473. Using Serosurveillance for SARS-CoV-2 to Conserve PCR Tests in a Resource Constrained Combat Environment

Autor: Daniel J Cybulski, Rory P Stuart, Ashley E Rutherford, Ryan Comes, Jacob Bova, Shawnn Nichols, Alex M Case, Brian White, Mohit Sachdeva
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Zdroj: Open Forum Infectious Diseases
ISSN: 2328-8957
DOI: 10.1093/ofid/ofaa439.666
Popis: Background In March 2020, COVID-19 threatened combat operations in Afghanistan. At that time, the NATO Resolute Support mission involved nearly 17,000 troops from 38 partner nations, plus civilians who support the mission, scattered throughout Afghanistan. While Afghanistan did not initially report many confirmed cases, large numbers of cases were reported from neighboring countries with known migration across the borders (sometimes thousands/day). Military medical leaders advised commanders regarding the potential health risks to the force, balancing with risks to the mission. Quarantine and isolation protocols were established. Public health interventions of social distancing, cloth mask wear, enhanced environmental cleaning, active case finding, and emphasis on hand hygiene and cough etiquette were enforced. However, many base locations were unable to alleviate close living quarters. Testing was identified as a means to assess risk to the population. Testing capabilities were limited, particularly PCR. When this testing strategy was established, the utilization and interpretation of antibody tests was quite controversial. With rapid antibody kits, the time to detection of both IgM and IgG are similar; detection of either cannot identify the time since exposure. Methods A novel surveillance plan was established whereby subpopulations at highest risk for exposure to the virus were screened with antibody tests from 17 Apr-1 Jun, 2020. High risk populations included: those leaving quarantine, base defense guards, isolation unit guards, medical personnel, dining facility workers, and those who interact with local populations. Individuals with detectable antibody (either IgM or IgG) were further evaluated with PCR tests. Results In the first six weeks of this testing strategy, 1957 antibody tests were utilized. A total of 37 specimens were identified antibody positives with seroprevalence of 2% (Figure 1). Thirteen were identified to have positive IgG, 22 with IgM, and 2 with both. PCR was performed on those with detectable antibody, 13 (35%) had positive PCR. Conclusion Serosurveillance of populations at high risk for exposure to the virus is a logical way to conserve testing resources in a constrained combat environment. Disclosures Alex M. Case, n/a, United States Air Force (Employee)
Databáze: OpenAIRE