UCF Researchers Identify Food Products That Could Reduce COVID Transmission
Face masks and social distancing are both well-known ways to keep airborne pathogens, like COVID-19, at bay, but the University of Central Florida researchers Michael Kinzel and Kareem Ahmed are working on a possible new one — a combination of food products that alters people’s saliva.
The concept is based on new work from the researchers showing that food product ingredients can be used to thicken and reduce a person’s saliva, thus decreasing the transmission potential of airborne pathogens. The results were published recently in the journal Nature Scientific Reports.
“This is a new concept in the context of source control,” says study co-author Kinzel, an assistant professor in UCF’s Department of Mechanical and Aerospace Engineering. “There are obviously masks, but this is the first research focusing on what comes out of one’s buccal cavity or mouth.”
The work builds on Kinzel and Ahmed’s previous studies examining the effectiveness of masks in the classroom, features that could make someone a super spreader, and initial studies of food ingredients to control airborne disease transmission. Ahmed is an associate professor in UCF’s Department of Mechanical and Aerospace Engineering.
“The group has researched droplet formation for years,” Kinzel says. “When we heard sneezes transported aerosols over 27 feet early in the pandemic, we realized that this has to be small aerosols, similar to what you see in a misting nozzle. Our thinking has been let’s focus on altering those droplets such that they fall to the ground and not travel so far.”
For the study, the researchers examined characteristics of saliva, such as thickness and amount, and their influence on how far droplets and aerosols from a human’s sneeze travel, which are factors related to airborne pathogen transmission.
High-speed cameras were used to capture the sneezes frame-by-frame in mid-air, and image processing software was used to quantify droplets and aerosols. Subsequent numerical methods using computational fluid dynamics provided detailed quantification to better understand the sneeze events.
Saliva was altered using a range of food-grade compounds, including cornstarch, agar-agar, xanthan gum, and ginger.
The researchers found that ginger reduced the amount of saliva expelled from a sneeze by more than 80% and was as effective as a mask in reducing the distance of droplets and aerosols from a sneeze.
Cornstarch and xanthan gum were found to increase the thickness of saliva by five and 2,000%, respectively. They also reduced the distance of aerosols from a sneeze more than not wearing a mask. However, a mask was still more effective in reducing aerosol distance than cornstarch and xanthan gum.
A neck gaiter combined with a surgical mask was the type of mask used in the study.
The findings suggest that certain food products can be tailored to both thicken and reduce saliva emitted to reduce airborne disease transmission. This can also be used in combination with a mask, or without as the impact of the pandemic changes, and could perhaps allow for increased capacity, Kinzel says.
One such product could be chocolate to deliver the saliva-changing compound, the researcher says.
“Much like vitamin gummies, this would not be a candy, but rather a form to deliver the solution,” he says. “It could perhaps be referred to as a ‘chocaceutical.’”
The research was funded in part by the Division of Chemical, Bioengineering, Environmental, and Transport Systems, Fluid Dynamics at the U.S. National Science Foundation.
Study co-authors were Jonathan Reyes, a postdoctoral researcher in UCF’s Department of Mechanical and Aerospace Engineering who works in Ahmed’s lab; Douglas Fontes, a postdoctoral researcher with the Florida Space Institute; Alexander Bazzi, a graduate student in UCF’s master’s program in mechanical and aerospace engineering; and Michelle Otero, a graduate of UCF’s doctoral program in mechanical engineering.
Kinzel received his doctorate in aerospace engineering from Pennsylvania State University and joined UCF in 2018. In addition to being a member of UCF’s Department of Mechanical and Aerospace Engineering and a part of UCF’s College of Engineering and Computer Science, he also works with UCF’s Center for Advanced Turbomachinery and Energy Research.
Ahmed’s doctoral degree is in mechanical engineering from the State University of New York at Buffalo. He is a faculty member of the Center for Advanced Turbomachinery and Energy Research and part of the Florida Center for Advanced Aero-Propulsion. He served more than three years as a senior aero/thermo engineer at Pratt & Whitney military engines working on advanced engine programs and technologies. He also served as a faculty member at Old Dominion University and Florida State University. At UCF, he is leading research in propulsion and energy with applications for power generation and gas-turbine engines, propulsion-jet engines, hypersonics and fire safety, as well as research related to supernova science and COVID-19 transmission control. He is an American Institute of Aeronautics and Astronautics associate fellow and a U.S. Air Force Research Laboratory and Office of Naval Research faculty fellow.
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