Abstract
This paper describes a data-driven simulation study that explores the relative impact of several low-cost and practical non-pharmaceutical interventions on the spread of COVID-19 in an outpatient hospital dialysis unit. The interventions considered include: (i) voluntary self-isolation of healthcare personnel (HCPs) with symptoms; (ii) a program of active syndromic surveillance and compulsory isolation of HCPs; (iii) the use of masks or respirators by patients and HCPs; (iv) improved social distancing among HCPs; (v) increased physical separation of dialysis stations; and (vi) patient isolation combined with preemptive isolation of exposed HCPs. Our simulations show that under conditions that existed prior to the COVID-19 outbreak, extremely high rates of COVID-19 infection can result in a dialysis unit. In simulations under worst-case modeling assumptions, a combination of relatively inexpensive interventions such as requiring surgical masks for everyone, encouraging social distancing between healthcare professionals (HCPs), slightly increasing the physical distance between dialysis stations, and—once the first symptomatic patient is detected—isolating that patient, replacing the HCP having had the most exposure to that patient, and relatively short-term use of N95 respirators by other HCPs can lead to a substantial reduction in both the attack rate and the likelihood of any spread beyond patient zero. For example, in a scenario with R0 = 3.0, 60% presymptomatic viral shedding, and a dialysis patient being the infection source, the attack rate falls from 87.8% at baseline to 34.6% with this intervention bundle. Furthermore, the likelihood of having no additional infections increases from 6.2% at baseline to 32.4% with this intervention bundle.
Highlights
As of August 13, 2020, 5.2M people in the United States were infected with the COVID-19 virus, with more than 166K of these cases resulting in death of the patient [1]
The COVID-19 pandemic has essentially taken over the world, with more than 20 million cases spread over 216 countries
A big concern for policy makers all across the world has been the impact of COVID-19 on healthcare systems and whether these systems can cope with the enormous strain placed on them by COVID-19
Summary
As of August 13, 2020, 5.2M people in the United States were infected with the COVID-19 virus, with more than 166K of these cases resulting in death of the patient [1]. Using data from 13 US states, the CDC estimates that among adults hospitalized due to COVID-19 during March 1–May 31, 2020, 5.9% were HCPs and of these, nursing-related occupations (36.3%) represented the largest proportion [2] The CDC reports that 132K US healthcare personnel (HCPs) were infected as of August 13, though this is likely a substantial underestimate because information on whether an individual was an HCP was available for only 22.2% of the total cases. Healthcare settings represent a significant locus of COVID-19 transmission for HCPs. Infections are the second leading cause of mortality among hemodialysis patients [3], and rates of sepsis are approximately 100 times greater than in the general population [4]. Risk of infections and adverse outcomes attributable to infections are in large part due to multiple immune-system deficiencies associated with renal failure and hemodialysis [8,9,10]
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