Of Ventilators & Ventilation: Engineering the Coronavirus Out of the Workplace

By NORTIN HADLER, MD (2)

We are all reeling from the language of the COVID-19 pandemic: fatality rates, spread, PPE, distancing, pneumonia, anti-viral drugs, ventilators, second wave, vaccines, serological testing, etc. All of this focuses on the infection with the SARS-CoV-2 coronavirus, and for good reason. People are sick and dying from this infection. However, there is murmuring that will grow in volume as COVID-19 subsides: Will this happen again? Is the annual flu season to become more alarming in the future?  Will we forever be waiting for vaccines and anti-viral drugs with bated breath? 

If we step back and view this nightmare from the perspective of infectivity rather than infection, there may be a way out of this conundrum. Coronaviruses are one of several categories of virus with a proclivity for human respiratory infection. Coronaviruses join Influenza, Ebola, SARS and MERS as respiratory riboviruses. These viruses are tiny bundles, virions, containing a little RNA and not much else. Left alone, little happens. But if they manage to get into a target cell, they commandeer the cell’s metabolic machinery to do their malevolence. They get to their target cell because we inhale them as virions that are aerosolized or carried in the droplets that are produced when infected people exhale. Droplets that are not inhaled settle on surfaces, including surgical and N95 masks, where water evaporates freeing virions to aerosolize unless they are somehow bound to the surface. They are so tiny that even the N95 mesh is an inefficient barrier. One would need filters with such tiny pores that they would impede inhaling.

Infectivity of these riboviruses and probably severity of disease are dose dependent. The more virions one inhales the more likely one is infected. That’s the reason physical distancing is advised. However, these riboviruses retain infectivity for many hours on surfaces during which air currents can launch them and keep them afloat. That’s of little concern out of doors where they are diluted, but not indoors. Modern architectures and civil engineers are well aware of issues that relate to stagnation in built environments. HVAC systems are designed as a compromise between the need to recirculate air for the sake of efficient heating/cooling while turning to filters and air exchanges for the sake of air purity, particularly with regard to inert particulate materials. Concerns about airborne illnesses are seldom primary. In most hospitals, certain rooms are designed as “reverse flow” rooms for patients with contagious diseases with exhaust mechanisms so that the room’s air is released to outside the building, not back into general circulation in the building. Some operating rooms, particularly orthopedic surgical suites, have lamellar flow ventilation to decrease the likelihood of introducing an airborne pathogen along with orthopedic hardware. But otherwise hospitals and other workplaces are not designed with regard to infectivity.

But they could be. In fact, they could be retrofitted with exhausts, fans and/or vents, resulting in enough turnover to decrease the density of airborne pathogens. The precedents in hospitals were designed with bacteria in mind, which are enormous compared to viruses. In “flu season” perhaps a modest decrement in ribovirus density would be all it takes to render our fears of “yet again” more fatuous. Proving this benefit is necessary but would not be an insurmountable challenge. All we’d need do is retrofit similar workplaces with exhaust mechanisms designed to be efficient and others with exhaust mechanisms designed not to be and see if it makes a difference in sickness absence in the next flu season. 

A century ago, it was common sense that “fresh air” was salutary. Every grandmother knew that. A Nobel Prize was awarded to a Danish scientist for treating one form of TB with sunlight and another Prize to Thomas Mann for describing the treatment of TB on a Magic Mountain. Beds were moved out of doors in the 1918 Spanish flu epidemic. Maybe grandmothers knew best.

Nortin M. Hadler MD, MACP, MACR, FACOEM
Emeritus Professor of Medicine and Microbiology/Immunology
School of Medicine, UNC-Chapel Hill

2 thoughts on “Of Ventilators & Ventilation: Engineering the Coronavirus Out of the Workplace

  1. Agree completely – this has been an interest of mine for about 20 years and consider the lack of attention to how respiratory viruses are spread in buildings and the general lack of attention to airborne spread to be a major problem in HVAC design. That is especially the case in environments where this kind of spread is high risk such as medical facilities, schools, and public buildings.

    https://real-psychiatry.blogspot.com/2018/02/viruses-are-in-air.html

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