Infection prevention strategies are highly protective in COVID-19 units while main risks to healthcare professionals come from coworkers and the community

Background Early evaluations of healthcare professional (HCP) COVID-19 risk occurred during insufficient personal protective equipment and disproportionate testing, contributing to perceptions of high patient-care related HCP risk. We evaluated HCP COVID-19 seropositivity after accounting for community factors and coworker outbreaks. Methods Prior to universal masking, we conducted a single-center retrospective cohort plus cross-sectional study. All HCP (1) seen by Occupational Health for COVID-like symptoms (regardless of test result) or assigned to (2) dedicated COVID-19 units, (3) units with a COVID-19 HCP outbreak, or (4) control units from 01/01/2020 to 04/15/2020 were offered serologic testing by an FDA-authorized assay plus a research assay against 67 respiratory viruses, including 11 SARS-CoV-2 antigens. Multivariable models assessed the association of demographics, job role, comorbidities, care of a COVID-19 patient, and geocoded socioeconomic status with positive serology. Results Of 654 participants, 87 (13.3%) were seropositive; among these 60.8% (N = 52) had never cared for a COVID-19 patient. Being male (OR 1.79, CI 1.05–3.04, p = 0.03), working in a unit with a HCP-outbreak unit (OR 2.21, CI 1.28–3.81, p < 0.01), living in a community with low owner-occupied housing (OR = 1.63, CI = 1.00–2.64, p = 0.05), and ethnically Latino (OR 2.10, CI 1.12–3.96, p = 0.02) were positively-associated with COVID-19 seropositivity, while working in dedicated COVID-19 units was negatively-associated (OR 0.53, CI = 0.30–0.94, p = 0.03). The research assay identified 25 additional seropositive individuals (78 [12%] vs. 53 [8%], p < 0.01). Conclusions Prior to universal masking, HCP COVID-19 risk was dominated by workplace and community exposures while working in a dedicated COVID-19 unit was protective, suggesting that infection prevention protocols prevent patient-to-HCP transmission. Article summary Prior to universal masking, HCP COVID-19 risk was dominated by workplace and community exposures while working in a dedicated COVID-19 unit was protective, suggesting that infection prevention protocols prevent patient-to-HCP transmission. Supplementary Information The online version contains supplementary material available at 10.1186/s13756-021-01031-5.


Introduction
Exposure to transmissible diseases is a known occupational hazard for healthcare professionals (HCPs), which warrants robust infection prevention protocols. Early reports from China demonstrated HCP COVID-19 infection rates as high as 44% and subsequent large-scale studies in early 2020 showed a 12-fold higher COVID-19 test-positivity rate among HCPs compared to the community, leading the healthcare facilities to adopt robust measures to protect against patient exposure to COVID-19 [1][2][3][4][5]. Though evidence is beginning to emerge that COVID-19 seroprevalence among HCPs mirrors communities in which they live [6][7][8][9], HCP perception is that their highest risk is during patient care,calling into question the effectiveness of infection prevention strategies deployed to protect them [10,11].
Many currently available studies assess COVID-19 incidence or prevalence among randomly sampled HCPs and infer occupational risk by defining exposure broadly as having worked in healthcare or in a COVID-19 patient unit without addressing ongoing clusters/outbreaks related to coworkers working while ill or community exposures [2,4,5,[7][8][9]. HCP COVID-19 prevalence may also be exaggerated by testing bias from occupational health screening and ready access to tests [2]. Finally, HCPs are essential workers that require in-person activity, increasing the overall number of both community and work-related interactions within a given day. Epidemiologic studies are needed that assess the added risk borne by HCPs due to COVID-19 patient care compared to exposures from coworker in the healthcare setting and the communities where they live.
In this study, we evaluated whether HCP roles, documented COVID-19 patient care, coworker exposures, and geocoded community characteristics were associated with the likelihood of polymerase chain reaction (PCR) or serology positive COVID-19, enriching for those presenting to Occupational Health (OH) with symptoms, those working in COVID-19-designated care units, those on units with COVID-19 HCP outbreaks, and control non-COVID-19 designated units without HCP outbreaks. Our objective was to fully characterize HCP exposure risk factors retrospectively, after outbreak investigations, to identify any previously unidentified COVID-19 positive HCPs using serologic testing.

Study design and population
We conducted a retrospective cohort study combined with a cross-sectional seroprevalence survey of HCP at an academic medical center in Orange County, California between January 1, 2020-April 15, 2020. During this time, the first cases of COVID were identified (cumulative county-wide cases by April 15, 2020 were 1,635), testing availability was limited and largely relegated to hospitalized patients, and vaccines had not yet become available. All patients and HCPs underwent symptom or close-contact exposure screening upon entry into facility and daily. If any of 11 Centers for Disease Control & Prevention (CDC) defined symptom or close contact exposure screens were positive then patients were preemptively placed into COVID-19 precautions, HCPs were not allowed on premises until evaluated by Occupational Health, and all were tested for SARS-CoV-2 by PCR (see Data Collection for details). Universal masking was not yet in place and COVID-19 PPE (droplet masks, face shields, gowns and gloves) was used for patients suspected or confirmed to have COVID-19. To enrich for COVID-19 cases among HCPs, we included: all HCP assigned to designated COVID-19 units (3), hospital units that experienced a COVID-19 HCP outbreak, defined as 2 or more HCP with epidemiologically linked infections (3), and matched control units not designated for COVID-19 care and without an active HCP outbreak (3) during the study period [10]. HCPs included those involved in direct patient care (e.g. doctors, nurses, nursing assistants, physical/speech/respiratory therapists), and those assigned for non-patient care duties (e.g. environmental services, pharmacy, dietary, social work, case management). Eligible HCPs were invited to obtain free serologic testing between May 1 and June 30, 2020. This study was conducted under hospital operations jointly with approval for the use of a research serologic platform from the University of California Irvine IRB.

Data collection
Demographic data and HCP job title/role were obtained from human resources records. Care of an infectious COVID-19 patient or patient room entry was identified using (1) electronic health record (EHR) records from start of the study period through 2 days before Article summary: Prior to universal masking, HCP COVID-19 risk was dominated by workplace and community exposures while working in a dedicated COVID-19 unit was protective, suggesting that infection prevention protocols prevent patient-to-HCP transmission. Keywords: COVID-19 seroprevalence, Healthcare worker COVID-19 exposure, COVID-19 outbreaks, Severe acute respiratory syndrome coronavirus-2, Healthcare professional COVID-19 exposure COVID-19 serology blood collection and (2) manager review of assigned duty locations for HCPs not identifiable through EHR records (e.g., environmental services) and (3) HCP interview for those in outbreaks. OH records provided assessment dates for COVID-19 symptoms and PCR results. Outbreak investigations were conducted by the Epidemiology and Infection Prevention Program (includes authors of this paper) according to CDC guidance consisting of investigation of every suspected or confirmed COVID-19 HCPs for exposure assessment and contact tracing for any linkages between cases by time, location, and activities. Any HCPs meeting exposure criteria were evaluated by Occupational Health, tested by COVID-19 PCR, monitored for symptoms, and furloughed as necessary. Any persons unexpectedly found to be COVID-19 positive were also evaluated for possible exposure to HCPs and other patients. In addition, HCP zipcodes were geocoded to obtain censusbased socioeconomic status (SES) variables focusing on income and housing characteristics (Table 1) [12].
Eligible HCPs also completed a REDCAP survey requesting information on demographics, residential zipcode, comorbidities, COVID-19 patient-care (including aerosol generating procedures (AGPs)), and COVID-19 symptom history (including type/time of onset). Community COVID-19 prevalence was obtained through the Orange County Health Care Agency [13].

Analysis
Percent participation was calculated among each invited cohort. Demographics and characteristics were evaluated as a proportion of participants. Multivariable logistic regression models evaluated the impact of the following variables on the composite outcome of COVID-19 infection defined as either seropositivity or PCR-positivity: demographics, HCP role, comorbidities, COVID-19 patient care (separately assessed by EHR documentation and survey report), ICU assignment, COVID-19 unit assignment, assignment in a unit during an active HCP outbreak, and geocoded SES variables. Self-reported AGP was collinear with COVID-19 care unit and ICU variables, and hence not included in this model. SES variables were evaluated according to previously published literature where possible, including: percent living in zipcodes where ≥ 10% have income below the poverty line, where ≥ 80% have income below the median household income, where ≥ 25% live in a house with 1.5 or more occupants/room, and where 50% households live in structures containing ≥ 5 units [24,25]. We assessed the association between Latino HCPs and living in areas with higher percentages of Latino residents (above median, 35%) to assess whether ethnicity can be considered a community-level exposure risk. Percent owner-occupied housing was evaluated using the median cut-point (58%) of the dataset since owner occupancy in our county is higher than the national average and variable due to large wealth gradients.
Separately, we evaluated symptom association with seropositivity, creating symptom groups using correlation matrices that were then assessed for association with seropositivity using multivariable logistic regression. Finally, performance of each serologic assay was compared.
During the study period, which occurred before universal masking and mandatory N95 use, there were three units with HCP-outbreaks involving 18 HCPs; of these, 8 (44.4%) were exposed to an ill coworker, 6 (33.3%) had no known exposure source, and 3 (16.7%) had community exposure source. Only 1 (5.6%) HCP infection was plausibly related to patient exposure due to breach of personal protective equipment. The first began with an HCP who traveled to an area with widespread COVID-19 and had never cared for a COVID-19 patient; this HCP developed myalgias/arthralgiaswhile at work and sore throat the following day, prompting symptom report and testing. While symptomatic, the HCP interacted directly with two other HCPs who subsequently developed COVID-19 within 4-5 days. Their interactions involved hand-off of a nursing cell phone and sharing lunch in a breakroom. The second outbreak began with a HCP who had no clear source for COVID-19 at work or in the community. The HCP developed symptoms while working and likely infected three other coworkers who worked the same unit and shift; these HCPs subsequently developed symptoms while working, resulting in a cascade of four additional COVID-19 infections in HCPs working during the same shift and/or shared spaces (e.g., breakroom, nursing station, skills class). One physician who did not regularly work on the unit spent less than 1 h at the nursing station and developed COVID-19 without having entered a COVID-19 patient room.
In the third outbreak, a potluck led to 6 HCPs developing COVID-19. Preceding the potluck, a patient tested positive for COVID-19 after being unrecognized while admitted. This patient underwent emergent resuscitation and intubation before COVID-19 diagnosis, but none of the code blue providers developed COVID-19. Five of the six HCPs had not provided care for a COVID-19 patient in the weeks prior to developing symptoms. An administrative staff that assisted with obtaining supplies during the code blue who did not have direct patient contact most likely acquired illness from symptomatic coworkers in the nursing station based on exposure history.

Discussion
Appropriate attribution of true HCP exposure risk must be contextualized by exposure sources faced in community settings and non-patient care work activities, while simultaneously accounting for the infection prevention strategies in place within healthcare settings to mitigate patient exposures. The top predictors of COVID-19 seropositivity were working in an HCP-outbreak unit, Latino ethnicity, and living in zip code with lower owneroccupied housing, reflecting the important contribution of coworkers and community exposures above and beyond documented COVID-19 patient care. In fact, we found that working in a COVID-19 unit (with contact, eye, and droplet-based mask precautions) was protective  against infection, after accounting for the above community and work-related factors, including HCP role and documented care of a COVID-19 patient, suggesting that infection prevention protocols and practices are highly effective in preventing patient-to-HCP transmission. The majority of HCP workhours are spent performing indirect patient-care tasks, such as charting, rounding, or discussing/coordinating care. Direct patient-facing care constitutes 20-40% of HCP time, which decreases by 18% in contact precautions rooms [26][27][28]. During a pandemic, heightened awareness of personal risk results in high PPE and hand hygiene compliance, further decreasing the likelihood of patient care exposures [29][30][31][32]. HCPs spend comparatively more time in communal settings, often in confined and shared spaces such as nursing stations, physician workrooms, breakrooms, and conference rooms [33,34]. The propensity to work while ill further exacerbates coworker exposure risk, an unintended consequence of strong work ethics that lead to working long hours despite physical discomfort or sickness [35].
Our findings that 60% of HCPs involved in COVID-19 outbreaks never cared for a COVID-19 patient and that HCP infections propagated between coworkers highlights the importance of robust daily symptom screening, enforcement of working-well policies, and strict compliance with universal masking and social distancing in communal spaces. Current regulatory agencies emphasize high standards for hand hygiene, PPE compliance, and environmental cleaning practices for patient safety; translating these standards to shared HCP spaces and activities is imperative, particularly during a pandemic [36,37]. This includes increasing the number and strategic placement of hand hygiene stations, environmental cleaning products for high touch items in workstations and breakrooms, workflow and structural modifications to minimize crowding, and robust enforcement of protocol compliance. County COVID-19 cases were higher among Latino and densely populated communities, mimicking national trends showing disproportionately greater burden in socioeconomically disadvantaged areas [13,24]. COVID-19 exposures are more likely in communities with household crowding, low-wage essential workers, and reliance on public transportation, increasing the likelihood of encountering crowded conditions [24,38]. This has two important implications for hospital pandemic response. First, infection prevention strategies to reduce HCP risk should also address community level risks within the workforce, targeting outreach to HCPs from high risk communities, providing culturally and linguistically appropriate education on how to minimize risks within both healthcare and community settings. Since HCPs in socioeconomically disadvantaged communities live with household members who also carry heightened risk for acquiring infection, assuring HCPs are aware of home-based infection prevention practices may afford additional protection. Second, essential workplaces must partner with public health to educate, support contact tracing and quarantining strategies, and facilitate timely testing and management in high-risk communities where their workers reside.
HCP risk perception is integral to promoting behaviors that reduce exposures. Fear and concern about acquiring COVID-19 results in high adherence to hand hygiene and PPE during patient interactions [30]. In contrast, HCPs perceive coworkers or community exposures as less risky, which can increase transmission opportunities in non-clinical spaces (e.g., breakrooms). The earliest reports of high COVID-19 risk among HCPs occurred during inadequate PPE and nascent infection prevention protocols [1,3,30]. Subsequently, national and state regulatory bodies, nursing unions, and the media assumed inadequate PPE was the primary exposure risk in healthcare settings, missing important contributions from coworker or community risk. This led to increasingly intensive direct-care PPE requirements without equal attention to contributions from coworker and community exposures. Notably, the outbreaks in this study occurred before N95 requirements for patient care and we found that droplet-based PPE successfully prevented COVID transmission from