key: cord-0872917-cy5vq2kw authors: Shatnawi, Nawaf J; Mesmar, Zaid; Al-Omari, Gaith A; AL-Sheyab, Wesam; AlZoubi, Nabil A; AL-Ghazo, Mohammed; Hamouri, Shadi; AL-Faori, Ibraheem; Bani-Essa, Ali; Matalka, Ismail; Khader, Yousef S; Batieha, Anwar title: Compliance with safety measures and risk of COVID-19 transmission among healthcare workers date: 2021-10-29 journal: Future science OA DOI: 10.2144/fsoa-2021-0094 sha: ba5ca376fa15f47c314e5f2637a6fa0b0f1a8a49 doc_id: 872917 cord_uid: cy5vq2kw Aim: This study aimed to determine the compliance of healthcare workers (HCWs) with the hospital safety measures and the prevalence of hospital-acquired COVID-19 infection among them. Methodology: HCWs at King Abdullah University Hospital (KAUH) assigned for COVID-19 patients between 18 March and 10 June 2020 were tested for past infection using total anti-SARS-CoV-2 immunoglobulin assay, demographic data and compliance with safety measures were assessed using a questionnaire. Results: A total of 340 HCWs participated in the study, 260 were close direct care. Three HCWs tested positive for total anti-SARS-CoV-2 immunoglobulin. Close direct care were more compliant with personal protective guidelines than those providing direct care. Conclusion: HCWs compliance with personal protective guidelines might explain the low prevalence of COVID-19 infection in hospital settings. The novel SARS-CoV-2 pandemic was first reported in 2019 in Wuhan, China. The infection spread rapidly to be recognized as a global pandemic on 11 March 2020 [1, 2] . Therefore, countries around the globe, including Jordan, imposed unprecedented restrictions and adopted safety measures attempting to limit the spread of the virus among public and healthcare facilities [3] [4] [5] . Healthcare workers (HCWs) are exposed to an elevated risk relative to the general population because of closer contact with infected patients especially for those who are designated for taking care of COVID-19 patients [6] . Even some would suggest that its considered as one of the occupational injuries [7] . The availability of personal protective equipment (PPE) in addition to the level of HCWs awareness/compliance with personal protective guidelines is crucial in reducing the rate of the viral transmission especially with the redeployment of less experienced clinical staff to frontline positions [8, 9] . Studies showed that standardized and strict adherence to PPE can reduce nosocomial transmissions [10] . Screening for hospital-acquired SARS-CoV-2 infection is vital for limiting subclinical transmission to noninfected patients, family members and the community as a whole [11] . Reverse transcription PCR (RT-PCR) assay for nasopharyngeal swabs is the diagnostic test for active infection [12] . However, the timing of the RT-PCR assay is a crucial limitation in the molecular diagnostic perspective, where false-negative results may ensue, especially at the early incubation period and late recovery stages of infection [13, 14] . Therefore, RT-PCR is limited to confirmation of active disease and contact tracing [13, 14] . On the other hand, the usage of the early developed rapid antigen tests has shown promising results in detecting COVID-19 among HCWs due to its short term of detection but it had less sensitivity compared with the RT-PCR tests [15] . Consequently, screening by anti-SARSCoV-2 immunoglobulin assay can be more informative in detecting past asymptomatic infections and possible HCWs acquired immunity [16] . King Abdullah University Hospital (KAUH) is a tertiary teaching institution designated to treat confirmed COVID-19 patients in northern Jordan [17, 18] . We aimed to determine the compliance of HCWs with hospital safety measures and the prevalence of hospital-acquired SARS-CoV-2 infection among physicians and nurses using anti-SARS-CoV-2 immunoglobulin assay. This is a cross-sectional study carried out at KAUH between 17 March 2020 and 10 June 2020, reflecting the first wave of COVID-19 in the country. During this period, 177 confirmed COVID-19 patients were hospitalized. A total of 344 HCWs (physician and nurses) were assigned to provide direct care for hospitalized COVID-19 patients. These HCWs were screened by RT-PCR assay of nasopharyngeal swap during May 2020 with no positive results [18] . About 4 weeks later, they were asked to participate voluntarily in this study. Physicians and nurses at KAUH who were assigned to taking direct care of hospitalized COVID-19 patients and had at least one RT-PCR assay were included in this study, while the other HCWs and employees were excluded. Close direct care in our study included those who provided care to COVID-19 patients within a distance of ≤1.5 meters and ≥15 min/24 h or participated in aerosol-generating procedures. Any other type of COVID-19 patient's care in the designated locations was defined as direct care [19, 20] . A questionnaire was structured and sent through emails with a covering letter explaining the purpose of the study. Participation required signing a consent form, answering the questionnaire and providing a blood sample for the total anti-SARS-CoV-2 immunoglobulin assay. The questionnaire included demographic data, occupational characteristics, nature of COVID-19 care, work allocation sites, working hours per shift, comorbidities (hypertension, allergies and smoking history), history of flu-like symptoms during COVID-19 care periods (fever, runny nose, cough, generalized weakness, muscles and joints pain, sore throat), annual influenza vaccination, contact with confirmed COVID-19 patients (outside the hospital, family member) and co-worker confirmed by RT-PCR assay, sleeping pattern changes (difficulty going to sleep, interrupted sleep, nightmares) and changes in regular daily activities (appetite, socialization, irritability, concentration). Compliance with personal protective guidelines recommended PPE and the hospital infection control and prevention (ICP) policy were assessed separately with choices of (always/most of the times/frequently/occasionally). Satisfaction with the hospital education/training process for using PPE (highly satisfied/satisfied/satisfied with preservation/not satisfied) was also included. Sleep pattern changes were considered positive if the HCW answered yes with one or more sleep components. Changes in regular daily activity were considered positive if HCW replied yes with one or more of the question components. Compliance with personal protective guidelines, ICP policy and PPE use was defined if participants reported that always/most of the time. Being satisfied with education/training for PPE use was defined if participants' answers were highly satisfied/almost satisfied. The hospital database and records of the ICP committee were used for relevant data related to the study (date of patient admission and discharge, total admitted confirmed cases, assigned HCWs with their RT-PCR assay, mean hospital stay for confirmed patients). About 5 ml of blood was collected in a plain tube from each participant starting from 23 June 2020. The sample was centrifuged and stored in deep freeze for assays. Total anti-SARS-CoV-2 immunoglobulin Roche (Basel, Switzerland) kits were used for chemiluminescent immune-assay on participants' serum samples running on Cobas instrument (Roche). The test was considered positive according to the kit manufacturing company recommendation. The test kit was calibrated in our lab by the kits control provided. This study was approved by the institutional review board of Jordan University of Science and Technology and the hospital authorities (150/132/2020). Statistical analysis was performed using IBM SPSS Version 24. Data were described using means and percentages. Chi-square test was used to compare percentages and independent t-test was used to compare two groups means. A p-value of less than 0.05 was considered statistically significant. with 30% for direct care providers (p = 0.014). The nature of COVID-19 patient's care with demographic, occupational, health characteristics are presented in Table 3 . Close direct care providers were more complaint with personal protective guidelines (96.5%) compared with direct care providers (88.8%) (p = 0.018) and they were more compliant with the hospital infection control/protection policy (90.4%) compared with the direct care providers (78.8%) (p = 0.010). About 68.8% of the close direct care providers were satisfied with the hospital education/training for PEE use compared with those providing direct care (86.2%). Comparison between the close direct care providers and direct care providers concerning compliance with personal protection guideline/ICP policy, recommended PPE use and satisfaction with education/training for PPE is presented in Table 4 . Only three HCWs (nurses) had positive assays for total anti-SARS-CoV-2 immunoglobulin. Two symptomatic nurses with positive RT-PCR test were hospitalized during 23-30 March 2020 and discharged for home isolation after a negative RT-PCR test. Both had a history of contact with confirmed cases outside the hospital (Irbid wedding, family dinner). The third with a positive assay for total anti-SARS-CoV-2 immunoglobulin was an asymptomatic male nurse (direct care provider) with a negative RT-PCR assay upon screening on May 2020. During the COVID-19 pandemic, the reportedly high risk of HCWs' hospital-acquired infections intensified fears and concerns [21] . Therefore, international and national health authorities recommended extra safety measures and protective guidelines to assure HCWs' safety [3, 22] . Physical distancing, standardized safety measures, contact/respiratory droplets precautions and early identification/isolation of suspected HCWs were recommended to decrease the risk of transmission in healthcare setup [1, 5, 23] . As physical distancing is challenging to achieve in a hospital setup [5] , COVID-19 hospital care in this study was classified as close direct care and direct care. Several investigators reported an increased risk for HCWs providing close contact care compared with those providing care with physical distancing greater than 1-2 meters [19, 24] . The overall prevalence of positive serology assays for HCWs in this study was 0.9%. Of the three HCWs confirmed to have COVID-19, two got the infection from outside hospital contact with confirmed COVID-19 cases. There is accumulative evidence suggesting risk reduction with protected direct care [19, 24] Furthermore, the risk of transmission is high from exposure to undiagnosed asymptomatic patients, coworkers, household members and the community outside hospitals [5, 25] . Therefore, it would be difficult to finally judge where the source of the infection was finally from. Although most HCWs in this study were close direct care providers (76.5%), the prevalence of positive immunoglobulin assay was 0.7% compared with 1.2% for direct care providers. This apparent difference cannot be analyzed for significance due to the limited numbers. The low hospital influx of COVID-19 patients, low community transmission during the first pandemic wave in Jordan and overall compliance with personal protective guidelines and ICP policy were responsible for low prevalence in this study. Close direct care providers were more compliant with personal protective guidelines and ICP policy than direct care providers (p < 0.05). A substantial risk reduction was observed for HCWs while providing protected direct care for confirmed patients [26, 27] ; several other investigators reported a high HCWs risk for transmitted infection due to inadequate training, lack of protective equipment and noncompliance with safety precautions [10, 11] . HCWs providing close direct care in this study had to work for long shift hours compared with direct care providers. The hospital policy offers them 10-14 days of home isolation after each close direct care working shift. Even though reports showed an increased risk of HCWs transmitted infection with increasing load of work and long working shifts hours during the early phase of SARS-CoV-2 pandemic [11] . However, nurses had high compliance with the recommended face mask and face shield/eye goggles compared with physicians (p < 0.05), all seropositive assays were found in nurses. Nurses constitute (66.8%) of the study population, and 2/3 of seropositive nurses had an outside hospital contact with confirmed cases, as stated earlier. One drawback to this study is that emails containing the questionnaire were sent nonanonyms which could carry a biased answer toward a more positive answers in fear of possible accusation and responsibility for breaching rules and regulations. This study demonstrated a higher influenza vaccination rate among physicians (60.2%) than nurses (42.3%). Al-Mistarehi et al. reported that HCWs and those who reported receiving influenza vaccine had higher rates of COVID-19 vaccine acceptance compared with their counterparts (p < 0.001) [28] . There is evidence suggesting reduced mortality in vaccinated elderly Italians [29] . Furthermore, in a mathematical method of viral co-infection, SARS-CoV-2 replication was suppressed easily by many common respiratory viruses [30] . Ragni P et al. found no association between influenza vaccinations and outcomes measures for COVID-19 patients; although, the vaccinated individuals were found to have a lower probability of positive RT-PCR testing [31] . In a recent metaanalysis, the estimated prevalence of positive serological assay is 7% among HCWs; nearly half of them are nurses [32] . The prevalence of SARS-CoV-2 infection among HCWs is variable in different studies, depending on the pandemic phase (early vs late) and diagnostic modality (molecular vs serology) in addition to differences in HCWs population studied [32] . Recent reports demonstrated a reduction in hospital-acquired infection among HCWs due to accumulated knowledge, experience, early detection, isolation, understanding of the ICP measures/personal protective guidelines, proper education/training, availability of PPE and compliance [22, 33] . Although the optimal and proper PPE is a matter of debate, standardized and high compliance with personal protective guidelines and infection prevention/control policies can dramatically reduce nosocomial transmissions [34] . Despite all these improvements in safety precautions, the risk of SARS-CoV-2 transmission among HCWs is several folds higher than that for the community in general [9] . In this study, HCWs providing close direct care had a higher prevalence of sleeping pattern changes. It was established that a considerable proportion of healthcare personnel reported symptoms of mental health problems, ranging from depression, anxiety, insomnia and stress [22] . Also, a considerable proportion of in-hospital quarantined COVID-19 infected patients reported symptoms of depression, regardless of their COVID-19 infection severity [35] . Data has shown that a fourth of HCWs reported mild anxiety, depression or insomnia [36] . Apart from the constant fear of infecting family members, HCWs also described being stigmatized, as they were assumed to be potential sources of contamination [37] . The high level of compliance with infection control/protection policy and personal protective guidelines might explain the low prevalence of positive total anti-SARS-CoV-2 immunoglobulin assays among HCWs in a hospital care setup, Further studies needs to be carried out that would help in developing proper protocols for future pandemics in terms of screening, protective measures in addition to surveillance of the level of compliance. There is a possibility of having other future outbreaks; that is why early implementation of safety precautions and guidelines in dealing with significant outbreaks needs to be considered. Healthcare sectors need to have sufficient resources of PPE in addition to providing protective protocols that aid in decreasing the rate of spreading the virus among HCWs, as well as having early screening tools to detect and isolate infected employees. • COVID-19 pandemic has caused an unpredictable largescale health challenge on the healthcare sectors in general and on healthcare workers (HCWs) in particular. • COVID-19 outbreaks have caused significant restrictions and have forced to adapt major precautions to decrease the risk of infection among HCWs. • Physical distancing, standardized safety measures, contact and respiratory droplets precautions, as well as early identification/isolation of suspected HCWs were recommended to decrease the risk of transmission in the healthcare setup. • Early implementation of the safety measures and compliance to the personal protective guidelines resulted in decreased risk of contracting the virus in the hospital settings. • Reduction in hospital-acquired infection among HCWs in healthcare facilities can be achieved by accumulated knowledge, experience, early detection, isolation, understanding of the ICP measures/personal protective guidelines, proper education/training, availability of PPE. NJ Shatnawi: idea, design and modality, data collection, data analysis, writing and reviewing the manuscript; Z Mesmar: design and modality, data collection, data analysis, writing and reviewing the manuscript; GA Al-Omari: design and modality, data collection, data analysis, writing and reviewing the manuscript; W AL-Sheyab: design and modality, data collection and reviewing the manuscript; NA AlZoubi: design and modality, writing and reviewing the manuscript; M AL-Ghazo: design and modality and reviewing the manuscript; S Hamouri: design and modality, writing and reviewing the manuscript; I AL-Faori: design and modality, writing and reviewing the manuscript; A Bani-Essa: design and modality, data collection and reviewing the manuscript; I Matalka: design and modality, reviewing the manuscript; YS Khader: data analysis, design and modality and reviewing the manuscript; A Batieha: data analysis, design and modality and reviewing the manuscript. saf e-to-keeppatients-safe-who • Provides a declaration from an international organization of the importance of protecting the healthcare workers Comparative infection modeling and control of COVID-19 transmission patterns in China The experiences of healthcare providers during the COVID-19 crisis in China: a qualitative study COVID-19 recommendation for health care worker SARS-CoV2 infection: advocacy for training and social distancing in healthcare settings COVID-19: risks to healthcare workers and their families COVID-19 infection in Italy: an occupational injury Intensive care during the coronavirus epidemic Monitoring approaches for healthcare workers during the COVID-19 pandemic Protecting health care workers during the coronavirus disease 2019 (COVID-19) outbreak: lessons from Taiwan's severe acute respiratory syndrome response Strategic anti-SARS-CoV-2 serology testing in a low prevalence setting: the COVID-19 Contact (CoCo) Study in healthcare professionals Interpreting a COVID-19 test result Molecular diagnostic technologies for COVID-19: limitations and challenges Humoral response and PCR positivity in patients with COVID-19 in the New York City region, USA: an observational study Self-testing with antigen tests as a method for reduction SARS-CoV-2 Serodiagnostics for severe acute respiratory syndrome-related coronavirus-2: a narrative review COVID-19 outbreak in Jordan: epidemiological features, clinical characteristics, and laboratory findings Prevalence of positive COVID-19 among asymptomatic health care workers who care patients infected with the novel coronavirus: a retrospective study First experience of COVID-19 screening of healthcare workers in England This article divided the type of healthcare provided to COVID-19 patients into two groups Clinical characteristics of 138 hospitalized patients with 2019 novel coronavirus-infected pneumonia in Wuhan, China This article divided the type of healthcare provided to COVID-19 patients into two groups Resident physician exposure to novel coronavirus (2019-nCoV, SARS-CoV-2) within New York City during exponential phase of COVID-19 pandemic: report of the New York City residency program directors COVID-19 research group COVID-19: protecting healthcare workers is a priority Infection control guidance for healthcare professionals about coronavirus (COVID19) On behalf of the COVID-19 systematic urgent review group effort (SURGE) study authors Whole-genome sequencing to track SARS-CoV-2 transmission in nosocomial outbreaks Responding to the COVID-19 outbreak in Singapore: staff protection and staff temperature and sickness surveillance systems Association between universal masking in health care system and SARS-CoV-2 positivity among health care workers Determinants of the willingness of the general population to get vaccinated against COVID-19 in a developing country Epidemiological evidence for association between higher influenza vaccine uptake in the elderly and lower COVID-19 deaths in Italy SARS-CoV-2. co infection: could influenza and common could be beneficial Association between exposure to influenza vaccination and COVID-19 diagnosis and outcomes COVID-19 in health-care workers: a living systematic review and meta-analysis of prevalence, risk factors, clinical characteristics, and outcomes Escalating infection control response to the rapidly evolving epidemiology of the coronavirus disease 2019 (COVID-19) due to SARS-CoV2 in Hong Kong Personal protective equipment for preventing highly infectious diseases due to exposure to contaminated body fluids in healthcare staff Supporting the health care workforce during the COVID-19 global epidemic The mental health impact of the covid-19 pandemic on healthcare workers, and interventions to help them: a rapid systematic review Effect of COVID-19 pandemic on mental wellbeing of healthcare workers in tertiary care hospital The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript. This includes employment, consultancies, honoraria, stock ownership or options, expert testimony, grants or patents received or pending, or royalties.No writing assistance was utilized in the production of this manuscript. This work is licensed under the Creative Commons Attribution 4.0 License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/