Swabs Designed by Harvard Wyss Institute Enter Human Trials for COVID-19

Researchers at the Wyss Institute at Harvard University, in collaboration with healthcare, research, and industrial partners, have designed a new, fully injection-molded nasopharyngeal swab that can be manufactured quickly and inexpensively at high volume to help address the nationwide and international shortage of swabs for COVID-19 testing and research. The swabs are moving into human trials at SUNY Downstate Medical Center and Translational Genomics arch Institute (TGen), an affiliate of City of Hope, which should be completed by the end of next week, and are in preclinical evaluation at six additional hospitals. Data from the two trials will be used to inform larger trials with COVID-19 patients, and California-based medical device manufacturer IPB, Inc. has been working around the clock to ramp up production of the new swabs to reach 200,000 per day by May 15.

"Experts have recently estimated that the United States needs to more than triple the number of daily COVID-19 tests in order for the country to be safely reopened by mid-May, but the current swabs are complicated to make, and producers just don't have the ability to increase production to that level in such a short period of time," said Richard Novak, Ph.D., a Senior Staff Engineer at the Wyss Institute who has been leading the multi-institutional effort to develop a fully injection-molded swab, working with the Wyss Institute's Founding Director Donald Ingber, M.D., Ph.D. "These new swabs can help meet the critical need for collecting samples, both to diagnose patients and to study the virus itself so that treatments and a vaccine can be found sooner."

The project began just over a month ago when clinician-researchers at Beth Israel Deaconess Medical Center (BIDMC) reached out to Ingber asking for help to solve the hospital's swab shortage as the COVID-19 pandemic was blossoming. Ingber, Novak, and a team of Wyss researchers joined the multi-disciplinary effort, quickly realizing that not only could they design a swab replacement, the Wyss Institute's unique position at the intersection of academia and industry meant that it could bring together clinicians who needed swabs, researchers who were developing them, and manufacturers who could rapidly produce them at low cost, streamlining the process to get the swabs into the hands of doctors and nurses as quickly as possible.

The nasopharyngeal swabs that have been used in hospitals for more than 50 years consist of two pieces: an injection-molded plastic handle and an absorptive tip made of a soft material such as cotton, polyester, or flocked nylon. Each swab is manufactured in a multi-step process, then assembled, sterilized, and packaged, all of which requires significant time and expense. As part of the overall effort to create a more streamlined alternative, other teams have leveraged 3D printing to meet this challenge, which has led to some useful short-term solutions. However, 3D printing is currently costly and can only be done at scale by a limited number of suppliers. The Wyss team set out to create a new design that could be manufactured using injection molding rather than 3D printing, because injection molding is faster, less expensive, and is routinely used by a broad range of experienced medical device manufacturers worldwide.

In mid-March, Ramy Arnaout, M.D., Ph.D. and James Kirby, M.D., who lead the Clinical Microbiology Laboratory at the BIDMC, began collaborating with the Wyss team, who developed and tested new swab designs that they 3D printed and showed each other via video calls and email, as social distancing measures prevented them from physically working in the same space. Over repeated trials, they eventually settled on a design with a flexible, honey-dipper-like tip that could be injection-molded. The Wyss team has now sent prototype injection-molded swabs produced by Proto Labs to eight hospitals and health centers for preclinical testing, in which clinicians are evaluating the swabs' performance on a variety of fronts including their comfort and ease of use, as well as their ability to collect a large enough sample with detectable amounts of viral RNA.

The swabs are being tested in human subjects who will receive a normal swab in one nostril and a prototype of the Wyss-designed swab in the other. If the new swabs can collect a sample that contains detectable genetic information while being as easy-to-use and comfortable as the existing swabs, IPB will ramp up production of the final injection-molded design, which will be used in future clinical trials and, the team hopes, become widely adopted by the medical community in testing patients for COVID-19.

From the beginning of the project, the team has been committed to ensuring that their swabs are accessible to hospitals and research facilities around the country to expedite testing. Along with BIDMC, they are part of the Mass General Brigham Center for COVID Innovation that includes members from Mass General Hospital and Brigham and Women's Hospital, representing the majority of hospitals in the greater Boston area. The Center's Swab Working Group meets regularly via videoconference to update each other on their progress and needs, and has made their designs and prototypes freely available through GitHub. The group also facilitates talks with manufacturing partners to coordinate the production, packaging, and delivery of the swabs to hospitals and testing centers, including local companies in Massachusetts and New Hampshire.

"I've been really impressed by how collaboratively all these hospitals and companies are working with each other - it shows that the people involved are genuinely invested in developing solutions to save lives during this crisis, in any way they can," said Perry, a Staff Engineer at the Wyss Institute who is working on packaging and sterilization solutions for the swabs.

Reaching out and making connections across miles and time zones is what has allowed this week's trials to take place at SUNY Downstate in New York City and TGen's Pathogen and Microbiome Division, TGen North, in Arizona. TGen North Clinical Laboratory is testing the new Wyss swabs side-by-side against existing swabs on volunteers from its research labs, and is also processing COVID-19 tests for several counties and tribal nations in northern Arizona.

At SUNY Downstate, the swabs are being used alongside existing swabs to collect samples from healthcare workers in the emergency, intensive care, and inpatient departments as part of a small trial to determine if people who are infected with the coronavirus but aren't showing symptoms can still transmit the virus to others. The hospital's Department of Pathology is also working with the Wyss Institute on plans for a larger clinical trial to evaluate the swabs' performance based on data from the ongoing trial.

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