EA - Developing Next Gen PPE to Reduce Biorisks by AndyGraham

Link to original articleWelcome to The Nonlinear Library, where we use Text-to-Speech software to convert the best writing from the Rationalist and EA communities into audio. This is: Developing Next Gen PPE to Reduce Biorisks, published by AndyGraham on September 8, 2022 on The Effective Altruism Forum. TL;DR We are intending to run a feasibility study to establish requirements and a theory of change for novel ‘Super PPE’. Assuming this concludes positively we will develop Super PPE to reduce GCBR risk. This post builds on the 11th Jan post on concrete biosecurity projects by ASB, ECA, and the ‘list of lists’ by TA, specifically with regard to ‘Super PPE’. Thank you to the authors of these posts and all the others that have helped with our research so far, particularly Vivian Belenky and their work with the NextGen PPE group, Cass Springer and his knowledge of the area, and Caleb Parikh for advice and for reviewing this post. What is the context? Global Catastrophic Biological Risks (GCBRs) present a known and well documented threat - both in an existential form, and as s-risks from lesser but still greatly damaging pandemics or other biological events [1]. Many data, infrastructure, logistical, and biomedically based methods are in development to reduce catastrophic biorisk [2] [3] [4] [5]. However, there is a concerning lack of development of novel and next generation hardware and physical equipment in the same space. One particular item in this area is Biohazard Personal Protective Equipment. In any potentially catastrophic biological event that breaches initial containment efforts, we have extremely high confidence that widespread use of high protection level PPE, likely akin to positive pressure BSL4 suits, would be required for recovery and continuation of civilisation (we don’t have a source for this but literature in the area discusses it as if given). Unfortunately, existing PPE of an appropriate protection level is not practical for widespread use during a catastrophic event. A quick list of some major issues with suits such as BSL4 suits and L5 Tychem suits: Incredibly bulky and usually poorly fitting - Restrictive in motion and visibility Incredibly hot & humid [6]. (This is often reported as an issue in climate controlled labs, let alone out in the real world; Ebola responders often couldn’t work in an L5 suit for more than one hour due to heat) Prone to Damage of suit fabric (average of 3.5 damages over 6 months!) and hoses Very Expensive: $1500-5000+ Most require external hoses and immobile plant Difficult to put on and take off Limited reusability (in many cases) The development of ‘Super PPE’ was flagged earlier this year in the EA forums as a concrete biosecurity project. This is echoed by other organisations, such as the Apollo program for biodefence, which has identified next-generation PPE as a technology priority for the next decade. This is a sorely overdue development that could see a huge leap in technology/equipment quality, simply due to the fact that designs haven’t significantly changed since 1979. We are aware of some efforts that have been made to improve on full body biohazard PPE, particularly relating to and following the 2014-16 Ebola outbreak. Whilst these improvements are a brilliant start, there is still a long way to go until we reach global-catastrophe-ready suits. What do we propose? In order to make substantial progress on Super PPE, the authors are preparing to apply for funding to perform an initial feasibility study into the design and development of next generation PPE for biorisks. Should the study return favourably (we have high confidence that it will), it will be followed by further stages to prove the concept, create prototypes, and hopefully scale to a final product within 2-5 years. We are intending to do this primarily through an engineering consultancy that we run, which enables access to engineers across several engineering disciplines (including Mechanical, Chemical, Bio, and Materials) and...