Author: Miles, L. F.; Chuen, J.; Edwards, L.; Hohmann, J. D.; Williams, R.; Peyton, P.; Grayden, D. B.
Title: The design and manufacture of 3Dâ€printed adjuncts for powered airâ€purifying respirators Cord-id: gnvhshlg Document date: 2020_7_19
ID: gnvhshlg
Snippet: Spurred in part by literature published in the immediate aftermath of the severe acute respiratory syndrome epidemic in 2003, powered airâ€purifying respirators have seen increased use worldwide during the COVIDâ€19 pandemic. Whereas these devices provide excellent protection of the user, there is an added element of risk during doffing and cleaning of the device. An additional layer of barrier protection, in the form of a polypropylene gown, to be worn over the hood and motor belt, can be use
Document: Spurred in part by literature published in the immediate aftermath of the severe acute respiratory syndrome epidemic in 2003, powered airâ€purifying respirators have seen increased use worldwide during the COVIDâ€19 pandemic. Whereas these devices provide excellent protection of the user, there is an added element of risk during doffing and cleaning of the device. An additional layer of barrier protection, in the form of a polypropylene gown, to be worn over the hood and motor belt, can be used to minimise this risk. However, the device entrains air perpendicular to the lie of the gown, resulting in the impermeable material being sucked into the air intake, and partial occlusion of flow. In this report, we describe a clinicalâ€academic partnership whereby a bespoke filter guard was designed to disrupt airflow and prevent gown entrainment, thereby enabling full barrier protection of both the device and user. This intervention was simple, cheap, scalable and able to be mass produced.
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