Litcius/Paper detail

Involvement of the open-source community in combating the worldwide COVID-19 pandemic: a review

John Scott Frazer, Amelia Shard, James Herdman

2020Journal of Medical Engineering & Technology47 citationsDOI

Abstract

The ongoing COVID-19 pandemic is unprecedented in the modern age both due to its scale and its disruption to daily life throughout the world. Widespread social isolation and restrictions in the age of modern communicative technology, coupled with some early successes for makers, have united the open-source community towards a common goal in a way not previously seen. Local hospitals and care facilities are turning to makers to print essential consumable parts, such as simple visors, while in the hardest hit areas, critical pieces of medical technology are being fabricated. While important and effective innovations are appearing almost daily, there are also some worrying trends towards hobbyists attempting manufacture of complex medical devices with little understanding of the clinical or scientific rationale behind their design. The nature of the open-source community, an area of intensive innovation, fluidity, and experimentation, jars with the exacting standards of medical device regulation. Here, we review the involvement of rapid prototyping and the open-source community in the key areas of personal protective equipment (PPE), diagnostics, critical care technology, and information acquisition and sharing, highlighting where makers and hackers have clashed with medical device regulations, and areas where the system has worked well to facilitate change.

Topics & Concepts

HackerOpen sourcePandemicIsolation (microbiology)Coronavirus disease 2019 (COVID-19)Public relationsBusinessScale (ratio)Social distanceKey (lock)Internet privacyPolitical scienceComputer scienceMedicineComputer securityGeographyDiseaseSoftwareInfectious disease (medical specialty)CartographyPathologyBiologyProgramming languageMicrobiologyBiomedical and Engineering EducationSARS-CoV-2 and COVID-19 ResearchSARS-CoV-2 detection and testing