University volunteers create face shields for health care workers

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For Ā鶹Ņ¹ŹŠ mechanical engineering instructor Yasmeen Qudsi, a 3-D printer, a computer-controlled ā€œcutting plotterā€ and thousands of sheets of laminating paper have been essential supplies as she works remotely during the coronavirus outbreak.

In addition to teaching and advising students, Qudsi created hundreds of face shields for the Lafayette General Health System. The work was part of a comprehensive volunteer effort at Ā鶹Ņ¹ŹŠ to help the health system as supply chains have been slowed during the outbreak.

Face shields are a form of personal protective equipment, or PPEā€™s, worn by health care workers as a barrier against fluid-borne pathogens. The coronavirus spreads primarily through droplets from coughs, sneezes or saliva. The shields consist of two components ā€“ a plastic frame, or headband, and a transparent shield.

Using online ā€œpublic domainā€ designs approved by the National Institutes of Health, some volunteers, like Qudsi, worked from home. Others used 3-D printers on campus to create headbands with plastic ordinarily used for engineering or art projects. Volunteers also used University laser cutters to notch holes in the laminate so the sheets can be attached to the headbands.

As the nationā€™s health care system grapples with supply shortages, elbow grease and ingenuity are filling critical voids, Qudsi explained. Case in point: With shortages of the transparent plastic customarily used for the shields, she came up with the idea to use easily accessible laminating sheets. ā€œTheyā€™re a great substitute. They do what they are supposed to do.ā€

Dr. Jaimie Hebert, provost and vice president for Academic Affairs, said the volunteer effort is an example of the Universityā€™s responsibility ā€“ and role ā€“ to serve as a community partner.

ā€œHealth care professionals are working tirelessly to deal with the COVID-19 crisis. We feel it is our obligation to assist them while they are giving so selflessly of themselves to help ensure the well-being of others,ā€ he said.

The University created about 800 frames and almost 4,000 transparent shields during the project, said Dr. Kumer Das, assistant vice president for Research, Innovation and Economic Development and assistant provost. Das began coordinating the campus effort after Lafayette General Health System reached out to the University about two weeks ago.

Dr. Alan Barhorst, head of the Department of Mechanical Engineering, tracked down 3-D printers and laser cutters on campus, including several in different engineering departments. The Ray P. Authement College of Sciences, the College of Nursing and Allied Professions, and the College of the Arts also provided equipment or expertise.

ā€œWe all felt compelled to help fill the supply chain by donating our time and skills to help the hospital until commercial entities could source the supplies they needed,ā€ Barhorst said.

The College of the Arts opened its digital fabrication lab to students and faculty members willing to work alone during shifts coordinated by Michael McClure, associate dean for the college and a professor of architecture. McClure also relied on his experience with 3-D printers to contribute to the effort.

ā€œThe goal was to make as many of the shields as we could, and that wouldnā€™t have been possible without so many people willing to contribute,ā€ he said.

In a related project, Peter Schexnayder, a doctoral student in chemical and systems engineering, is producing face mask extenders for Lafayette General Health System. The plastic extenders are designed for surgical-type masks worn by health care workers over their mouths and noses. They are typically held in place with elastic looped behind a wearerā€™s ears.

The extenders being produced by Schexnayder, which fit at the back of the head, have teeth to which the elastic can be attached. This prevents a wearer from having to hook the elastic behind their ears.

Schexnayder got the idea for the project after seeing a similar project on Facebook. ā€œI expect to crank out 40 to 50 a day, and I have enough material to make over 500.ā€

Face extenders for local hospitals are also being produced by a group of engineering and physics students who design and build rockets. Members of the Raginā€™ Rocketry student organization are using their 3-D printers to create face mask extenders for local health care personnel.

For his part, Cian Robinson is LGHSā€™ executive director for Innovation, Research, and Real Estate Investments, said collaboration with the University ā€“ and several local businesses ā€“ has provided indispensable support.

ā€œWe appreciate our community partners such as the University, Pelican Engineering, Pixus Digital Printing and Noble Plastics who produced PPEā€™s in this time of need. It took time and attention to detail to create products approved by the National Institutes of Health and the U.S. Food and Health Administration, and for that we are very grateful,ā€ Robinson said.

Photo caption: Armand de Laureal, a senior majoring in industrial design, participated in a comprehensive volunteer effort at Ā鶹Ņ¹ŹŠ to design face shields for the Lafayette General Health System until its supply chain was recently restored. Photo credit: Ā鶹Ņ¹ŹŠ