Abstract
N95/FFP3 respirators have been critical to protect healthcare workers and their patients from the transmission of COVID-19. However, these respirators are characterised by a limited range of size and geometry, which are often associated with fitting issues in particular sub-groups of gender and ethnicities. This study describes a novel methodology which combines magnetic resonance imaging (MRI) of a cohort of individuals (n = 8), with and without a respirator in-situ, and 3D registration algorithm which predicted the goodness of fit of the respirator. Sensitivity analysis was used to optimise a deformation value for the respirator-face interactions and corroborate with the soft tissue displacements estimated from the MRI images. An association between predicted respirator fitting and facial anthropometrics was then assessed for the cohort.
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CITATION STYLE
Caggiari, S., Keenan, B., Bader, D. L., Mavrogordato, M. N., Rankin, K., Evans, S. L., & Worsley, P. R. (2022). A combined imaging, deformation and registration methodology for predicting respirator fitting. PLoS ONE, 17(11 November). https://doi.org/10.1371/journal.pone.0277570
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