Author: van der Elst, Louis A.; Gokce Kurtoglu, Merve; Leffel, Troy; Zheng, Mengxin; Gumennik, Alexander
Title: Rapid Fabrication of Sterile Medical Nasopharyngeal Swabs by Stereolithography for Widespread Testing in a Pandemic Cord-id: jzm0e05x Document date: 2020_10_21
ID: jzm0e05x
Snippet: The 3D printing of nasopharyngeal swabs during the COVIDâ€19 pandemic presents a central case of how to efficiently address a break in the global supply chain of medical equipment. Herein a comprehensive study of swab design considerations for mass production by stereolithography is presented. The retention and comfort performance of a range of novel designs of 3Dâ€printed swabs are compared with the standard flockedâ€head swab used in clinical environments. Sample retention of the 3D swab is
Document: The 3D printing of nasopharyngeal swabs during the COVIDâ€19 pandemic presents a central case of how to efficiently address a break in the global supply chain of medical equipment. Herein a comprehensive study of swab design considerations for mass production by stereolithography is presented. The retention and comfort performance of a range of novel designs of 3Dâ€printed swabs are compared with the standard flockedâ€head swab used in clinical environments. Sample retention of the 3D swab is governed by the volume, porosity density, and void fraction of the head as well as by the pore geometry. 3Dâ€printed swabs outperform conventional flockâ€head swabs in terms of sample retention. It is argued that mechanically functional designs of the swab head, such as corkscrewâ€shaped heads and negative Poisson ratio heads, maximize sample retention and improve patient comfort. In addition, available designs of swab shafts for an optimized sample collection procedure are characterized. The study is conducted in vitro, using artificial mucus, covering the full range of human mucus viscosities in a 3Dâ€printed model of a nasal cavity. The work sets the path for the resilient supply of widespread sterile testing equipment as a rapid response to the current and future pandemics.
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