key: cord-0883206-3u7a3v83
authors: Oster, Yonatan; Michael-Gayego, Ayelet; Rivkin, Mila; Levinson, Leonid; Wolf, Dana G.; Nir-Paz, Ran
title: Decreased prevalence rate of respiratory pathogens in hospitalized patients during the COVID-19 pandemic: possible role for public health containment measures?
date: 2020-12-31
journal: Clin Microbiol Infect
DOI: 10.1016/j.cmi.2020.12.007
sha: afa3c21626d7aa6a64f7970d89ef3e9df9047b4a
doc_id: 883206
cord_uid: 3u7a3v83

We hypothesized that the currently implemented public health measures against COVID-19 might have a restraining effect on the transmission of other respiratory pathogens. In order to test that, we compared the prevalence of non-SARS-CoV-2 respiratory viruses and bacteria in hospitalized patients during April-August 2020, with those observed during the same time in three previous years. During April-August 2020 there was a notable decrease in the positive detection rates, with significant reduction in the detection of human metapneumovirus (0% vs mean 4.2%, p<0.001), parainfluenza 3 (0.61% vs mean 4.09%, p=0.007), adenovirus (0.60% vs mean 6.52%, p<0.001) and M. pneumoniae (0% vs mean 5.74%, p=0.001). Other respiratory bacteria were also detected in reduced numbers. Our findings argue for the broader impact of anti-COVID-19 measures on the transmission and prevalence of other respiratory pathogens, and may thus predict that a lower burden of these infections can be maintained, as long as public health control measures are utilized.

The COVID-19 pandemic is associated with substantial morbidity and mortality, imposing an immense burden on health systems worldwide. One of the additional anticipated threats is the potential surge of other seasonal respiratory pathogensdinfluenza virus, respiratory syncytial virus (RSV) and othersdwhich may result in further exhaustion of health resources. Recent reports from France, Finland and rural Alaska have shown a significant decrease in acute respiratory infections in children after the implementation of lockdown [1, 2] and social distancing [3] . Moreover, recent winter surveillance data from Australia, Korea and Japan have demonstrated a decrease in seasonal influenza activity compared to previous seasons [4e6] . Hence, it is plausible that COVID-19 public health interventions are having a beneficial impact on the prevention of other respiratory pathogens.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was first introduced into Israel in early March 2020 and has gained accelerated transmission since late March [8], triggering a national response that included hand sanitation, voluntary social distancing, later with enforced temporary lockdown and school closure (12th to 31st March 2020), and the wearing of face masks (since 7th April 2020). Those measures resulted in a temporary containment of COVID-19.

We speculated that these interventions may have a restraining effect on the prevalence of other respiratory pathogens. Therefore, we compared the prevalence of non-SARS-CoV-2 respiratory pathogens in patients hospitalized at the Hadassah Medical Center (1100 inpatient beds tertiary medical centre in Jerusalem) during AprileAugust 2020 with those total numbers observed in the pre- From April through August 2020 there was a significant decrease in the number of patients who were tested for non-SARS-CoV-2 respiratory viruses compared to the 3 previous years (173 versus 1108 ± 171; Table 1 and Supplementary Material Table) . Additionally, there was a notable decrease in the positive detection rates, with a significant reduction in the detection of human metapneumovirus (0/173, 0% versus mean 47.0 ± 17.1/1108.0 ± 171, 4.2%, p < 0.001), parainfluenza 3 (1/173, 0.61% versus mean 45.3 ± 15.3/1108.0 ± 171, 4.09%, p 0.007), and adenovirus (1/173, 0.60% versus mean 72.3 ± 35.5/1108.7 ± 171, 6.52%, p < 0.001) ( Table 1 ). For the other tested respiratory pathogensdexcept for Mycoplasma pneumoniae (0/223, 0% versus mean 28.7 ± 11.9/ 499.3 ± 144.8, 5.74%, p 0.001)dthe low seasonal prevalence resulted in difference that didn't reach significance. It should be noted that there were changes related to the hospital's clinical activity during the pandemic. This was noted on the routine vancomycin-resistant enterococcus (VRE) screening data which was performed by a separate team in the lab. During the period, there was a 49% reduction in VRE testing from an average of 5836.3 ± 1132.1 in 2017e2019 to 2976 tests in 2020.

Defining the effect of public health measures against COVID-19 on other major respiratory infections is essential for allocation and preparedness of health resources. Here, we have shown a significant decline in non-SARS-CoV-2 respiratory viruses in hospitalized patients following the implementation of COVID-19 control measures. This decline seemed to exceed the reduction in testing capacity or the decrease in non-COVID-19 hospital activity. During the study period mitigation measures included hand sanitation, partial lockdown, travel restrictions, school closure, and the mandatory use of face masks (AprileAug 2020). Therefore, we cannot determine the distinctive measure that had an impact. A surge in COVID-19 cases attributed to reduced adherence to the measures was documented in the Jerusalem area (and in other regions in Israel) from July. Still, this reduced adherence did not reverse the lower detection rate of other respiratory pathogens (Supplementary Material Table) .

Our findings are in accordance with reports from other countries, as mentioned above. Even when controlling for the reduced non-COVID-19 hospital activity during the pandemic, our finding suggests that milder measures, which are not strict and potent enough to control COVID-19, may enable good containment of other respiratory pathogens.

Our study has some limitations, including the retrospective, single-centred nature of our analysis which involved hospitalized patients only. We did not change the routine for respiratory pathogens analysis in non-COVID19 patients; testing for respiratory pathogens is not mandatory, but is performed in most of the patients admitted to medical wards. Additionally, the observed decreased number of tests/positivity rate may be related to a decrease in hospital admissions (especially in less severe cases) and to the decrease in testing referrals and testing capacity in this period of time. The reported decrease in acute respiratory syndromes and seasonal influenza activity in several countries supports the generalizability of our observations.

In conclusion, our findingsdalong with reports from the southern hemispheredargue for the broader impact of anti-COVID-19 measures, and may hint that in the upcoming autumn and winter season ('influenza and RSV season') the burden associated with other common respiratory pathogens is likely to be reduced as long as anti-COVID-19 control measures are continued.

The study was approved by the Hadassah Medical Center Institutional Ethics Committee, approval number 0460-12.

DW and RNP: concept, design and supervision. YO, RNP and DW: writing, analysis and revision. AMG, MR, LL and RNP: data acquisition.

RNP reports shares in eDAS healthcare. YO, DW, MR, LL and AMG report no conflicts of interest. No external funding was used for this study.

Supplementary data to this article can be found online at https://doi.org/10.1016/j.cmi.2020.12.007. Test numbers are presented in yearly means ± SD for 2017e2019 and absolute number for 2020; p was calculated for comparing number for positive/totals in 2020 versus the total numbers in 2017e2019. There was a reduction in vancomycin-resistant enterococcus (VRE) testing from an average of 5836.3 ± 1132.1 (mean ± standard deviation) in 2017e2019 to 2976 tests in AprileAugust 2020, a reduction of 49%. HMPV, human metapneumovirus; RSV, respiratory syncytial virus; SD, standard deviation.

COVID-19 pandemic: impact caused by school closure and national lockdown on pediatric visits and admissions for viral and non-viral infections, a time series analysis

Effect of social distancing due to the COVID-19 pandemic on the incidence of viral respiratory tract infections in children in Finland during early 2020

Impact of social distancing and travel restrictions on non-COVID-19 respiratory hospital admissions in young children in rural Alaska

Australian Government Department of Health

Impact of public health interventions on seasonal influenza activity during the SARS-CoV-2 outbreak in Korea

Seasonal influenza activity during the SARS-CoV-2 outbreak in Japan