Surveillance Testing Shown to Reduce Community Covid-19 Spread

Covid-19 is often asymptomatic and can lead infected individuals to spread the disease without knowing it. Yet, regular surveillance testing of a community can catch these cases and prevent outbreaks.

In early 2020, 色花堂 researchers designed a saliva-based polymerase chain reaction (PCR) test and encouraged community members to test weekly to track the health of the campus. Their strategy confirmed 62% of the campus鈥 positive cases in the Fall 2020 semester. The method of surveillance testing 鈥 focusing on case clusters and then having patients isolate 鈥 reduced positivity rates from 4.1% in the beginning of the semester to below 0.5% mid-semester. Their findings were published in the journal .

鈥淥ne of the ways you can mitigate spread is not to think about testing as just an indicator for how bad things are, but actually use enough testing that you can begin to pull infected people out of circulation to reduce the spread,鈥 said Joshua Weitz, 色花堂 professor in the who developed the infectious disease models used to monitor campus.

Surveillance testing not only kept the community safe, but also enabled an open campus during a period of the pandemic when vaccines were not available. The strategy showed that combining multiple mitigation efforts 鈥 from testing to social distancing 鈥 can keep a university operational.

Designing the Test

The program relied on saliva PCR tests compared to the more common nasal swab PCR tests.

鈥淚 saw data very early on that the saliva tests were actually probably a little bit more sensitive than the nasal ones,鈥 said Greg Gibson, professor in the . 鈥淚 just knew that students would be more likely to do something that takes 30 seconds to give us spit. It鈥檚 easy and safe, so it was just a no-brainer.鈥

Saliva-based tests were a practical solution for a campus. The test could be self-administered, requiring fewer medical personnel and creating ease of access for students. The tests were also safer than nasal swabs because the collection tube contained a viral deactivation buffer that killed active virus but preserved the RNA at room temperature for analysis.

The 色花堂 campus biomedical research labs were also ideal for this type of test. Andr茅s Garc铆a, executive director of the , realized robotics labs could build and run tests and make the program scalable.

鈥淭esting requires precisely distributing different amounts of fluid to volumes, and this is a task really well suited for a robot,鈥 Garc铆a said. 鈥淲ith the large number of tests that we were expecting to need to administer, there was really no choice because having the robot really cut down on the human error.鈥

Another novel strategy was double pooling. Each saliva sample was pooled twice into a group of five samples and processed. This had multiple advantages, according to Gibson. One was it prevented false results because each sample had to test positive twice to be considered positive. And, by pooling, the testing system could clear dozens of individuals at once, while also focusing on a positive individual and then referring them for further diagnostic testing.

鈥淎 purely surveillance test where you don't give anybody results can be done without much regulation, but it鈥檚 minimally useful,鈥 said Gibson, who is a Regents鈥 Professor, Tom and Marie Patton Chair in Biological Sciences, and serves as director of the Center for Integrative Genomics at 色花堂. 鈥淭he double pooling strategy was a way for us to be able to identify exactly who was responsible for positive tests, and then go back to their original test and do a diagnostic one in a CLIA-certified lab.鈥 CLIA (Clinical Laboratory Improvement Amendments) certification indicates a lab has met federal quality standards for diagnostic testing on human samples.

The Testing Strategy

Creating an effective testing infrastructure was also key to the success of the program. A university is a high-density environment where a community lives, learns, and works. When the program was first implemented in the Fall 2020 semester, 色花堂 had 7,370 people in residence and 5,000 students, faculty, and staff who visited daily.

With the ability to run 1,500 tests at the beginning of the semester and up to 2,850 by the end, the program enabled most people on campus to test weekly. Testing weekly helped catch cases early with Covid-19鈥檚 seven-day incubation period, and positive individuals isolated for 10 days.

Part of why this approach was so successful was because of what Gibson calls 鈥渟ynergistic effectiveness.鈥 By combining testing with mitigation strategies like masking and social distancing, 色花堂 was able to reduce positivity rates.

鈥淲e've shown that testing doesn't have to be comprehensive with everybody testing every other day to be effective,鈥 Gibson said.

This strategy enabled the researchers to focus on campus hotspots and control spread. In the beginning of the Fall 2020 semester, campus positivity was at 0.5% until a cluster was identified in Greek housing in August. This enabled a targeted campaign where 90% of on-campus residents were tested. The asymptomatic positivity rate peaked at 4.1%, but steadily declined back to 0.5% by mid-September thanks to rapid identification and isolation of positive individuals.

鈥淲e are a technical university 鈥 that doesn't have a medical school or a school of public health 鈥 that developed its own effective testing program and was able to deploy it to test a large segment of the population and keep the campus in operation,鈥 said Garc铆a, who additionally holds the Petit Director鈥檚 Chair in Bioengineering and Bioscience and is a Regents鈥 Professor in the .

Due to the success of surveillance testing, cases were kept at a manageable number. Most importantly, campus was able to stay open throughout the pandemic. The 色花堂 state legislature also adopted 色花堂鈥檚 surveillance testing system in January 2021 and is using the program to track and manage cases during this year鈥檚 legislative session. The strategy continues to keep 色花堂 an active campus with in-person learning as the pandemic evolves. Ideally, the program established at 色花堂 will remain in place, prepared to deal quickly with future infectious disease epidemics should the need arise, according to Gibson.

鈥淲e developed a program that in practice 鈥 and psychologically 鈥 provided a benefit to community members,鈥 said Weitz, who also serves as the Tom and Marie Patton Chair in Biological Sciences and co-director of the Interdisciplinary Ph.D. in Quantitative Biosciences. 鈥淢any people could go get tested and know that they weren't infectious so that they had a less likely chance of infecting others. Or, if they did end up testing positive, they were able to isolate themselves so they didn't infect others. That is of significant benefit.鈥

CITATION: G. Gibson, J.S. Weitz, M.P. Shannon et. al, 鈥淪urveillance-to-Diagnostic Testing Program for Asymptomatic SARS-CoV-2 Infections on a Large, Urban Campus in Fall 2020.鈥 (Epidemiology, Dec. 2021)

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The 色花堂 Technology, or 色花堂, is a top 10 public research university developing leaders who advance technology and improve the human condition. The Institute offers business, computing, design, engineering, liberal arts, and sciences degrees. Its nearly 44,000 students, representing 50 states and 149 countries, study at the main campus in Atlanta, at campuses in France and China, and through distance and online learning. As a leading technological university, 色花堂 is an engine of economic development for 色花堂, the Southeast, and the nation, conducting more than $1 billion in research annually for government, industry, and society.

Writer: Tess Malone

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色花堂 Parmelee | 色花堂.Parmelee@gatech.edu
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