TUCSON, Ariz. — At the University of Arizona, two types of tests are typically offered to students and employees to detect the presence of COVID-19. Both the quick-turnaround antigen tests and the polymerase chain reaction test rely on a nasal swab to collect a sample. But for those who dread the stick up the nose, one UArizona researcher is hoping to add another tool to the university’s testing arsenal – one that relies instead on a simple saltwater rinse and gargle.
Michael Worobey, PhD, head of the Department of Ecology and Evolutionary Biology, specializes in the evolution of viruses. He began using the mouth rinse test in limited campus populations after reading a paper on the test published by researchers in British Columbia on medRxiv, a preprint server for health sciences research.
While papers published on preprint servers have not yet been peer reviewed and therefore should be treated as preliminary, Dr. Worobey deemed the report convincing enough to give the mouth rinse approach a shot.
He has since used the test to collect samples from UArizona students in isolation dormitories who had already tested positive for COVID-19, as well as from students, staff and faculty willing to enroll in his study immediately after providing samples for clinical testing through Campus Health. The sampling effort aims to collect as many virus genomes as possible as part of an ongoing study that seeks to uncover how SARS-CoV-2 evolves over time and how it spreads through the human population. Initial results have been very encouraging, says Dr. Worobey, who also is associate director of the UArizona BIO5 Institute.
“It’s vastly more tolerable than the nasopharyngeal swab, and people can do it all by themselves and even keep their mask on almost the whole time,” says Dr. Worobey, who doesn’t know of any other U.S. universities using the mouth rinse test.
Demonstrating the procedure himself, Dr. Worobey cracks open a crayon-sized, pink plastic vial containing a liquid. “Off comes the top, you pull your mask down, and you just squirt a bit of sterile saltwater into your mouth.”
Dr. Worobey swishes the liquid around in his mouth for five seconds, then tilts his head back for 10 seconds of gargling. After a total of three cycles of swishing and gargling, Dr. Worobey spits the liquid into the specimen cup and screws the lid back on.
“And that’s it,” he says, “you’re done.”
Dr. Worobey says, based on his results, the mouth rinse test is more sensitive than a nasopharyngeal swab test. It also appears to be considerably more sensitive than a test based solely on saliva samples, where test subjects simply spit into a cup. The reason for the increased sensitivity, Dr. Worobey says, could be due to the fact that virus particles are pulled from the throat during the gargle phase in addition to the saliva collected during the mouth rinse procedure.
The saltwater gargle approach is also ideal for the extremely dry climate typical of fall in southern Arizona, which makes it difficult for some people to stay properly hydrated and produce the necessary amount of saliva needed for a spit test.
“Our system allows the participants to painlessly collect virus from the back of their throat in a way that, so far, seems superior in terms of its ability to detect the virus,” Dr. Worobey said.
When Dr. Worobey tested the very first person in the study, using both the nasal swab and the saline gargle samples, the virus was detectable only in the gargle sample. Out of more than 100 people screened, he now has paired nasopharyngeal and saline gargle samples from 30 coronavirus-positive patients. In this head-to-head comparison, the oral rinse samples detected the virus in about 20% more patients than the nasopharyngeal ones.
“This shows that the salt rinse and gargle test can be more sensitive and catch an infection you’d miss with the nasopharyngeal test,” he says. “It also suggests that it’s doing a good job of detecting virus in people who have or recently had the virus.”
If success with the test continues, it could have the potential to transform how testing is done at the university.
“COVID-19 remains a significant public health threat, and testing has been a critical part of the University of Arizona’s test, trace and treat strategy to keep our students and employees as safe as possible,” said UArizona President Robert C. Robbins, MD. “If this test proves to be as promising as early results indicate, it could eventually allow us to ramp up our already robust testing efforts in a really innovative way that allows us to administer high-quality and highly tolerable tests to large numbers of people.”
Deciphering the Viral Genome
Soon after the pandemic began, Dr. Worobey embarked on research that aimed to collect as many complete genome sequences of the coronavirus as possible, in a collaboration with David Harris, PhD, director of the UArizona Health Sciences Biorepository and a professor of medicine and immunobiology in the College of Medicine – Tucson. Dr. Worobey also is one of three principal investigators for the Arizona COVID-19 Genomics Union, a joint effort between UArizona, Northern Arizona University and The Translational Research Genomics Institute that was set up to perform high-throughput sequencing of samples from COVID-19 patients to analyze the virus’s genomic sequences.
Accurately deciphering the viral genome, which consists of about 30,000 nucleotides – essentially the letters spelling out the genetic blueprint of all organisms – allows researchers and health officials to track different strains, track where each sample originated and where it may have been transmitted, and possibly reveal details that could provide critical information for diagnostics, antiviral drug targets, vaccine development and prevention of future pandemics.
“I think the saltwater gargle will work better than nasopharyngeal swabs,” Dr. Worobey said, “because for a research study, and eventually clinical testing, you need to get people to be OK with participating, and any kind of unpleasantness you throw at them means a lower percentage of people will participate.”
The mouth rinse is safer for health care workers, too, because test subjects can collect their own samples without the need for a health care worker to administer the test.
“For the medical technicians collecting nasopharyngeal swabs for diagnostic PCR tests, it just seems better to take the coughing, sneezing and close proximity out of the equation to reduce the risks to the brave people doing that vital work, yet still provide a highly sensitive test,” Dr. Worobey said.
To reconstruct complete genomes from samples containing coronavirus, researchers have to amplify the genetic material – in other words, make copies in the millions – and then stitch them together like pages randomly torn from a book.
Worldwide, more than 100,000 genomes have been sequenced so far, with most being deciphered with a technique pioneered by Dr. Worobey, whose team made headlines around the world when it successfully “resurrected” a complete genomic sequence from HIV, the virus that causes AIDS, from a decades-old tissue sample.
“It turns out sequencing many virus genomes works best if you amplify about 100 to 300 small sections of nucleotides, sequence them, then stitch them back together into a cohesive genomic sequence,” Dr. Worobey said. “We call it RNA jackhammering, because you tackle a big problem by applying a whole bunch of little blows to it.”
Dr. Worobey hopes that the saltwater gargle test lives up to expectations and might eventually be used not just for research purposes but also for public health and individualized clinical diagnostic testing on the University of Arizona campus and beyond. He thinks the test could fairly easily be scaled up to collect and process hundreds or thousands of samples per day – something that is more difficult to accomplish with standard saliva test samples, which are more viscous and therefore can be difficult to process.
Even if it doesn’t end up replacing currently used methods, Dr. Worobey says it could be another valuable tool. And, he adds, it is particularly user-friendly for school-aged children.
“That is an application where I could really see huge benefit to a safe, inexpensive – but most importantly less invasive – sampling modality like this,” he said.
Dr. Worobey encourages anyone who has been diagnosed with COVID-19 within the past week to consider enrolling in his research study by sending an email to EEB-COVIDGenomics@email.arizona.edu.
The UArizona Health Sciences COVID-19 Research webpage can be found here.
For the latest on the University of Arizona response to the novel coronavirus, visit the university’s COVID-19 webpage.
For UANews coverage of COVID-19, visit https://news.arizona.edu/news/covid19.
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A version of this article appeared originally on the UANews website.
NOTE: Images and other assets for this article available here – https://arizona.app.box.com/v/SwishTesting
About the UArizona Health Sciences
The University of Arizona Health Sciences is the statewide leader in biomedical research and health professions training. UArizona Health Sciences includes the Colleges of Medicine (Tucson and Phoenix), Nursing, Pharmacy, and the Mel and Enid Zuckerman College of Public Health, with main campus locations in Tucson and the Phoenix Biomedical Campus in downtown Phoenix. From these vantage points, Health Sciences reaches across the state of Arizona, the greater Southwest and around the world to provide next-generation education, research and outreach. A major economic engine, Health Sciences employs nearly 5,000 people, has approximately 4,000 students and 900 faculty members, and garners $200 million in research grants and contracts annually. For more information: uahs.arizona.edu (Follow us: Facebook | Twitter | YouTube | LinkedIn | Instagram).
About the University of Arizona
The University of Arizona, a land-grant university with two independently accredited medical schools, is one of the nation's top public universities, according to U.S. News & World Report. Established in 1885, the university is widely recognized as a student-centric university and has been designated as a Hispanic Serving Institution by the U.S. Department of Education. The university ranked in the top 20 in 2018 in research expenditures among all public universities, according to the National Science Foundation, and is a leading Research 1 institution with $687 million in annual research expenditures. The university advances the frontiers of interdisciplinary scholarship and entrepreneurial partnerships as a member of the Association of American Universities, the 65 leading public and private research universities in the U.S. It benefits the state with an estimated economic impact of $4.1 billion annually. For more information: arizona.edu (Follow us: Facebook | Twitter | YouTube | LinkedIn | Instagram).