobucci3 On March 12, 2020, the governor of Delaware declared a state of emergency with identification of the first local cases of COVID-19, which led to an increase in testing interest among the public. To offload emergency department demand, on March 13, Delaware’s largest private not-for-profit healthcare system conducted a 1-day drive-through testing event.

The 4-hour event was held in a public space separate from the healthcare system’s campuses. Staff wore appropriate personal protective equipment (gowns, gloves, and masks with eye protection). They changed gloves and performed hand hygiene between each participant. Participants remained in their vehicles and were registered utilizing paper forms. Insurance information was not collected. All were provided instructions regarding self-isolation until results were available. At the time, testing was only available via the state public health laboratory and was restricted to those demonstrating symptoms and having a defined risk factor, such as travel or contact with a known case. For this event, asymptomatic persons could not be tested, but risk factors were not required to be present. All specimens were sent to a reference laboratory (Viracor Eurofins, Lee’s Summit, MO) and no other viral testing was performed. Negative cases were notified of their results by text, e-mail, or phone, according to their preference; positive cases were called, were provided with self-isolation and other instructions, and were reported to the Delaware Division of Public Health for follow-up.

Participants provided demographic information and attested to the following factors: (1) presence of symptoms: fever and/or chills, difficulty breathing, cough, or sore throat; (2) risk factors such as close contact with a known case or travel from an area with COVID-19 transmission during that period (eg, China, Italy, Iran, Japan, South Korea; Washington or New York); and/or (3) under self-quarantine or being monitored by a health department. Descriptive statistics examined the prevalence of demographic characteristics, clinical characteristics, and risk factors in this population, including χ Reference Cohen and Kupferschmidt2 statistics to assess bivariate associations. Analyses were conducted using Stata version 15.1 software (StataCorp, College Station, TX).

We screened 539 individuals; 2 results were invalid, leaving 537 individuals with completed testing. Table 1 reports the demographic and clinical characteristics of the positive cases and the total participant population. One-quarter of those tested reported only 1 symptom, while nearly half indicated having 2 symptoms. We detected no differences in symptoms or risk factor profiles by gender, age, or state of residence (all P > .05).

Table 1. Demographic and Clinical Characteristics of 537 Participants in COVID-19 Drive-through Testing Event, March 13, 2020

Of the 537 persons tested, we confirmed 12 positive cases, for a COVID-19 prevalence rate of 2.2%. Fever and/or chills were the most commonly reported symptoms, followed by cough, sore throat, and difficulty breathing. Of the 12 positive cases, 2 reported a positive risk-factor profile. There were no statistically significant differences in demographic characteristics or risk-factor profiles between positive and negative cases. Positive cases were more likely to report fever and/or chills than were negative cases (83% vs 56%, respectively; P = .05).

This drive-through event documented community transmission for the first time in our state. In the 2 months after the event was held (as of May 28, 2020), 9,096 additional positive cases were identified in Delaware, with numbers increasing daily. Public screening events, including drive-through testing, are effective strategies for identifying disease transmission and providing additional details on the ever-changing risk of COVID-19 to the community. Reference Kwon, Ko, Shin, Sung and Kim4

These events are also critical for identifying individuals at high risk for transmission, but they would not have been identified with the strict criteria used by the state and federal government at the time. Of the 12 positive cases identified, 1 was a teacher and 1 was a healthcare worker; neither qualified for testing by the state health department. Both individuals, if not identified, could have unknowingly infected many susceptible individuals. As our understanding of the disease deepens, it is critical to relax strict testing criteria to identify both symptomatic and asymptomatic individuals who can unknowingly transmit this virus.

Everyone tested at this event had at least 1 clinical symptom. Although fever and chills were more likely to be reported among cases than noncases, we detected no difference in the total number of symptoms reported between these 2 groups, with approximately one-quarter reporting 3 or more symptoms. Clearly, many other respiratory infections are cocirculating, although we did not conduct additional testing to confirm other pathogens. This highlights the ongoing challenge of differentiating COVID-19 from more common respiratory illnesses in the absence of widespread testing. As we enter the fall, officials estimate that we may see a second wave of COVID-19 occur simultaneously with other more common respiratory illnesses including influenza. Healthcare systems will need to prepare for the impact of this on hospital resources. Similar symptomology and a lack of testing will lead to challenges in differentiating COVID-19 from other respiratory illnesses.

This public event was free, financially supported by a private healthcare system, and set up in <24 hours. The need for such an event to document community spread of COVID-19 speaks to the failure in the United States to support a public health system that could provide easily available testing to identify, isolate, and halt community spread of this highly contagious disease. Both private and public health systems need to work together to expand capacity for testing, enabling the public health system to perform the necessary isolation and contact tracing that are required to slow and eventually stop the continued spread of COVID-19.

Acknowledgments

We acknowledge the healthcare providers who screened members of the community during this drive-through testing event, the clerical staff who entered data, and Maddie Brooks, who geocoded the address information for all study participants.

Financial support

This study was funded by ChristianaCare, Wilmington, Delaware.

Conflict of Interest

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

References

Sharfstein, JM, Becker, SJ, Mello, MM. Diagnostic testing for the novel coronavirus. JAMA 2020;323:14371438.CrossRefGoogle ScholarPubMed
Cohen, J, Kupferschmidt, K. Countries test tactics in “war” against COVID-19. Science 2020;367:12871288.CrossRefGoogle ScholarPubMed
Iacobucci, G. COVID-19: UK government calls on industry to help boost testing capacity to 25 000 people a day. BMJ 2020;368:m1118.CrossRefGoogle ScholarPubMed
Kwon, KT, Ko, JH, Shin, H, Sung, M, Kim, JY. Drive-through screening center for COVID-19: A safe and efficient screening system against massive community outbreak. J Korean Med Sci 2020;35(11):25.CrossRefGoogle ScholarPubMed
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Table 1. Demographic and Clinical Characteristics of 537 Participants in COVID-19 Drive-through Testing Event, March 13, 2020